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Patent 2861037 Summary

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(12) Patent Application: (11) CA 2861037
(54) English Title: SUBSTITUTED CELLULOSE ACETATES AND USES THEREOF
(54) French Title: ACETATES DE CELLULOSE SUBSTITUES ET LEURS UTILISATIONS
Status: Deemed Abandoned and Beyond the Period of Reinstatement - Pending Response to Notice of Disregarded Communication
Bibliographic Data
(51) International Patent Classification (IPC):
  • A24D 3/06 (2006.01)
  • A24D 3/10 (2006.01)
  • A24D 3/14 (2006.01)
(72) Inventors :
  • COMBS, MICHAEL T. (United States of America)
  • GARRETT, THOMAS S. (United States of America)
(73) Owners :
  • CELANESE ACETATE LLC
(71) Applicants :
  • CELANESE ACETATE LLC (United States of America)
(74) Agent: SMART & BIGGAR LP
(74) Associate agent:
(45) Issued:
(86) PCT Filing Date: 2013-01-23
(87) Open to Public Inspection: 2013-08-01
Examination requested: 2014-07-10
Availability of licence: N/A
Dedicated to the Public: N/A
(25) Language of filing: English

Patent Cooperation Treaty (PCT): Yes
(86) PCT Filing Number: PCT/US2013/022625
(87) International Publication Number: WO 2013112502
(85) National Entry: 2014-07-10

(30) Application Priority Data:
Application No. Country/Territory Date
13/359,603 (United States of America) 2012-01-27

Abstracts

English Abstract

The present invention relates to substituted cellulose acetates and methods of use thereof. One embodiment of the present invention provides a cigarette filter material having a filter having a substituted cellulose acetate having a polar substituent that has an oxygen atom covalently bonded to a nonmetal selected from the group of sulfur, phosphorus, boron, and chlorine; wherein the nonmetal is present in at least 0.01% by weight of the substituted cellulose acetate.


French Abstract

L'invention concerne des acétates de cellulose substitués et leurs méthodes d'utilisation. On décrit, dans un mode de réalisation de l'invention, une matière de filtre de cigarette qui comporte un filtre comprenant un acétate de cellulose substitué dont un substituant polaire comprend un atome d'oxygène lié de manière covalente à un élément non métallique choisi dans le groupe du soufre, du phosphore, du bore et du chlore, l'élément non métallique étant présent dans une proportion d'au moins environ 0,01% en poids de l'acétate de cellulose substitué.

Claims

Note: Claims are shown in the official language in which they were submitted.


CLAIMS
What is claimed:
1. A cigarette filter material comprising:
a filter comprising a cellulose diacetate and a substituted cellulose acetate
comprising a polar substituent that comprises an oxygen atom covalently
bonded to a nonmetal selected from the group consisting of: sulfur,
phosphorus,
boron, and chlorine; wherein the nonmetal is present in at least 0.01% by
weight of the substituted cellulose acetate.
2. The cigarette filter material of claim 1 wherein the nonmetal is present
in
no more than about 25% by weight of the substituted cellulose acetate.
3. The cigarette filter material of claim 1 further comprising a
plasticizer.
4. The cigarette filter material of claim 3 wherein the plasticizer
comprises a
plasticizer selected from the group consisting of: esters of saturated dibasic
acids, esters of saturated polyhydric alcohols, fatty acid esters, and
sulfonamide
resins.
5. The cigarette filter material of claim 1 wherein the substituted
cellulose
acetate is a tow.
6. A smoking device comprising:
a smokeable substance; and
a cigarette filter comprising a cellulose diacetate and a substituted
cellulose acetate filament comprising a polar substituent that comprises an
oxygen atom covalently bonded to a nonmetal selected from the group
consisting of: sulfur, phosphorus, boron, and chlorine; wherein the nonmetal
is
present in at least about 0.01% by weight of the substituted cellulose
acetate.
7. The smoking device of claim 6 wherein the nonmetal is present in no more
than about 25% by weight of the substituted cellulose acetate.
8. The smoking device of claim 6 wherein the smokeable substance is
tobacco.
9. The smoking device of claim 8 wherein the tobacco has undergone a
treatment comprising a treatment selected from the group consisting of:
drying,
fermenting, curing, cutting, and any combination of these.
10. The smoking device of claim 6 wherein the smoking device is a cigar, a
pipe, a cigarette, or a vaporizer.
11. A process for making a substituted cellulose acetate tow comprising:
spinning a dope comprising a solution of cellulose diacetate; substituted
29

cellulose acetate comprising a polar substituent that comprises an oxygen atom
covalently bonded to a nonmetal selected from the group consisting of: sulfur,
phosphorus, boron, and chlorine, wherein the nonmetal is present in at least
about 0.01% by weight of the substituted cellulose acetate; and solvent;
taking-up the as-spun substituted cellulose acetate filaments;
forming a tow from the substituted cellulose acetate filaments;
crimping the tow;
conditioning the crimped tow; and
baling the dried crimped tow.
12. The process of claim 11 wherein the nonmetal is present in no more than
about 25% by weight of the substituted cellulose acetate.
13. The process of claim 11 wherein the solvent is selected from the group
consisting of: water, acetone, methylethyl ketone, methylene chloride,
dioxane,
dimethyl formamide, methanol, ethanol, glacial acetic acid, supercritical CO2,
and any combination thereof.
14. The process of claim 11 wherein the substituted cellulose acetate is
spun
in a spinneret.
15. The process of claim 14 wherein the spinneret comprises holes.
16. The process of claim 11 further comprising the step of lubricating the
substituted cellulose acetate filaments.

Description

Note: Descriptions are shown in the official language in which they were submitted.


