213 “Stimuli-Responsive Ampholytic
Terpolymers of N-Acryloyl-Valine,
Acrylamide, and (3-Acrylamidopropyl)trimethylammonium Chloride: Synthesis, Characterization, and Solution
Properties,” Ryan G. Ezell, Irene Gorman,
211“Synthesis of Novel
Reversible Shell Cross-Linked Micelles for Controlled Release of Bioactive
Agents,” Yuting Li, Brad
S. Lokitz, Steven P. Armes, and Charles L. McCormick,
Submitted to the Journal of the American Chemical Society, December 21, 2005. (Water Soluble Polymers 118)
210 “Direct
Synthesis of Thermally-Responsive DMA/NIPAM Diblock and DMA/NIPAM/DMA Triblock
Copolymers via Aqueous, Room Temperature RAFT Polymerization,” Anthony J. Convertine, Brad S. Lokitz, Yuliya Vasileva, Leslie J.
Myrick, Charles W. Scales,1Andrew B. Lowe, and Charles L. McCormick,
Accepted by Macromolecules, December, 2005. (Water Soluble Polymers 116)
209”RAFT Synthesis of a
Thermally-Responsive ABC Triblock Copolymer Incorporating N-Acryloxysuccinimide for Facile In Situ Formation of
Shell Cross-Linked Micelles in Aqueous
Media,” Yuting Li, Brad S. Lokitz and Charles L. McCormick, In
Press, Macromolecules, November, 2005. (Water
Soluble Polymers 115)
208”Synthesis of Terminally
Functionalized (Co)Polymers via Reversible Addition Fragmentation Chain
Transfer Polymerization and Subsequent Immobilization to Solid Surfaces with
Potential Biosensor Applications,”
Charles W. Scales, Anthony J. Convertine, Brent S. Sumerlin, Andrew B.
Lowe, and Charles L. McCormick, in Stimuli-Responsive Polymeric Films and
Coatings, ed. Marek W. Urban, ACS Symposium Series 912, ACS: Washington, DC, 2005, pp. 43-54.
207 “Aqueous RAFT Polymerizatons: Recent Developments in Synthesis of Functional Water-Soluble (Co)polymers with Controlled Substances (Japanese Translation),” Charles L. McCormick and Andrew B. Lowe, Expected Materials for the Future, 2005.5 (ISSN 1346-0986).
206 “Direct, Controlled Synthesis of the Non-Immunogenic, Hydrophilic Polymer, Poly(N-(2-hydroxypropyl)methacrylamide) via RAFT in Aqueous Media,” Charles W. Scales, Yulia A. Vasilieva, Anthony J. Convertine, Andrew B. Lowe, Charles L. McCormick, submitted to Biomacromolecules, April 28, 2005. (Water Soluble Polymers 114).
205 “The Synthesis and Evaluation of New Dicarboxylic Acid Functional Trithiocarbonates: The RAFT Synthesis of Telechelic Poly(n-Butyl Acrylate)s,”
Ran Wang, Charles L. McCormick, Andrew B. Lowe, Submitted to Macromolecules? Journal of Polymer Science Part A. Polymer Chemistry, April 2005.
204 “Aqueous Room Temperature RAFT Polymerization of Acrylamide and N,N-Dimethylacrylamide,” Anthony J. Convertine, Brad S. Lokitz, Andrew B. Lowe, Charles W. Scales, Leslie J. Myrick, and Charles L. McCormick, Macromolecular Rapid Communications, 26, 791-795, 2005. (Water Soluble Polymers 113)
203 “Controlled/‘Living’ Polymerization of Methacrylamide in Aqueous Media via the RAFT Process,” Yulia A. Vasilieva, Charles W. Scales, David B. Thomas, Ryan G. Ezell, Andrew B. Lowe, Neil Ayres, Charles L. McCormick, Accepted by Journal of Polymer Science Part A. Polymer Chemistry, 12/20/2004. (Water Soluble Polymers 112)
202”The Facile, Controlled, Room-Temperature RAFT Polymerization of N-Isopropylacrylamide,” Anthony J. Convertine, Neil Ayres, Charles W. Scales, Andrew B. Lowe, Charles L. McCormick, Biomacromolecules 2004,5, 1177-1180. (Water Soluble Polymers 111)
200“The Direct Controlled Polymerization of a Cationic Methacrylamido Monomer in Aqueous Media via the RAFT Process,” Yulia A. Vasilieva, David B. Thomas, Charles W. Scales, Charles L. McCormick, Macromolecules, 37, 2728-2737, 2004. (Water Soluble Polymers 110)
194“Synthesis, Complex Formation, and Dilute-Solution Associative Behavior of Linear Poly(methacrylic acid) –g-Poly(2-ethyl-2-oxazoline),” Garrett D. Poe and Charles L. McCormick, Journal of Polymer Science, Part A: Polymer Chemistry, A42, 2520-2533, 2004. (Water Soluble Polymers 104)
193 “Enhanced Coil Expansion and Intrapolymer Complex Formation of Linear Poly(methacrylic acid) Containing Poly(ethylene glycol) Grafts,” Garrett D. Poe, William L. Jarrett, and Charles L. McCormick, Macromolecules, 37, 2603-2612, 2004. (Water Soluble Polymers 103)
191“Hydrophobically-Modified Acrylamide-Based Polybetaines: II. Interaction with Surfactants in Aqueous Solution,” Kathryn Johnson, Michael J. Fevola, Robert Y. Lochhead, and Charles L. McCormick, Submitted to the Journal of Applied Polymer Science 92, 658-671, 2004. (Water Soluble Polymers 102).
190“Aqueous Solution Properties of pH-Responsive AB Diblock Acrylamido-Styrenic Copolymers Synthesized via Aqueous RAFT,” Brent S. Sumerlin, Andrew B. Lowe, David B. Thomas, Anthony J. Convertine, Michael S. Donovan, and Charles L. McCormick, J. Polym. Sci., Part A: Polym. Chem., 42, 1724-1734, 2004. (Water-Soluble Polymers 99)
187“Synthesis, Characterization, and Aqueous Solution Behavior of Electrolyte- and pH-Responsive Carboxybetaine-Containing Cyclocopolymers,” David B. Thomas, Yulia A. Vasilieva, R. Scott Armentrout, Charles L. McCormick, Macromolecules, 36(26), 9710-9715, 2003.
(Water Soluble Polymers 98)
186“Synthesis of Block Copolymers of 2- and 4-Vinylpyridine by RAFT Polymerization,” Anthony J. Convertine, Brent S. Sumerlin, David B. Thomas, Andrew B. Lowe, Charles L. McCormick, Macromolecules, 36(17), 4679-4681, 2003. (Water Soluble Polymers 97)
185“Modification of Gold Surfaces with Water-Soluble (Co)polymers Prepared via Aqueous RAFT,” Brent S. Sumerlin, Andrew B. Lowe, Paul A. Stroud, Ping Zhang, Marek W. Urban, Charles L. McCormick, Langmuir 19(14), 5559-5562, 2003. (Water Soluble Polymers 95)
184“Experimental Evidence for Multiple States of Sc3 from Schizophyllum commune upon Assembly from Aqueous Solution,” Paul A. Stroud, J. Shawn Goodwin, Peter Butko, Gordon C. Cannon, and Charles L. McCormick, Biomacromolecules, 4(4), 956-967, 2003.
183“Aqueous Solution Properties of pH-Responsive AB Diblock Acrylamido Copolymers Synthesized via Aqueous RAFT,” Brent S. Sumerlin, Andrew B. Lowe, David B. Thomas, and Charles L. McCormick, Macromolecules 36(16), 5982-5987, 2003.(Water Soluble Polymers 94)
182“Conditions for Facile, Controlled RAFT Polymerization of Acrylamide in Water,” David B. Thomas, Brent S. Sumerlin, Andrew B. Lowe, and Charles L. McCormick,” Macromolecules, 36, 1436-1439, 2003 (Water Soluble Polymers 93).
181“Sulfobetaine Containing Diblock and Triblock Copolymers via RAFT Polymerization in Aqueous Media,” Michael S. Donovan, Andrew B. Lowe, Taylor A. Sanford, and Charles L. McCormick, Journal of Polymer Science Part A: Polymer Chemistry, 41(9), 1262-1281, 2003. (Water Soluble Polymers 92).