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SUBSTITUTED CELLULOSE ACETATES AND USES THEREOF
BACKGROUND
[0001] The present invention relates to synthetic polymers and, in
particular, to substituted cellulose acetates, and methods of use thereof.
[0002] Cellulose acetate is an acetate ester derivative of cellulose, a
naturally occurring biopolymer comprising 13-D-glucose monomer units, and is
widely used to make a variety of consumer products. Naturally occurring
cellulose is insoluble in water and most organic solvents. However, the three
free hydroxyl groups of each glucose monomer unit in cellulose can be
derivatized to modify certain properties, for example, solubility in certain
solvents. Cellulose acetate is thought to be among the most commercially
useful
derivatives of cellulose, and its specific physical and chemical properties
generally depend largely on the degree of substitution of acetate on the three
free hydroxyl groups of a glucose monomer unit.
[0003] Since its first synthesis, cellulose acetate has been used, among
other things, as a film base in photography, a component in adhesives, and a
raw material used in the manufacture of cigarette filters. One of the key
attributes of cellulose acetate is that it can be processed into many
different
shapes and forms, including, films, tows, flakes, fibers, and solids,
depending on
the desirability of the application. For example, cellulose acetate tow is
primarily
used in the manufacture of cigarette filters.
[0004] Most typically, derivatization of cellulose is conducted using
acidic catalysts at elevated reaction temperatures. The synthesis of cellulose
acetate involves acetylating cellulose, which is commonly obtained from wood
pulp, in the presence of acetic anhydride and acids. Acetic acid and sulfuric
acid
are the two acids usually present during the acetylation reaction.
In this
reaction, the acetic anhydride serves as the primary acetylating agent; the
acetic acid is used primarily as a diluent; and a small amount of the sulfuric
acid
is used as the catalyst. In general, the monomeric units of cellulose have
three
hydroxyl groups that are readily available for substitution, e.g., via
acetylation.
The monomeric units at both ends also have an additional hydroxyl group that
are typically involved inter-sugar linkages.
[0005] The product of the acetylation reaction is a primary cellulose
acetate that usually contains high concentration levels of acetate or, in
other
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words, has a high degree of substitution (DS) of acetate. As used herein,
"degree of substitution of acetate" generally refers to the average number of
acetates per glucose monomer unit. The structure of cellulose acetate may be
generally characterized by specifying the degree of substitution of acetate.
Exhaustively acetylated cellulose is commonly referred to as cellulose
triacetate,
where, according to Federal Trade Commission guidelines, at least 92% of the
hydroxyl groups are substituted with acetyl groups. For example, when there
are at least about two acetyl groups per cellulose monomer unit (that is, a DS
of
about 2), the acetyl cellulose can become significantly less biodegradable
until at
least some of the acetyl groups are removed via chemical or enzymatic
hydrolysis. Acetylated cellulose having reduced DS of acetate can be prepared
by controlled hydrolysis of cellulose triacetate.
[0006] Next, the primary cellulose acetate is hydrolyzed in the presence
of acetic acid and sulfuric acid to reduce the DS of acetate of the primary
[0007] Once cellulose acetate flake is obtained, it may be subjected to
further treatment in order to process the cellulose acetate to its desired
form.
For example, cellulose acetate tow may be formed by dissolving the cellulose
process, filaments of cellulose acetate are collected.
These filaments are
typically bundled and then crimped to ensure tow band cohesion as well as
30 acetate.
[0008] Cellulose acetate is also environmentally friendly in that it is a
readily degradable material made largely from a renewable source, wood pulp.
While cellulose acetates that vary in their DS of acetate are structurally
similar,
this variation can have some effect on the biodegradability of the cellulose
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acetate. At higher degrees of acetyl substitution, the rate of biodegradation
can
be significantly reduced relative to naturally occurring cellulose or
cellulose
having less acetyl substitution. Cellulose acetates having a lower DS of
acetate
biodegrade more readily than cellulose acetates having a higher DS of acetate.
This trend is believed to taper off at lower DS of acetate values because the
material becomes insoluble in water. In one example, the biodegradation rates
of cellulose acetate having DS values of 1.85, 2.07, and 2.57 were tested for
their biodegradability (Figure 1). The cellulose acetate with a DS of 1.85
showed
the highest biodegradation rate while the cellulose acetate with an acetyl
value
of 2.57 showed the slowest biodegradation rate.
While cellulose acetate is a versatile composition with many commercial uses,
the properties of certain cellulose acetate derivatives have not been
exhaustively
studied. For example, in a typical synthesis, residual sulfate groups are
typically
removed in order to improve thermal stability. As a result, cellulose acetates
synthesized by typical means will have about 0.005% or less of sulfur atoms by
weight. As such, there are potential derivatives of cellulose acetate that may
provide enhanced properties for many of the consumer applications of cellulose
acetate.
SUMMARY OF THE INVENTION
[0009] The present invention relates to synthetic polymers and, in
particular, to substituted cellulose acetates, and methods of use thereof.
[0010] In some embodiments, the present invention provides diapers
comprising: an inner layer comprising an absorbent core comprising a
substituted cellulose acetate comprising a polar substituent that comprises an
oxygen atom covalently bonded to a nonmetal selected from the group
consisting of: sulfur, phosphorus, boron, and chlorine; wherein the nonmetal
is
present in at least about 0.01% by weight of the substituted cellulose
acetate;
and an outer layer.
[0011] In other embodiments, the present invention provides bandages
comprising: an absorbent layer comprising a substituted cellulose acetate
comprising a polar substituent that comprises an oxygen atom covalently
bonded to a nonmetal selected from the group consisting of: sulfur,
phosphorus,
boron, and chlorine; wherein the nonmetal is present in at least about 0.01%
by
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weight of the substituted cellulose acetate; and a strip designed to place the
absorbent layer in contact with a wound.
[0012] In still other embodiments, the present invention provides
potting soil compositions comprising: an organic compost; and an absorbent
composition comprising a substituted cellulose acetate comprising a polar
substituent that comprises an oxygen atom covalently bonded to a nonmetal
selected from the group consisting of: sulfur, phosphorus, boron, and
chlorine;
wherein the nonmetal is present in at least about 0.01% by weight of the
substituted cellulose acetate.
[0013] In still other embodiments, the present invention provides
amended soil compositions comprising: a soil composition; and a water
retention
additive comprising a substituted cellulose acetate comprising a polar
substituent that comprises an oxygen atom covalently bonded to a nonmetal
selected from the group consisting of: sulfur, phosphorus, boron, and
chlorine;
wherein the nonmetal is present in at least about 0.01% by weight of the
substituted cellulose acetate.
[0014] In still other embodiments, the present invention provides
articles comprising: a nonwoven layer that comprises fibers from a substituted
cellulose acetate comprising a polar substituent that comprises an oxygen atom
covalently bonded to a nonmetal selected from the group consisting of: sulfur,
phosphorus, boron, and chlorine; wherein the nonmetal is present in at least
about 0.01% by weight of the substituted cellulose acetate.
[0015] In still other embodiments, the present invention provides
methods comprising: providing a substituted cellulose acetate comprising a
polar
substituent that comprises an oxygen atom covalently bonded to a nonmetal
selected from the group consisting of: sulfur, phosphorus, boron, and
chlorine;
wherein the nonmetal is present in at least about 0.01 % by weight of the
substituted cellulose acetate; and placing the substituted cellulose acetate
in an
absorbent article.
[0016] In still other embodiments, the present invention provides
methods comprising: providing an absorbent material comprising a substituted
cellulose acetate comprising a polar substituent that comprises an oxygen atom
covalently bonded to a nonmetal selected from the group consisting of: sulfur,
phosphorus, boron, and chlorine; wherein the nonmetal is present in at least
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about 0.01% by weight of the substituted cellulose acetate; and placing the
absorbent material in a diaper.
[0017] The features and advantages of the present invention will be
readily apparent to those skilled in the art upon a reading of the description
of
the preferred embodiments that follows.
BRIEF DESCRIPTION OF THE DRAWINGS
[0018] The following figures are included to illustrate certain aspects of
the present invention, and should not be viewed as exclusive embodiments. The
subject matter disclosed is capable of considerable modification, alteration,
and
equivalents in form and function, as will occur to those skilled in the art
and
having the benefit of this disclosure.
[0019] Figure 1 shows a biodegradability plot of cellulose acetate with
varying degrees of substitution.
[0020] Figure 2 shows water absorbency data as described in Example
3.
[0021] Figure 3 shows water absorbency data as described in Example
3.
[0022] Figure 4 shows water absorbency data as described in Example
3.
[0023] Figure 5 shows water absorbency data as described in Example
3.
DETAILED DESCRIPTION
[0024] The present invention relates to synthetic polymers and, in
particular, to substituted cellulose acetates, and methods of use thereof.
[0025] The present invention provides compositions, methods, and
processes related to substituted cellulose acetates that have a number of
advantageous and/or desirable properties. The substituted cellulose acetates
of
the present invention may be utilized in a variety of applications including a
number of consumer products, especially where absorbency, adhesiveness,
and/or degradability, may be useful.
[0026] As used herein, the term "substituted cellulose acetate"
generally refers to a cellulose acetate that has at least one polar
substituent
substituted on the hydroxyl group of a cellulose polymer. As used herein, a
"polar substituent" is a non-acetyl chemical moiety comprising an
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electronegative atom (e.g., oxygen) bonded to a nonmetal (e.g., sulfur,
phosphorus, boron, and chlorine) atom.
[0027] It has been surprisingly discovered according to the present
invention that substituted cellulose acetate composition having relatively
high
weight percentage of at least one nonmetal atom corresponding to a polar
substituent having a relatively high degree of substitution can be provided.
Moreover, it has also been surprisingly discovered, that the percentage weight
of
nonmetal atoms, may be adjusted and/or modified to yield or enhance various
properties of substituted cellulose acetate as described herein.
[0028] The substituted cellulose acetates of the present invention are,
in some embodiments, versatile (i.e., possess many distinct desirable chemical
and physical properties) and environmentally friendly (i.e., made from
renewable sources, degradable, biodegradable, etc.) materials suitable for use
in
a number of consumer products.
[0029] As used herein, "degradable" refers to the ability of a material to
decompose and/or break down into simpler parts. As used herein,
"biodegradable" refers to the ability of a material to degrade by the action
of
living things. Depending on the application, the definition of "biodegradable"
may be subject to the results of standard tests, for example, the Organisation
for Economic Co-operation and Development (OECD) testing protocols.
[0030] Without being limited by theory, it is believed that by adjusting
the
percentage weight of the nonmetal atom of a polar substituent, a
substituted cellulose acetate of the present invention can provide new or
enhanced chemical and/or physical properties. For example, it is believed that
certain polar substituents (e.g., sulfate) can increase the hydrophilicity of
the
substituted cellulose acetate as well as increase the potential for
electrostatic
interaction.
[0031] The substituted cellulose acetate compositions, which are
described in more detail hereinafter, have certain advantageous properties and
commercial roles (e.g., as an adhesive, chemical stabilizer, absorbent) that
may
be imparted or enhanced based on the percentage weight of nonmetal atom
present. In some embodiments, tuning the percentage weight of the nonmetal
atom may remove or reduce an undesirable quality or property in the
substituted cellulose acetate.
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[0032] A substituted cellulose acetate may be described by the
concentration of its polar substituents which, in turn, may be specified in
terms
of degree of substitution of the polar substituent (i.e., average number of
substituent per glucose monomer unit) or as a percentage weight of the
nonmetal (e.g., sulfur, phosphorus, boron, and chlorine) atom present relative
to
the total weight of the substituted cellulose acetate.
In practical terms,
modifying the degree of substitution of a polar substituent will also modify
the
percentage weight of the nonmetal atom on a substituted cellulose acetate by a
predictable amount and vice versa. Accordingly, it may be assumed that
increasing the degree of substitution of a polar substituent will generally
increase the percentage weight of the nonmetal atom present on a substituted
cellulose acetate. Conversely, decreasing the degree of substitution of a
polar
substituent will generally decrease the percentage weight of the nonmetal atom
present in a substituted cellulose acetate by a predictable amount.
[0033] In theory, the percentage weight of the nonmetal atom in a
substituted cellulose acetate may range from about 0.01% to about 25%, which
corresponds to a cellulose acetate that has few polar substituents (in some
cases, significantly and surprisingly more than typically prepared cellulose
acetate) and a cellulose acetate that has been exhaustively substituted. While
the present invention is preferably practiced by specifying the percentage
weight
of the nonmetal of the polar substituent, the present invention may be
equivalently practiced by specifying the degree of substitution of the polar
substituent or other similar measures of concentration.
The degree of
substitution of a polar substituent may range from about 0.005 to about 3.
[0034] Various embodiments described herein utilize substituted
cellulose acetate having a polar substituent in a wide range of consumer
products. By adjusting the percentage weight of the nonmetal atom of the polar
substituent, it is believed that the substituted cellulose acetate
compositions of
the present invention may be used, among many things, as an effective
absorbent, an adhesive, a chemical stabilizer, and a stabilizing film forming
agent. For example, by adjusting the percentage weight of a sulfur atom (e.g.,
of a sulfate substituent), the substituted cellulose acetate of the present
invention may go from a water-soluble material to a water-swellable material.
In some embodiments, the water-swellable substituted cellulose acetate
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composition may be used as a degradable coating to encapsulate, for example, a
pharmaceutical composition so that the release of the pharmaceutical
composition is delayed in the body. Other properties that may be adjusted
include, but are not limited to, solubility in certain solvents, ability to
stabilize
emulsions, adhesiveness to various surfaces, and biodegradability.
These
properties may be further adjusted by modifying the percentage weight of the
nonmetal atom of the polar substituent present in the substituted cellulose
acetate as needed. A person of ordinary skill in the art should be able to
modify
the percentage weight of nonmetal as necessary in order to practice the many
embodiments of the present invention.
[0035] In some embodiments, modifying the degree of substitution of
acetate may also yield or enhance certain properties of the substituted
cellulose
acetate. In some embodiments, the water-soluble substituted cellulose acetate
has a degree of substitution of acetate between about 0.4 to about 1. In some
embodiments, the water-swellable substituted cellulose acetate has a degree of
substitution of acetate between about 1 to about 2.
As the degree of
substitution of acetate is varied between 0.05 to 3, the appropriate solvent
system may change. In some embodiments, at the relatively lower degree of
substitution of acetate, water is an appropriate solvent. In some embodiments,
at the relatively higher degree of substitution of acetate, an organic solvent
is
required. The degree of substitution may be varied so that a solvent system
can
be selected that is appropriate to the targeted end use.
[0036] In some embodiments, the degree of substitution of a polar
substituent may be kept relatively fixed while the degree of substitution of
acetate is adjusted. In some embodiments, the combination of adjusting the
degree of substitution of polar substituent and degree of substitution of
acetate
provides the substituted cellulose acetate with the desired properties. In
some
embodiments, the range of degree of substitution of polar substituent may
affect
the range of degree of substitution of acetate that is needed to provide the
substituted cellulose acetate with the desired properties. In some
embodiments,
the range of degree of substitution of acetate may affect the range of degree
of
substitution of polar substituent that is needed to provide the substituted
cellulose acetate with the desired properties.
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[0037] The potential commercial uses of substituted cellulose acetate of
the present invention are wide ranging and include, but are not limited to,
household articles such as buttons, glasses, linings, blouses, dresses,
wedding
and party attire, home furnishings, draperies, upholstery, slip covers, and
the
like. Other commercial uses include filters including cigarette, ink
reservoirs,
playing cards, and the like, and high absorbency products such as diapers and
surgical products.
[0038] In some embodiments, as an absorbent, the substituted
cellulose acetates of the present invention have a water absorption capacity
several times (for example, from about 8 times to about 24 times) its weight
in
an aqueous-based fluid (e.g., water, saline solution, etc.) depending on the
percentage weight of the nonmetal atom present on the substituted cellulose
acetate.
[0039] In some embodiments, the substituted cellulose acetates of the
present invention may be effective as an adhesive, able to glue a variety of
substrates including, but not limited to, cardboard, plastic, paper, glass,
wood,
hemp, saw dust, composites (e.g., fiber reinforced composites), wood shavings
and the like. It is also believed that the substituted cellulose acetates of
the
present invention may be an effective chemical/colloidal stabilizer, able to
stabilize various emulsion mixtures.
[0040] In some embodiments, the substituted cellulose acetates of the
present invention may be used as a stabilizing film forming agent to promote
the
formation of film of a given mixture. In some embodiments, the formed film
may be clear.
[0041] The substituted cellulose acetate may exist in many different
forms and be utilized in many different ways. In some embodiments, the
substituted cellulose acetate may be fibers, woven fabrics, nonwoven fabrics,
tows or tow bands (open or non-open), flakes, foams, emulsions, films, gels,
dispersions, solutions, pastes, suspensions, and combinations thereof. In some
embodiments, the substituted cellulose acetate may be used as coatings,
additives, films, layers, cores, and the like.
[0042] In some embodiments, the present invention also provides
processes for forming substituted cellulose acetate into various shapes of
substituted cellulose acetate (e.g., substituted cellulose acetate tow). These
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processes typically put the substituted cellulose acetate in a better form to
be
utilized in certain applications.
For example, fibers of substituted cellulose
acetate may have the particularly desirable properties of being able to
selectively absorb and remove levels of certain organic chemicals; being water-
soluble or water-swellable; having a high surface area; and being compatible
with dyes. It is also believed that the fibers of substituted cellulose
acetate may
have resistance to mold and mildew. A substituted cellulose acetate may be
particularly desirable in textile applications.
[0043] While at least some embodiments relate to cellulose acetates
having at least one polar substituent, derivatives of cellulose acetates
having at
least one polar substituent may also be used in accordance with any of the
compatible embodiments of the present invention.
Derivatives of cellulose
acetate may include, but are not limited to, cellulose acetate esters,
cellulose
acetate mixed esters, and the like. Suitable examples of cellulose acetate
esters
include, but are not limited to, cellulose acetate propionates, cellulose
acetate
butyrates, and the like. The degree of esterification of the cellulose acetate
esters will depend, at least in part, on the particular application and will
be
apparent to those of ordinary skill in the art.
[0044] The substituted cellulose acetate of the present invention may
be characterized by having a polar substituent that comprises an oxygen atom
covalently bonded to a nonmetal selected from the group consisting of: sulfur,
phosphorus, and boron; wherein the nonmetal is present in at least 0.01% by
weight of the substituted cellulose acetate. In some embodiments, the nonmetal
may be present in no more than about 25% by weight of the substituted
cellulose acetate. Without being limited by theory, it is believed the upper
limit
of 25% by weight corresponds to a fully substituted cellulose derivative
(e.g.,
sulfate). The exact range of nonmetal weight percentage will depend on, among
other things, the chemical makeup of the polar substituent.
[0045] Generally, at least a portion of hydroxyl groups on a substituted
cellulose acetate will be substituted by acetate. In some embodiments, the
degree of substitution of acetate will be from about 0.05 to about 3,
preferably
from about 0.4 to about 2. In some embodiments, the ratio of degree of
substitution of acetate to degree of substitution of polar substituent may be
adjusted to produce or enhance the desired property of a substituted cellulose