180“RAFT Polymerization in Homogeneous Aqueous Media,” Andrew B. Lowe, Brent S. Sumerlin, Michael S. Donovan, David B. Thomas, Pierre Hennaux, and Charles L. McCormick, Chapter 40 in Advances in Controlled/Living Radical Polymerization, K. Matyjasweski, Ed., ACS Book Series 854, pp.586-602, ACS: Washington, DC, 2003.
179“Molecular Weight Control of Polyacrylamide Utilizing Sodium Formate as a Chain Transfer Agent: Characterization via SEC-MALLS and Determination of Chain Transfer Constant,” Michael J. Fevola, Roger D. Hester, and Charles L. McCormick, Journal of Polymer Science, Part A: Polymer Chemistry, 41, 560-568 (2003) (Water Soluble Polymers 91).
178“Controlled Polymerization of Sulfobetaine Monomers Directly in Aqueous Media via RAFT," Michael S. Donovan, Brent S. Sumerlin, Andrew B. Lowe, and Charles L. McCormick, Macromolecules, 35, 8663-8666, 2002. (Water-Soluble Polymers 90)
177“Synthesis And Solution Properties Of Zwitterionic (Co)Polymers,” Andrew B. Lowe and Charles L. McCormick, Chemical Reviews, 102(11), 4177-4190, 2002, (Water-Soluble Polymers 89).
176“Facile Preparation of Transition Metal Nanoparticles Stabilized by Well-defined (Co)polymers Synthesized via Aqueous RAFT,” Andrew B. Lowe, Brent S. Sumerlin, Michael S. Donovan, and Charles L. McCormick, JACS, 124(39), 11562-11563, 2002. (Water Soluble Polymers 88)
175“Homogeneous Controlled Free Radical Polymerization In Aqueous Media,”
174“RAFT Polymerization of N,N-Dimethylacrylamide in Water,” Michael S. Donovan, Taylor Sanford, Andrew B. Lowe, Brent S. Sumerlin, Yoshiro Mitsukami and Charles L. McCormick, Macromolecules 35(12), 4570-4572, 2002. (Water-Soluble Polymers 86)
173“RAFT Polymerization of N,N-dimethylacrylamide Utilizing Novel Chain Transfer Agents Tailored for High Reinitiation Efficiency and Structural Control” Michael S. Donovan, Andrew B. Lowe, Brent S. Sumerlin and Charles L. McCormick, Macromolecules 35(10), 4123-4132, 2002. (Water-Soluble Polymers 85)
172“Water-Soluble Polymers 84: Controlled Polymerization in Aqueous Media of Anionic Acrylamido Monomers via RAFT,” Brent S. Sumerlin, Michael S. Donovan, Yoshiro Mitsukami, Andrew B. Lowe, and Charles L. McCormick. Macromolecules, 34(19), 6561-6564, 2001.
171“Water-Soluble Polymers 83: Correlation of Experimentally Determined Drag Reduction Efficiency and Extensional Viscosity of High Molecular Weight Polymers in Dilute Aqueous Solution”, Martin E. Cowan, Chad Garner, Roger D. Hester, and Charles L. McCormick, Journal of Applied Polymer Science, 82(5), 1222-1231, January 2001.
169“Spectroscopic Evidence for Amyloid-like Interfacial Self-Assembly of Hydrophobin Sc3,” Butko, P., J.P. Buford, J.S. Goodwin, P.A. Stroud, C.L. McCormick and G.C. Cannon (2001) Biochem. Biophys. Res. Commun. 280, 212-215.
168“Water-Soluble Polymers 81: The Direct Synthesis of Hydrophilic Styrenic-Based Homo- and Block Copolymers In Aqueous Solution via RAFT,” Yoshiro Mitsukami, Michael S. Donovan, Andrew B. Lowe, and Charles L. McCormick, Macromolecules, 34(7), 2248-2256, 2001
167“Water-Soluble Polymers 80. Rheological and Photophysical Studies of pH-Responsive Terpolymers Containing Hydrophobic Twin-Tailed Acrylamide Monomers, Geoffrey L. Smith and Charles L. McCormick, Macromolecules, 34, 5579-5586, 2001.