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acetate of the present invention. In some embodiments, the DS of acetate is
higher than the DS of the polar substituent.
[0046] Optionally, the substituted cellulose acetate may further
comprise or be mixed with a plasticizer.
Suitable examples of plasticizers
include, but are not limited to, glycerin, glycerin esters (including mono, di
or
triacetyl glycerin and glycerin esters), polyethylene glycol, diethylene
glycol,
propylene glycol, dimethyl sulfoxide, glycerol triacetate, triethylene glycol
diacetate, derivatives thereof, combinations thereof, and mixtures thereof. In
some embodiments, the plasticizer comprises a plasticizer selected from the
group consisting of esters of saturated dibasic acids, esters of saturated
polyhydric alcohols, fatty acid esters, sulfonamide resins, derivatives
thereof,
and combinations thereof. Plasticizers may be added to the substituted
cellulose
acetate in order to lower the glass transition temperature (Tg) and the
melting
point of the composition. Plasticizers typically function to facilitate
processing
and to increase the flexibility and toughness of the final product. It is also
believed that certain plasticizers (e.g., ether ester, simple ester type,
etc.) may
increase the capacity of substituted cellulose acetate filters for phenol
removal
which is a useful property in cigarette filters.
[0047] In some embodiments, the polar substituent may be selected
from the group consisting of sulfates, phosphates, borates, carbonates, and
combinations thereof. In some embodiments, the polar substituent is present in
at least about 0.03% by weight of the substituted cellulose acetate. In some
embodiments, the nonmetal of the polar substituent is present in no more than
about 75% by weight of the substituted cellulose acetate. The exact range of
polar substituent weight percentage will depend on, among other things, the
chemical makeup of the polar substituent.
[0048] In one or more embodiments, the substituted cellulose acetate
may have properties that may be imparted or enhanced by increasing or
decreasing the concentration of polar substituents or nonmetal atoms. In some
embodiments, the substituted cellulose acetate may be water-soluble. In some
embodiments, the substituted cellulose acetate may be water-swellable. In
some embodiments, the substituted cellulose acetate may be water resistant. In
some embodiments, it may be desirable for the substituted cellulose acetate to
have a relatively high sulfur percentage and a relatively high degree of
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substitution for acetate.
In particular, water-swellable materials are often
marked by their ability to absorb water and are used as water-stopping
material,
water-retaining material, material supplies, and the like. In some
embodiments,
the substituted cellulose acetate may be degradable. In some embodiments, the
substituted cellulose acetate may be biodegradable.
[0049] The substituted cellulose acetate of the present invention may
be utilized as an absorbent material for a number of consumer applications.
The
present invention provides, in some embodiments, diapers comprising an
absorbent core comprising the substituted cellulose acetate of the present
invention and an outer layer. Optionally, the diaper may further comprise a
distribution layer designed to transfer wetness to the absorbent core and/or
an
outer shell that covers at least a portion of the absorbent core.
[0050] In some embodiments, the distribution layer is interposed
between the absorbent core and the outer layer. In some embodiments the
distribution layer may be waterproof.
[0051] In some embodiments, the outer layer surrounds the absorbent
core. In some embodiments, the outer layer is waterproof.
In some
embodiments, the outer layer is configured to receive an insertion of the
absorbent core. The outer layer may also be colored or feature ornamental
designs that increases the visual attractiveness of the diaper. In some
embodiments, the outer layer is configured with an opening to receive an
insertion of an absorbent core. In some embodiments, the outer layer may be
reusable.
[0052] In some embodiments, the outer layer is made from a material
comprising a material selected from the group consisting of polyethylene,
nonwoven film, composite film, cloth, and combinations thereof.
[0053] In some embodiments, the diaper may be disposable. In some
embodiments, at least a portion of the diaper may be reusable.
[0054] The present invention provides, in some embodiments,
bandages comprising an absorbent layer comprising a substituted cellulose
acetate of the present invention and a strip designed to maintain the
absorbent
layer in contact with a wound. Optionally, the absorbent layer further
comprises
an active ingredient selected from the group consisting of antibiotics,
analgesics,
antipyretics, antimicrobials, antiseptics, antiallergies, anti-acne,
anesthetics,
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anti-inflammatories, hemostats, cosmetics, vitamins, vasodilators, emollients,
pH regulators, antipruritics, counterirritants, antihistamines, steroids, and
combinations thereof.
[0055] In some embodiments, the antiseptic may comprise at least one
transition metal. Suitable examples of a transition metal include, but are not
limited to, aluminum, nickel, copper, zinc, titanium, iron, and silver.
[0056] In some embodiments, the wound is an incision, a laceration, an
abrasion, a puncture wound, a penetration wound, or any combinations of these.
[0057] In some embodiments, the strip may be elastic. In some
embodiments, the strip may be adhesive. In some embodiments, the strip
comprises a material selected from the group consisting of: woven fabric,
nonwoven fabric, plastic, latex, and combinations thereof.
[0058] In some embodiments, the cigarette filter materials of the
present invention comprise a segmented filter or a section of a filter
comprising
a substituted cellulose acetate of the present invention. In some embodiments,
the cigarette filter materials of the present invention further comprise a
conventional secondary cellulose diacetate. Optionally, the cigarette filter
materials further comprise a plasticizer. Without being limited by theory, it
is
believed that the substituted cellulose acetate should increase the
degradability
of the cigarette filter material.
[0059] Suitable examples of plasticizers for use with cigarette filter
material related embodiments include phthalate, acetyl triethyl citrate,
triethyl
citrate, acetyltributyl citrate, dibutylsebacate, triacetin, glyceryl
triacetate,
polyethylene glycol, propylene glycol, and glycerin.
[0060] In some embodiments, the substituted cellulose acetate may be
a tow. In some embodiments, the substituted cellulose acetate is formed in a
rod shape.
[0061] In some embodiments, the smoking devices of the present
invention comprise a smokeable substance and a cigarette filter that comprises
a
substituted cellulose acetate filament of the present invention. As used
herein, a
"smokeable substance" includes anything (e.g., tobacco) that may be burned
and its smoke can be tasted or inhaled. Tobaccos may be utilized in any number
of different forms including, but not limited to, dried, fermented, cured,
cut, and
the like.
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[0062] In some embodiments, a smoking device may comprise a cigar,
a pipe, a cigarette, a vaporizer, and the like.
[0063] In some embodiments, the coated seeds of the present
invention comprise a seed that is coated with a coating that comprises a
substituted cellulose acetate of the present invention. Optionally, the coated
seeds further comprise a secondary growth augmentation coating. Suitable
examples of secondary growth augmentation coating may be selected from the
group consisting of primary nutrients, secondary nutrients, hormones,
insecticides, pesticides, herbicides, fungicides, bactericides, pigments,
binders,
surfactants, glidants, and combinations thereof.
[0064] Suitable examples of primary nutrients for use in conjunction
with some embodiments of the present invention may include, but are not
limited to, ammonium nitrate, urea, ammonium phosphate, ammonium sulfate,
urea phosphate, ammonium molybdate, potassium nitrate, potassium
phosphate, potassium hydroxide, potassium sulfate, and potassium chloride.
[0065] Suitable examples of secondary nutrients are selected from the
group consisting of magnesium sulfate, calcium nitrate, sodium borate,
magnesium nitrate, chelated complex of copper, calcium, iron, zinc, magnesium,
manganese, ammonium molybdate, sodium molybdate, benzoic acid, and
salicylic acid.
[0066] Suitable examples of binders for use in conjunction with some
embodiments of the present invention may include, but are not limited to,
methylcellulose, ca rboxymethylcel I ulose,
hydroxymethylcellulose,
hydroxypropylcellulose, polyvinyl alcohol, polyvinyl acetate, povidone,
copolyvidone, derivatives thereof, and combinations thereof.
[0067] Suitable examples of surfactants for use in conjunction with
some embodiments of the present invention may include, but are not limited to,
lecithin, sodium lauryl sulfate, polysorbate 60, polysorbate 80,
polyoxethylene
polyoxypropylene block copolymer, derivates thereof, and combinations thereof.
[0068] Suitable examples of pigments for use in conjunction with some
embodiments of the present invention may include, but are not limited to,
titanium dioxide, iron oxide, natural pigments, natural dyes, FD&C colorants,
D&C lakes, derivatives thereof, and combinations thereof.
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[0069] Suitable examples of glidants for use in conjunction with some
embodiments of the present invention may include, but are not limited to,
talc,
colloidal silicon dioxide, stearic acid, derivatives thereof, and combinations
thereof.
[0070] Suitable examples of herbicides for use in conjunction with some
embodiments of the present invention may include, but are not limited to,
glyphosate, dicamba, alanchlor, meolachlor, oxabetrinil, thiocarbamate 5-ethyl-
N,N-dipropyl-thiocarbamate, acetochlor, derivatives thereof, and combinations
thereof.
[0071] Suitable examples of antidotal compounds for use in conjunction
with some embodiments of the present invention may include, but are not
limited to, fluorazole, cyometrinil, N,N-dially1 dichloroacetamide,
derivatives
thereof, and combinations thereof.
[0072] Suitable examples of fungicide, bactericide, insecticide, and
pesticide for use in conjunction with some embodiments of the present
invention
may include, but are not limited to, inorganic coppers, organic coppers, heavy
metal compounds, propenoic acids, oximine ethers, substituted oximine ethers,
derivatives thereof, and combinations thereof.
[0073] Suitable examples of plant hormones for use in conjunction with
some embodiments of the present invention may include, but are not limited to,
auxins, gibberellic acids, cytokines, derivatives thereof, and combinations
thereof.
[0074] In some embodiments, the coated pharmaceutical compositions
of the present invention comprise a pharmaceutical composition that is coated
with a coating that comprises a substituted cellulose acetate of the present
invention.
[0075] In some embodiments, the pharmaceutical composition for use
in conjunction with some embodiments of the present invention may include, but
are not limited to, analgesics, anti-inflammatory agents, anti-arrhythmic
agents,
anti-asthma agents, anti-bacterial agents, anti-viral agents, anti-coagulants,
anti-dementia agents, anti-depressants, anti-diabetics, anti-hypertensive
agents,
anti-malarials, anti-migraine agents, anti-muscarinic agents, anti-neoplastic
agents, immunosuppressants, anti-protozoal agents, anti-thyroid agents, anti-
tussives, anxiolytics, sedatives, hypnotics, neuroleptics, neuro-protective
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beta blockers, cardiac inotropic agents, cell adhesion inhibitors,
corticosteroids,
cytokine receptor activity modulators, diuretics, anti-parkinsonian agents,
gastrointestinal agents, histamine H-receptor antagonists, keratolytics, lipid
regulating agents, muscle relaxants, nitrates, anti-fungal agents, anti-
anginal
agents, non-steroid anti-asthma agents, nutritional agents, sex hormones,
stimulants, anti-erectile dysfunction agents, anesthetics, antihistamines,
decongestants, cough suppressants, demulcents, expectorants, derivatives
thereof, combinations thereof, and mixtures thereof.
[0076] In some embodiments, the pharmaceutical composition for use
in conjunction with some embodiments of the present invention may include, but
are not limited to, pseudoephedrine, phenylpropanolamine, phenylephrine,
ephedrine, dextromethorphan, chlorphedianol, carbetapentane, caramiphen,
noscapine, diphenhydramine, codeine, menthol, hydrocodone, hydromorphone,
fominoben, glyceryl guaiacolate, terpin hydrate, ammonium chloride, N-
acetylcysteine, bromhexine, ambroxol, chlorpheniramine, brompheniramine,
dexchlorpheniramine, dexbrompheniramine, tripolidine, azatadine, doxylamine,
tripelennamine, cyproheptadine, hydroxyzine, elemastine, carbinoxamine,
phenindamine, bromodiphenhydramine, pyilamine, acrivastine, AHR-11325,
astemizole, azelastine, cetirizine, ebastine, ketotifen, lodoxamide,
loratidine,
levocabastine, mequitazine, oxatomide, setastine, tazifylline, temelastine,
terfenadine, terbutaline, atropine, aminophylline, epinephrine, isoprenaline,
metaproterenol, bitoterol, theophylline, albuterol, aspirin, acetaminophen,
ibuprofen, naproxen, phenol, benzocaine, hexyl resorcinol, dyclonine,
derivatives
thereof, combinations thereof, the pharmaceutically acceptable salts thereof,
and mixtures thereof.
[0077] The present invention provides kits for detection of an analyte
comprising a reporter molecule that is coated with a coating that comprises a
substituted cellulose acetate of the present invention.
[0078] The reporter molecule for use in conjunction with some
embodiments of the present invention may include, but are not limited to, an
antibody, a protein, an enzyme, a peptide, a nucleic acid, a small molecule, a
fluorophore, derivatives thereof, and combinations thereof.
[0079] In some embodiments, the coating is water-soluble or water-
swellable. In general, the coating provides a protective layer that can delay
or
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prevent the degradation (e.g., denaturation, cleavage) of the reporter
molecule
during storage.
[0080] In some embodiments, the coated stents of the present
invention comprise a stent having an outer coating layer that comprises a
substituted cellulose acetate of the present invention and an inner coating
layer
that comprises a pharmaceutical composition.
[0081] In some embodiments, the stent comprises a shape-memory
material. Suitable examples of shape-memory material for use in conjunction
with some embodiments of the present invention may include, but are not
limited to, zinc alloys, copper alloys, gold alloys, iron alloys, copper-zinc-
aluminum-nickel alloys, copper-aluminum-nickel alloys, and nickel-titanium
alloys.
[0082] In some embodiments, the stent comprises a polymer. Suitable
examples of polymer for use in conjunction with some embodiments of the
present invention may include, but are not limited to, fibrin, polylactic
acid,
silicones, polyurethanes, polyesters, vinyl homopolymers, vinyl copolymers,
acrylate homopolymers, acrylate copolymers, polyethers, cellulosics,
derivatives
thereof, and combinations thereof.
[0083] In some embodiments, the pharmaceutical composition is
selected from the group consisting of: glucocorticoids, heparin, hirudin,
tocopherol, angiopeptin, aspirin, growth factors, oligonucleotides, anti-
platelet
agents, anti-coagulant agents, anti-mitotic agents, anti-oxidants, anti-
metabolite
agents, anti-inflammatory agents, and combinations thereof.
[0084] In some embodiments, the potting soil compositions of the
present invention comprise an organic compost and an absorbent composition
comprising a substituted cellulose acetate of the present invention.
Optionally,
the potting soil composition may further comprise at least one component
selected from the group consisting of loam, diatomaceous earth component,
Perlite component, and combinations thereof.
[0085] In some embodiments, loam comprises components selected
from the group consisting of sand, silt, clay, and combinations thereof.
[0086] In some embodiments, the diatomaceous earth component
comprises at least one component selected from the group consisting of
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diatomaceous earth, phosphate, magnesium, potassium, nitrogen, and
combinations thereof.
[0087] In some embodiments, the amended soil compositions of the
present invention comprise a soil composition and a water retention additive
comprising a substituted cellulose acetate of the present invention.
Optionally,
the amended soil composition may further comprise an additive selected from
the group consisting of sand, silt, clay, calcined clay, iron oxide, dry
resin, and
combinations of these.
[0088] Suitable dry resins for use in conjunction with some
embodiments of the present invention may include, but are not limited to,
acrylic
polymer, polyvinyl acetate polymer, vinyl acetate copolymer, derivatives
thereof,
and combinations thereof.
[0089] In some embodiments, the drilling fluids of the present invention
comprise a base fluid and a viscosifier comprising a substituted cellulose
acetate
of the present invention. Optionally, the drilling fluid may further comprise
an
additive selected from the group consisting of fluid loss control agents, clay
inhibitors, lubricants, weighting agents, viscosifiers, and any combinations
thereof.
[0090] In some embodiments, the base fluid may be an aqueous fluid,
an oil-based fluid, a synthetic fluid, or an emulsion.
[0091] In some embodiments, the present invention provides articles
comprising a nonwoven layer that comprises fibers from a substituted cellulose
acetate of the present invention.
[0092] In some embodiments, the nonwoven layer may include, but are
not limited to, diapers, feminine hygiene products, wet wipes, bandages,
disposable towels, disposable slippers, isolation gowns, surgical gowns,
surgical
drapes and covers, surgical scrub suits, caps, filters (e.g., HEPA filters;
water,
coffee, tea bags; liquid cartridges, vacuum bags; geotextiles (e.g.,
geomembranes); carpet backing; and envelopes.
[0093] In some embodiments, the present invention provides a process
for making a substituted cellulose acetate tow comprising spinning a dope
comprising a solution of cellulose diacetate and substituted cellulose acetate
of
the present invention; and solvent; taking-up the as-spun substituted
cellulose
acetate filaments; forming a tow from the substituted cellulose acetate
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filaments; crimping the tow; conditioning the crimped tow; and baling the
dried
crimped tow.
Optionally, the process may further comprise the step of
lubricating the substituted cellulose acetate filaments.
[0094] In some embodiments, the solvent is water, acetone,
methylethyl ketone, methylene chloride, dioxane, dimethyl formamide,
methanol, ethanol, glacial acetic acid, supercritical CO2, any suitable
solvent
capable of dissolving the aforementioned polymers, or any combination thereof.
By way of nonlimiting example, a solvent for cellulose acetate may be an
acetone/methanol mixture.
[0095] In some embodiments, the substituted cellulose acetate is spun
in a spinneret. In some embodiments, the spinneret comprises holes. These
holes may be of any shape that is compatible with one or more embodiments of
the present invention. The spinneret design and/or spinning parameters may
affect the rate at which the solvent evaporates from the filament, which may
affect the size, cross-sectional shape, strength, and processability of the
filaments. In some embodiments, a spinneret may comprise a plurality of holes
spaced at least 0.070 inches apart. In some embodiments, spinnerets for use in
conjunction with the present invention may comprise a plurality of extrusion
holes in a donut configuration. As used herein, "donut configuration" refers
to
any shape (circular, ovular, polygonal, triangular, and the like) having a
void in
the middle, wherein the void does not have holes for extrusion. As used
herein,
the terms "holes" and "extrusion holes," when used in conjunction with a
spinnerets design, may be used interchangeably referring generally to openings
through which the dope is extruded. In some embodiments, extrusion holes
may be tapered, e.g., countersinks, with capillary exits. Tapering may be at a
constant angle or at more than one angle. In some embodiments, extrusion
holes within a single spinneret may have different tapering angles. In some
embodiments, the extrusion holes and/or capillary exits may have a cross-
sectional shape that produces a desired filament cross-sectional shape.
Examples of extrusion hole and/or capillary exit cross-sectional shapes may
include, but not be limited to, circular, substantially circular, ovular,
substantially
ovular, crescent, multi-lobal, polygonal (e.g., like tripods, tetrapods,
stars,
triangles, squares, trapezoids, pentagons, hexagons, and so on with sides of
even lengths or varying lengths), polygonal with rounded corners, and any
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hybrid thereof. In some embodiments, a spinneret may comprise at least two
different cross-sectional shaped extrusion holes and/or capillary exits. In
some
embodiments, a spinneret may comprise at least two different size extrusion
holes and/or capillary exits. In some embodiments, the size and/or cross-
sectional shape of an extrusion hole may vary from that of the corresponding
capillary exit.
[0096] In some embodiments, the spinning parameters may include
extruding filaments at a drawdown ratio (fiber exit speed to take-up speed)
ranging from about 0.7 to about 1.6.
[0097] It should be understood by one skilled in the art that extruding
does not imply a single method or action for producing the filaments and could
be interchanged with, at least, spinning, expelling, and the like.
[0098] In some embodiments, the methods of the present invention
comprise providing substituted cellulose acetate of the present invention and
placing the substituted cellulose acetate in an absorbent article. In some
embodiments, the absorbent article may be any article (e.g., a garment, a gel,
a
piece of furniture, etc.) that may utilize an absorbent material.
Suitable
examples of absorbent articles may include, but are not limited to, diapers,
incontinence garments, bandages, surgical pads, hot and cold therapy packs,
water beds, artificial snow, and combinations thereof. In some embodiments,
the absorbent article is disposable and/or degradable.
[0099] In some embodiments, the substituted cellulose acetate may be
placed in the inner portion of an absorbent article. In some embodiments, the
substituted cellulose acetate may be placed on the outer portion of an
absorbent
article. In some embodiments, the substituted cellulose acetate may be part of
the outer portion of an absorbent article. The term "placing" is not intended
to
limit the present invention to any specific mode of action.
[00100] In some embodiments, the methods of the present invention
comprise coating a seed with a coating comprising a substituted cellulose
acetate of the present invention. Optionally, the coating may further comprise
at least one ingredient selected from the group consisting of a plasticizer, a
binder, a wax, a stabilizer, and a colorant.
[00101] In some embodiments, methods of the present invention
comprise coating a pharmaceutical composition with a coating comprising a