166“Water-Soluble Polymers 79. Interaction of Microblocky Twin-Tailed Acrylamido Terpolymers with Anionic, Cationic, and Nonionic Surfactants,” Geoffrey L. Smith and Charles L. McCormick, Langmuir, 17(5), 1719-1725, 2001.
165“Water-Soluble Polymers 78. Viscosity and NRET Fluorescence Studies of pH-Responsive Twin-Tailed Associative Terpolymers Based on Acrylic Acid and Methacrylamide,” Geoffrey L. Smith and Charles L. McCormick, Macromolecules 34(4), 918-924 (2001).
164“Sc3p Hydrophobin Organization in Aqueous Media and Assembly onto Surfaces as Mediated by the Associated Polysaccharide Schizophyllan,” Greg Martin, Gordon C. Cannon, and Charles L. McCormick, Biomacromolecules, 1, 49-60 (2000).
163“Synthesis and Aqueous Solution Behavior of Novel Polyampholytes Containing the Zwitterionic Monomers 3-[2-Acrylamido-2-methyl propyl)Dimethylammonio]-1-Propanesulfonate or 3-(N,N-Diallyl-N-methylammonio)-1-propansulfonate,” R. Scott Armentrout, Erich E. Kathamann, and Charles L. McCormick, pp.12-24 in Specialty Polymers, ACS Symposium Series 755, Eds. Kathleen O. Havelka and Charles L. McCormick (2000).
162“Water Soluble Polymers 77. Amphoteric Cyclopolymers with Sulfobetaine Units: Phase Behavior in Aqueous Media and Solubilization of p-Cresol in Microdomains,” R. Scott Armentrout and Charles L. McCormick, Macromolecules, 33(8), 2944-2951 (2000).
161“Water Soluble Polymers 76. Electrolyte Responsive Cyclopolymers with Sulfobetaine Units Exhibiting Polyelectrolyte or Polyampholyte Behavior in Aqueous Media,” R. Scott Armentrout and Charles L. McCormick, Macromolecules, 33(2), 419-424 (2000).
160“Stimuli-Responsive Water-Soluble and Amphiphilic Copolymers,” Andrew B. Lowe and Charles L. McCormick, Stimuli-Responsive Water Soluble Polymers, ACS Symposium Series 780, Ed. Charles L. McCormick, 2000, pp. 1-13.
159“Micellar Polymerization for the Design of Responsive Amphiphilic Polymers,” Geoffrey L. Smith and Charles L. McCormick, Stimuli-Responsive Water Soluble Polymers, ACS Symposium Series 780, Ed. Charles L. McCormick, 2000, pp. 38-57.
158“Synthesis and Aqueous Solution Behavior of Novel pH Responsive, Zwitterionic Cyclocopolymers,” Stimuli-Responsive Water Soluble Polymers, ACS Symposium Series 780, Ed. Charles L. McCormick, 2000, 101-114.
157“Proteins as Amphipathic Biopolymeric Materials, Paul A. Stroud, Shawn Goodwin, Gregory G. Martin, Johanna M. Kahalley, Mark Logan, Charles L. McCormick, and Gordon C. Cannon, Stimuli-Responsive Water Soluble Polymers, ACS Symposium Series 780, Ed. Charles L. McCormick, 2000, 266-276.
156“Electrolyte and pH Responsive Surfactant Association in Ionic Semi-Interpenetrating Networks containing Cellulose or Chitin Synthesized in Lithium Chloride/N,N-Dimethylacetamide,” Sheila L. Williamson, R. Scott Armentrout, Christopher M. Stafford, Charles L. McCormick, Journal of Applied Polymer Science, Vol. 71, 989-998 (1999).
155“Stable Adsorption of a Fungal Hydrophobin onto Surfaces as Mediated by the Associated Polysaccharide Schizophyllan,” Gregory G. Martin, Gordon C. Cannon, and Charles L. McCormick, Biopolymers, 49(7), 621-633 (1999).
154“Examination of the Structure/Function Relationship in the Exchangeable Apolipoprotein, Apolipoprotein, Apolipophorin-III,” Johanna M. Kahalley, Gordon Cannon, Paul Stroud, Charles L. McCormick, Biopolymers, 50(5) 486-495 (1999).