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substituted cellulose acetate of the present invention. Optionally, the
coating
may further comprise an additive selected from the group consisting of a
plasticizer, an annealing agent, an emulsifying agent, an emulsion stabilizer,
and
combinations of these.
[00102] In some embodiments, the annealing agent comprises a water-
soluble polymer selected from the group consisting of hydroxypropyl cellulose,
hydroxypropyl methyl cellulose, methyl cellulose, methyl ethyl cellulose,
polyvinylpyrrolidone, sodium carboxymethylcellulose, derivatives thereof, and
combinations thereof.
[00103] In some embodiments, the methods of the present invention
comprise providing an adhesive comprising a substituted cellulose acetate of
the
present invention and applying the adhesive on a surface. In some
embodiments, the surface may be selected from the group consisting of wood,
plastic, paper, glass, cardboard, and combinations of these.
In some
embodiments, the adhesive is a dispersion. Optionally, the adhesive may
further comprise a solvent and/or an additive.
[00104] In some embodiments, the solvent may be aqueous. In some
embodiments, the solvent may be a mixture such as an organic/water solvent.
In some embodiments, the solvent may be present in about 40% to about 99%
by weight of the adhesive.
[00105] In some embodiments, the additive comprises an additive
selected from the group consisting of multi-valent salts (e.g., zirconium
salts
such as zirconium carbonate), polyamide epichlorohydrin resins, aldehydes
(e.g.,
glyoxal, gluteraldehyde, hydroxyadipaldehyde), formaldehyde crosslinkers
(e.g.,
zero-formaldehyde, low-formaldehyde crosslinkers), polyvinyl acetates,
polyvinyl
alcohols, polystyrenes, polylactic acids, derivatives thereof, and
combinations
thereof.
[00106] In some embodiments, the present invention provides a paint
composition comprising a pigment and a stabilizing film forming agent that
comprises a substituted cellulose acetate of the present invention and coating
a
surface with the paint. Optionally, the paint may further comprise at least
one
element selected from the group consisting of: a solvent, a filler, an
antifreeze
additive, a catalyst, a thickener, an adhesion promoter, a UV stabilizer, a de-
glossing agent, a biocide, and combinations thereof.
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[00107] Suitable examples of solvents include, but are not limited to, an
aliphatic solvent, an aromatic solvent, an alcohol, a ketone, a hydrocarbon,
an
ester, a petroleum distillate, water, derivatives thereof, and combinations
thereof.
[00108] Suitable examples of pigments include pigments selected from
the group consisting of clay, calcium carbonate, mica, silica, talc, titanium
dioxide, derivatives thereof, and combinations thereof.
[00109] Suitable examples of filters include fillers selected from the
group consisting of: diatomaceous earth, talc, lime, barite, clay, derivatives
thereof, and combinations of these.
[00110] In some embodiments, the present invention provides a method
of providing a paint comprising a pigment; and
a stabilizing film forming
agent that comprises a substituted cellulose acetate comprising a polar
substituent that comprises an oxygen atom covalently bonded to a nonmetal
selected from the group consisting of: sulfur, phosphorus, boron, and
chlorine;
wherein the nonmetal is present in at least about 0.01% by weight of the
substituted cellulose acetate; and coating a surface with the paint.
[00111] The methods of the present invention comprise providing a
stabilizing film forming agent comprising a substituted cellulose acetate of
the
present invention and adding the stabilizing film forming agent to an
emulsion.
Suitable examples of emulsion include, but are not limited to, cosmetic
product,
hair styling product, photographic film, cutting fluid, skin ointment, paste,
balm,
oil, wax, detergent, beverage, and combinations of these.
[00112] The methods of the present invention comprise providing a
thickening agent comprising a substituted cellulose acetate of the present
invention and adding the thickening agent to a food composition. Suitable food
compositions may include, but are not limited to, soups, gravy, desserts,
jellies,
candies, and the like.
[00113] To facilitate a better understanding of the present invention, the
following examples of preferred embodiments are given. In no way should the
following examples be read to limit, or to define, the scope of the invention.
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EXAMPLE 1
[00114] Some adhesive compositions comprising substituted cellulose
acetate of the present invention were tested for their adhesive properties on
various substrates including wood and cardboard using a lap shear test. These
results were compared with commercially available glue (e.g., ELMER'S GLUE
ALL ). A summary of the results is shown below in Tables 1A and 1B.
Table 1A. Lap Shear Test Results
Description Solvent Drying Solids Adhesive
Break
System (wt%) Formulation (KGF)
Used (g)
Poly(vinyl acetate)- emulsion ambient 1 54 0.0503
58.94
based adhesive hr
(ELMER'S GLUE
ALL )
Cellulose Acetate aqueous ambient 1 10 0.0512
43.86
Adhesive 1 hr
Cellulose Acetate aqueous ambient 20 0.0515
>107
Adhesive 2 2.25 hr
Cellulose Acetate aqueous ambient 15 0.0506
>107
Adhesive 3 2.25 hr
Cellulose Acetate mixed ambient 10 0.0506
>107
Adhesive 4 organic/ 2.5 hr
aqueous
Cellulose Acetate aqueous ambient 15 0.0498
>107
Adhesive 2 2.5 hr
Poly(vinyl acetate)- ambient 27 0.05
>107
based adhesive overnight
(ELMER'S SCHOOL
GLUE)
Cellulose Acetate aqueous 1 hr oven
10 0.0505 >107
Adhesive 5 (120 C)
Cellulose Acetate aqueous 1 hr oven
10 0.0505 >107
Adhesive 5 (120 C)
Cellulose Acetate aqueous 1 hr oven
10 0.0518 >107
Adhesive 5 (120 C)
Table 1B. Lap Shear Test Results
Description Newtons Substrate Special Sulfur
Results
Treatment (mg/kg)
Poly(vinyl 578.003951 cardboard paper
acetate)-based failure
adhesive
(ELMER'S
GLUE ALL )
Cellulose 430.119669 cardboard not paper
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Acetate measured failure
Adhesive 1
Cellulose >1000 wood 4940
exceeded
Acetate load cell
Adhesive 2 capacity
Cellulose >1000 wood 4530
exceeded
Acetate load cell
Adhesive 3 capacity
Cellulose >1000 wood 4940
exceeded
Acetate load cell
Adhesive 4 capacity
Cellulose >1000 wood 4940
exceeded
Acetate load cell
Adhesive 2 capacity
Poly(vinyl >1000 wood exceeded
acetate)-based load cell
adhesive capacity
(ELMER'S
SCHOOL GLUE)
Cellulose >1000 wood 5570
exceeded
Acetate load cell
Adhesive 5 capacity
Cellulose >1000 wood 1 hr in 5570
exceeded
Acetate refrigerator load cell
Adhesive 5 (4 C) capacity
Cellulose >1000 wood 1 hr in 5570
exceeded
Acetate refrigerator load cell
Adhesive 5 (4 C) capacity
[00115] Substituted cellulose acetates with high sulfur content in
accordance with one or more embodiments of the present invention (batches
Cellulose Acetate Adhesive 1-5) were prepared and tested as a wood adhesive
using INSTRONC) (Model 3366) Lap Shear test. The results, including the
amount of sulfur in the solution (mg of sulfur per kg of sulfur), are
summarized
in Tables 1A and 1B above. Two small wooden blocks were glued together using
a 10% aqueous solution of the adhesives and allowed to dry. The resulting
blocks were difficult to separate (i.e., none of the blocks broke in the
tensile
testing setup used). When enough force was applied to separate the blocks, the
wood fibers broke which suggests that the substituted cellulose acetate
adhesive
is as strong as the wood fibers. Substituted cellulose acetate adhesives were
also used to glue cardboard. The cardboard was also difficult to separate.
Substituted cellulose acetate adhesives were optically clear and have a high
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gloss which may be desirable in commercial applications. Substituted cellulose
acetate adhesives dried in less than 30 minutes at ambient conditions.
[00116] This Example shows, among many things, that substituted
cellulose acetate with high sulfur content is effective as an adhesive on a
variety
of substrates.
EXAMPLE 2
[00117] This Example describes the synthesis of a sulfate substituted
cellulose acetate of the present invention.
In the first step, cellulose was
acetylated in the presence of acetic anhydride and sulfuric acid. The
preparation
of cellulose, acetic acid, acetic anhydride and sulfuric acid is similar to
the
preparation involved in a standard secondary cellulose acetate diacetate
production.
Next, the reagents were combined to initiate the acetylation
reaction. This reaction was allowed to reach completion and then reacted with
any excess anhydride by the addition of water.
The reaction rate and
temperature may be closely monitored and varied to control certain polymer
properties.
[00118] Next, the acetylated cellulose (i.e., cellulose acetate) was
hydrolyzed in the presence of acetic acid without precipitation and subsequent
redissolving steps. This reduced the cellulose acetate to the target acetate
DS
levels by carefully controlling the reaction temperature and time. Water was
added as needed to maintain polymer solubility. This produced a sulfate
substituted cellulose acetate product having unexpected and surprisingly high
sulfur content.
[00119] Finally, the solid was precipitated from the solvent system using
appropriate dilutant. The product was washed as needed to remove excess
solvent and dried to desired solids level.
EXAMPLE 3
[00120] In this Example, a water-swellable cellulose acetate (low sulfur
content) and substituted cellulose acetate (high sulfur content) were tested
for
their ability to absorb water using a thermogravimetric analysis (TGA). Each
sample was placed in a TGA system and subjected to the following
temperatures. The samples were ramped to 110 C at 20 C/min. The
temperature was held at 110 C for 30 minutes. The temperature was then
ramped to 650 C at 20 C/min. The sample gas was then switched to air and the

CA 02861037 2014-07-10
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temperature was held at 650 C for 30 minutes. In each test run, the cellulose
acetate samples were limited to less than 100mg.
Figures 2-5 show the various TGA analysis runs measuring the water
absorbency of high sulfate substituted cellulose acetate and low sulfate
substituted cellulose acetate.
[00121] Figure 2 shows a TGA analysis of water-saturated, water-
swellable cellulose acetate (WSCA) 1036 RT-16 dry sample. WSCA 1036 RT-16
is a high sulfate substituted cellulose acetate particulate sample containing
approximately 0.5% of sulfur by weight of the cellulose acetate. As
temperature
is ramped up and held at 110 C, the total weight of the water-saturated sample
decreases as the water dried off. The temperature of the TGA system was then
ramped to and held at 650 C, thus allowing the high sulfate substituted
cellulose
acetate to decompose. WSCA 1036 RT-16 was able to absorb approximately
1440% water by weight as the dry sample or over 14 times its weight in water.
[00122] Figure 3 shows TGA duplicate runs for two WSCA 1037 RT-16
dry samples. Compared to the WSCA 1036 RT-16, the WSCA 1037 RT-16 is a
low sulfur substituted cellulose acetate (the DS of acetates are similar). The
detected water absorption for the two samples were 76.91% and 81.31%, which
corresponds to water to dry WSCA ratios of 3.35 and 4.37 respectively.
[00123] Figure 4 shows TGA duplicate runs for two saline water (-0.9%)
saturated WSCA 1036 (high sulfate) RT-16 samples. The two samples contained
87.05% and 92.14% saline water which corresponded to water to dry WSCA
ratios of 7.48 and 13.6 respectively.
[00124] Figure 5 shows TGA duplicate runs for saline water (-0.9%)
saturated WSCA 1037 RT-16 sample. The two samples contained 78.31% and
83.91% saline water which corresponded to water to dry WSCA ratios of 3.72
and 5.46.
[00125] This Example shows, among many things, that a substituted
cellulose acetate having a high sulfur content is able to absorb water (both
deionized and saline) several times its weight. When compared with substituted
cellulose acetate with low sulfur content, the high sulfur substituted
cellulose
acetate displayed superior water (both DI and saline) absorption.
26