153“Synthesis Characterization and Remediation Potential of Polymerizable Surfactant Monomers of N,N-Diallyl-N,N-Dialkyl Ammonium Chloride,” Michael F. Richardson and Charles L. McCormick, Journal of Macromolecular Science—Pure and Applied Chemistry, A36(10) 1349-1385 (1999).
152“Amphipathic Polymers with Stimuli Responsive Microdomains for Water Remediation: Binding Studies with p-Cresol,” Michael F. Richardson, R. Scott Armentrout, and Charles L. McCormick, Journal of Applied Polymer Science, 74, 2290-2300 (1999).
151“Amphipathic Synthetic and Biological Macromolecules in Aqueous Media,” Charles L .McCormick R. Scott Armentrout, G. C. Cannon, and G. G. Martin, Molecular Interactions and Time-Space Organization in Macromolecular Systems: Proceedings of the OUMS ’98, Osaka, Japan, June 1998, pp. 125-139, Berlin: Springer-Verlag, (1999).
150“Wastewater Remediation: Utilization of Environmentally Responsive Polymeric Surfactants for the Sequestration of D-Cresol,” R. Scott Armentrout, Michael F. Richardson, and Charles L. McCormick, in Surfactant-Based Separations: Science and Technology, J. F. Scamehorn and Jeffrey H. Harwell, Eds., ACS Symposium Series 740: Washington D.C., pp. 113-122 (1999).
149“Cellulose Derivatives Synthesized Via Isocynate and Activated Ester Pathways in Homogeneous Solutions of Lithium Chloride/N,N-Dimethylacetamide,” Sheila L. Williamson, Charles L. McCormick, Journal of Macromolecular Science, A35(12), 1915-1927 (1998).
148“Micostructural Examination of Semi-Interpenetrating Networks: Poly(N,N-Dimethylacrylamide) with Cellulose or Chitin Synthesized in Lithium Chloride/N,N-Dimethylacetamide,” Sheila L. Williamson, R. Scott Armentrout, Roger S. Porter, Charles L. McCormick, Macromolecules, 31, 8134-8141 (1998).
147“Water Soluble Polymers 75. Responsive Microdomains in Labeled N-Octylamide-Substituted Poly(Sodium Maleate -alt- Ethyl Vinyl Ethers) II: Transient Fluorescence and Time-Resolved Fluorescence Anisotropy Studies,” Yuxin Hu, Scott Armentrout and Charles L. McCormick, Macromolecules, 30, 3538-3546 (1997).
146"Water Soluble Polymers 74: pH Responsive Microdomains in Labeled N-Octylamide-Substituted Poly(Sodium Maleate -alt- Ethyl Vinyl Ethers) I: Synthesis, Steady-State Fluorescence, and Non-Radiative Energy Transfer Studies," Yuxin Hu, Geoffrey L. Smith, Michael F. Richardson and Charles L. McCormick, Macromolecules, 30, 3526-3537 (1997).
145"Water Soluble Polymers 73. Electrolyte and pH-Responsive Zwitterionic Copolymers of 4-(2-Acrylamido-2-Methylpropyldimethylammonio) Butanoate with 3-(2-Acrylamido-2-Methylpropyldimethylammonio) Propanesulfonte," Erich E. Kathmann, Leslie A. White, and Charles L. Mcormick, Macromolecules, 30, 5297-5304 (1997).
144"Water-Soluble Polymers 72. Synthesis and Solution Behavior of Responsive Copolymers of Acrylamide and the Zwitterionic Monomer 6-(2-Acrylamido-2-Methylpropyl-dimethylammonio) Hexanoate," Erich E. Kathmann and Charles L. McCormick, Journal of Polymer Science, Chemistry, 35, 243-253 (1997).
143"Water-Soluble Polymers 71. pH Responsive Behavior of Terpolymers of Sodium Acrylate, Acrylamide, and the Zwitterionic monomer 4-(2-Acrylamido-2-methylpropane-dimethylammonio) Butanoate," Erich E. Kathmann and Charles L. McCormick, Journal of Polymer Science, Chemistry, 35, 231-242 (1997).
142"Water-Soluble Polymers 70. Effects of Methylene versus Propylene Spacers in the pH and Electrolyte Responsiveness of Zwitterionic Copolymers Incorporating Carboxybetaine Monomers," Erich E. Kathmann, Leslie A. White, and Charles L. McCormick, Polymer, 38 (4), 879-886 (1997).