CA 02861037 2014-07-10
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EXAMPLE 4
[00126] Various additives were added to some adhesive compositions
comprising substituted cellulose acetate of the present invention. The
resulting
compositions were tested for their adhesive properties on wood substrates
(1/4"
pine strips 1.5" in width) using INSTRONC) (Model 3366) Lap Shear test.
Summaries of the results are shown below in Tables 2 and 3.
Table 2. Cellulose Acetate Adhesive 6 (620 mg/kg Sulfur)
Zr as % of total
solution (0/0 of Average Break Average Standard
solids) (Kgf)* Break (psi**) Deviation
0 (0) 179 263 32
0.04% (0.2%) 271 398 110
0.08% (0.4%) 280 411 35
0.16% (0.9%) 300 441 71
0.32% (1.8%) 362 532 45
* average of 6 replicates
** lap shear of 1.5" x 1" adhered area
Table 3. Cellulose Acetate Adhesives 7-8
Additive CA adhesive 7 CA
adhesive 8
No Additive (Kgf at bond break) 225 349
Ammonium Zirconium
Carbonate (Kgf at bond break) 348 245
Polyvinyl Acetate MW 140000
(Kgf at bond break) 271 210
Polyvinyl Alcohol MW-150000
(Kgf at bond break) not tested 154
Sulfur Levels 520 mg/kg 557 mg/kg
[00127] As shown in Tables 2, the addition of zirconium can increase the
strength required to break the bond formed by the celllose acetate adhesive
compositions (substituted cellulose acetate with high sulfur content). Table 3
shows results of lap shear testing of cellulose acetate adhesives 7 and 8 with
ammonium zirconium carbonate (0.08% Zr), MW 140,000 polyvinyl acetate
(14% of solid) and MW 150,000 polyvinyl alcohol (14% of solid). The sulfur
content of cellulose acetate adhesives 6, 7, and 8 are 620 mg/kg, 520 mg/kg,
and 557 mg/kg respectively.
27