141"Water-Soluble Polymers 69. pH- and Electrolyte-Responsive Copolymers of Acrylamide and the Zwitterionic Monomer 4-(2-Acrylamido-2-Methyl Propyldimethylammonio) Butanoate: Synthesis and Solution Behavior," Erich E. Kathmann, Leslie A. White, and Charles L. McCormick, Polymer, 38 (4), 871-878 (1997).
140"Structopendant Unsaturated Cellulose Esters via Acylation in Homogeneous Lihium Chloride / N,N-Dimethylacetamide Solutions," Zheng B. Zhang, Charles L. McCormick, Journal of Applied Polymer Science, 66, 293-305 (1997).
139"Graft Copolymerization of Cellulose with Structopendant Unsaturated Ester Moities in Homogeneous Solution," Zheng B. Zhang, Charles L. McCormick, Journal of Applied Polymer Science, 66, 307-317 (1997).
138“pH Responsive Microdomain Formation in a De Novo Polypeptide,” Mark Logan, Gordon Cannon, Charles L. McCormick, Biopolymers, 41, 521-532 (1997).
137"Controlled Activity Polymers. XI. Hydrolytic Release Studies on Hydrophilic Copolymers with Labile Esters of Allelopathic Phenols," C. J. Boudreaux, W. C. Bunyard, and C. L. McCormick, Journal of Controlled Release, 44, 185-194 (1997).
136"Controlled Activity Polymers. X. Synthetically Tailored Monomers and Copolymers with Hydrolytically Labile Pendent Esters of Allelopathic Phenols," C. J. Boudreaux, W. C. Bunyard, and C. L. McCormick, Journal of Controlled Release, 44, 171-183 (1997).
135"Nafion/ORMOSIL Hybrids via in situ Sol-Gel Reactions: 3. Pyrene Fluorescence Probe Investigations of Nanoscale Environment," Qin Deng, Yuxin Hu, R. B. Moore, C. L. McCormick, and K .A. Mauritz, Chemistry of Materials, ACS, 9, 36-44 (1997).
134"Comments on "Recent Developments in Polymerization by an Alternating Intra-Intermolecular Mechanism," George B. Butler, J. Polym. Sci., XLVIII, 279 (1960)," Charles L. McCormick, Journal of Polymer Science, Chemistry, 34, 6, 911-912 (1996).
133"Polymerization and Polymer Reactions," Charles L. McCormick, Encyclopedia of Applied Physics, Vol. 14, pp. 445 - 476, VCH Publishers, Brookhaven, NY, (1996).
132"Water-Soluble Copolymers 68. Polyelectrolytes of N-vinylformamide with Sodium-3-Acrylamido-3-Methylbutanoate, Sodium-2-Acrylamido-2-Methylpropanesulfonate, and Sodium Acrylate: Solution Behavior," Erich E. Kathmann, Leslie A. White, and Charles L. McCormick, Macromolecules, 29, 5273-5278 (1996).
131"Water-Soluble Copolymers 67. Polyelectrolytes of N-vinylformamide with Sodium-3-Acrylamido-3-Methylbutanoate, Sodium-2-Acrylamido-2-Methylpropanesulfonate, and Sodium Acrylate: Synthesis and Characterization," Erich E. Kathmann, Leslie A. White, and Charles L. McCormick, Macromolecules, 29, 5268-5272 (1996).
130"Water Soluble Copolymers 66. Naphthalene Sequestration Studies of Micellar Domains in Aqueous Solutions of Hydrophobically Modified Poly (Sodium Maleate-alt-Ethyl Vinyl Ethers)s," Michael Kramer, Charles L. McCormick, Polymer, 37, 20, 4539-4546 (1996).
129"Water Soluble Copolymers 65. Nonradiative Energy Transfer Studies of the Associative Properties of Naphthalene and Pyrene-Labeled Polymeric Micelles Based on Sodium 11-Acrylamidoundecanoate," Michael Kramer, Charles L. McCormick, Macromolecules, 29, 1992-1997, (1996).
128"Water Soluble Copolymers 64. Effects of pH and Composition on Associative Properties of Amphiphilic Acrylamide/Acrylic Acid Terpolymers," Kelly D. Branham, H. Scott Snowden, and Charles L. McCormick, Macromolecules, 29, 254-262, (1996).