CA 02861037 2014-07-10
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[00128] Therefore, the present invention is well adapted to attain the
ends and advantages mentioned as well as those that are inherent therein. The
particular embodiments disclosed above are illustrative only, as the present
invention may be modified and practiced in different but equivalent manners
apparent to those skilled in the art having the benefit of the teachings
herein.
Furthermore, no limitations are intended to the details of construction or
design
herein shown, other than as described in the claims below. It is therefore
evident that the particular illustrative embodiments disclosed above may be
altered, combined, or modified and all such variations are considered within
the
scope and spirit of the present invention. The invention illustratively
disclosed
herein suitably may be practiced in the absence of any element that is not
specifically disclosed herein and/or any optional element disclosed herein.
While
compositions and methods are described in terms of "comprising," "containing,"
or "including" various components or steps, the compositions and methods can
also "consist essentially of" or "consist of" the various components and
steps.
All numbers and ranges disclosed above may vary by some amount. Whenever
a numerical range with a lower limit and an upper limit is disclosed, any
number
and any included range falling within the range is specifically disclosed. In
particular, every range of values (of the form, "from about a to about b," or,
equivalently, "from approximately a to b," or, equivalently, "from
approximately
a-b") disclosed herein is to be understood to set forth every number and range
encompassed within the broader range of values. Also, the terms in the claims
have their plain, ordinary meaning unless otherwise explicitly and clearly
defined
by the patentee. Moreover, the indefinite articles "a" or "an," as used in the
claims, are defined herein to mean one or more than one of the element that it
introduces. If there is any conflict in the usages of a word or term in this
specification and one or more patent or other documents that may be
incorporated herein by reference, the definitions that are consistent with
this
specification should be adopted.
28

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Administrative Status

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Event History

Description Date
Inactive: IPC expired 2020-01-01
Application Not Reinstated by Deadline 2017-01-25
Time Limit for Reversal Expired 2017-01-25
Inactive: Abandoned - No reply to s.30(2) Rules requisition 2016-02-25
Deemed Abandoned - Failure to Respond to Maintenance Fee Notice 2016-01-25
Inactive: S.30(2) Rules - Examiner requisition 2015-08-25
Inactive: Report - No QC 2015-08-21
Amendment Received - Voluntary Amendment 2015-02-23
Change of Address or Method of Correspondence Request Received 2015-01-15
Inactive: Cover page published 2014-09-19
Letter Sent 2014-09-05
Inactive: Acknowledgment of national entry - RFE 2014-09-05
Letter Sent 2014-09-05
Application Received - PCT 2014-09-03
Inactive: IPC assigned 2014-09-03
Inactive: IPC assigned 2014-09-03
Inactive: IPC assigned 2014-09-03
Inactive: IPC assigned 2014-09-03
Inactive: First IPC assigned 2014-09-03
National Entry Requirements Determined Compliant 2014-07-10
Request for Examination Requirements Determined Compliant 2014-07-10
All Requirements for Examination Determined Compliant 2014-07-10
Application Published (Open to Public Inspection) 2013-08-01

Abandonment History

Abandonment Date Reason Reinstatement Date
2016-01-25

Maintenance Fee

The last payment was received on 2014-07-10

Note : If the full payment has not been received on or before the date indicated, a further fee may be required which may be one of the following

  • the reinstatement fee;
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Fee History

Fee Type Anniversary Year Due Date Paid Date
Registration of a document 2014-07-10
MF (application, 2nd anniv.) - standard 02 2015-01-23 2014-07-10
Request for examination - standard 2014-07-10
Basic national fee - standard 2014-07-10
Owners on Record

Note: Records showing the ownership history in alphabetical order.

Current Owners on Record
CELANESE ACETATE LLC
Past Owners on Record
MICHAEL T. COMBS
THOMAS S. GARRETT
Past Owners that do not appear in the "Owners on Record" listing will appear in other documentation within the application.
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Document
Description 
Date
(yyyy-mm-dd) 
Number of pages   Size of Image (KB) 
Description 2014-07-10 28 1,390
Drawings 2014-07-10 5 68
Abstract 2014-07-10 1 58
Claims 2014-07-10 2 72
Cover Page 2014-09-19 1 30
Acknowledgement of Request for Examination 2014-09-05 1 188
Notice of National Entry 2014-09-05 1 231
Courtesy - Certificate of registration (related document(s)) 2014-09-05 1 127
Courtesy - Abandonment Letter (Maintenance Fee) 2016-03-07 1 173
Courtesy - Abandonment Letter (R30(2)) 2016-04-07 1 163
PCT 2014-07-10 3 105
Correspondence 2015-01-15 2 62
Examiner Requisition 2015-08-25 3 226