126"Controlled Activity Polymers. IX. Copolymers of Acrylic Acid and Isomeric N-Alkylacrylamide Monomers with Pendent -Naphthol Ester Moieties: Hydrolytic Release Studies," C. J. Boudreaux, W. . Bunyard, and C. L. McCormick, Journal of Controlled Release, 40, 235-243 (1996).
125"Controlled Activity Polymers. VIII. Copolymers of Acrylic Acid and Isomeric N-Alkylacrylamide with Pendent -Naphthol Esters Moieties: Synthesis and Characterization," C. J. Boudreaux, W. C. Bunyard, and C .L. McCormick, Journal of Controlled Release, 40, 223-233 (1996).
124"Fluorescence Studies of Pyrene-Labeled, Water-Soluble Polymeric Surfactants," Michael C. Kramer, Jamie R. Steger, and Charles L. McCormick, Chapter 22, in Multidimensional Spectroscopy of Polymers, M.W. Urban and Theodore Provder, Eds., American Chemical Society, Washington, D.C., 379-387, (1995).
123“Photophysical and Rheological Studies of Amphiphilic Polyelectrolytes: Correlation of Polymer Microstructure with Associative-Thickening Behavior,” Kelly D. Branham and Charles L. McCormick, in Multidimensional Spectroscopy of Polymers, M.W. Urban and Theodore Provder, Eds. American Chemical Society, Washington, D.C., Chapter 32, 551-567, (1995).
122"Water Soluble Copolymers 63. Rheological and Photophysical Studies of the Associative Properties of Pyrene-Labeled Poly (Acrylamide-co-Sodium 11-Acrylamidoundecanoate)," Michael C. Kramer, Cynthia G. Welch, Jamie R. Steger, and Charles L. McCormick, Macromolecules, 28, 5248 - 5254, (1995).
121"Water Soluble Copolymers 62. Nonradiative Energy Transfer Studies of Fluorescently Labeled, Hydrophobically Modified Poly (Sodium Maleate-alt-Ethyl Vinyl Ethers) in Aqueous Media," Yuxin Hu, Michael C. Kramer, Chase Boudreaux, and Charles L. McCormick, Macromolecules, 28, 7100-7106, (1995).
120"Water Soluble Copolymers 61. Microstructural Investigation of Pyrensulfonamide-Labeled Polyelectrolytes; Variation of Label Proximity Utilizing Micellar Polymerization," Kelly D. Branham, Georgia S. Shafer, Charles E. Hoyle, and Charles L. McCormick, Marcromolecules, 28, 6175-6182 , (1995).
119"Water Soluble Co-Polymers 60. Synthesis and Solution Behavior of Terpolymers of Acrylic Acid, Acrylamide, and the Zwitterionic Monomers 3-(2-Acrylamideo-2-methylpropanedimethylammonio)-1-propanesulfonate," Erich E. L. Kathmann, DeAnna D. Davis, and Charles L. McCormick, Macromolecules, 27, 3156-3161 (1994).
118"Water Soluble Co-Polymers 59. Investigation of the Effects of Polymer Microstructure on the Associative Behavior of Amphiphilic Terpolymers of Acrylamide, Acrylic Acid and N-[(4-decyl)phenyl]acrlyamide,” K. D. Branham, D. L. Davis, J. C. Middleton, and Charles L. McCormick, Polymer, 35, 4429-4436 (1994).
117“Water Soluble Co-Polymers 58: Associative Interactions and Photophysical Behavior of Terpolymers Prepared by Modification of Maleic Anhydride/Ethyl Vinyl Ether Copolymers,” Yihua Chang and Charles L. McCormick, Macromolecules, 27, 2151-2158 (1994).
116“Water Soluble Copolymers 57. Amphiphilic Cyclocopolymers of Diallylalkoxy-benzylmethylammonium Chloride and Diallylimethy-ammonium Chloride,” Yihua Chang and Charles L. McCormick, Polymer, 35, 3503-3512 (1994).
115"Water Soluble Copolymers 56. Structure and Solvation Effects of Polyampholytes in Drag Reduction," Pavneet S. Mumick, Paul M. Welch, Luis C. Salazar, and Charles L. McCormick, Macromolecules, 27, 323-331 (1994).
114"Water Soluble Copolymers 55. N-isopropylacrylamide-co-acrylamide Copolymers in Drag Reduction: Effect of Molecular Structure, Hydration and Flow Geometry on Drag Reduction, Performance," Pavneet S. Mumick, Roger D. Hester, and Charles L. McCormick, Polymer Engineering and Science, 34, 18, 1429-1440 (1994).
113"Water Soluble Copolymers 54. N-isopropylacrylamide-co-acrylamide Copolymers in Drag Reduction: Synthesis, Characterization, and Dilute Solution Behavior," Pavneet S. Mumick and Charles L. McCormick, Polymer Engineering and Science, 34, 18, 1419-1428 (1994).
112"Water Soluble Copolymers 53: 23Na NMR Studies of Ion-Binding to Anionic Polyelectrolytes: Poly(sodium 2-acrylamido-2-methylpropanesulfonate), Poly(sodium 3-acrylamido-3-methylbutanoate), Poly(sodium acrylate) and Poly(sodium galacturonate)," J. Kent Newman and C. L. McCormick, Macromolecules, 27, 5123-5128 (1994).
111"Water Soluble Copolymers 52: 23Na NMR Studies of Hydrophobically-Modified Polyacids: Copolymers of 2-(1-Napthylacetamido)-ethylacrylamide with Acrylic acid and Methacrylic acid," J. Kent Newman and C. L. McCormick, Macromolecules, 27, 5114-5122 (1994).
110"Water Soluble Copolymers 51. Copolymer Compositions of High-Molecular Weight Functional Acrylamido Water-Soluble Polymers Using Direct Polarization Magic-Angle Spinning 13C NMR," J. Kent Newman and C. L. McCormick, Polymer, 35, 935-938 (1994).
109“Water Soluble Co-Polymers 50. Effect of Surfactants on the Solution Properties of Amphipathic Copolymers of Acrylamide and N,N-Dimethyl-N-dodecyl-N-(2-acrylamidoethyl)ammonium Bromide," Yihua Chang, Robert Y. Lochhead, and Charles L. McCormick, Macromolecules, 27, 2145-2150 (1994).
108“Water Soluble Copolymers 49. Effect of the Distribution of the Hydrophobic Cationic Monomer DAMAB on Solution Behavior of Associating Acrylamide Copolymers,” Y. Chang and C. L. McCormick, Macromolecules, 26, 6121-6126 (1993).
107“Water Soluble Copolymers 48. Reactivity Ratios of N-vinylformamide with Acrylamide, Sodium Acrylate, and n-Butyl Acrylate,” Erich E. L. Kathmann and C. L. McCormick, Macromolecules, 26, 5249-5252 (1993).
106“Water Soluble Copolymers 47. Copolymerization of Maleic Anhydride and N-Vinylformamide: Charge Transfer Complexation of the Monomers and Their Reactivity Ratios,” Y. Chang and C. L. McCormick, Macromolecules, 26, 4814-4817 (1993).
105“Water Soluble Copolymers 45. Ampholytic Terpolymers of Acrylamide with Sodium 3-Acrylamido-3-Methylbutanoate and 2-acrylamido-2-Methylpropanetrimethylammonium Chloride,” C. L. McCormick and L. C. Salazar, J. Appl. Poly. Sci., 1115-1120 (1993).
104“Water Soluble Copolymers 42. Cationic Polyelectrolytes of Acrylamide and 2-Acrylamido-2-Methylpropanetrimethylammonium Chloride,” C. L. McCormick and L. C. Salazar, J. Poly. Sci.: Part A–Poly. Chem., 31, 1099-1104 (1993).
103“Analysis of Hydrophobically Modified Copolymers Utilizing Spectroscopic Probes and Labels,” Chapter 2 in Macromolecular Complexes in Chemistry and Biology, C. L. McCormick, K. D. Branham, R. Varadaraj, and J. Bock; Springer Verlag, NY (1993).
102“Water Soluble Copolymers 44. Ampholytic Terpolymers of Acrylamide with Sodium 2-Acrylamido-2-Methylpropanesulfonate and 2-Acrylamido-2-Methylpropanetrimethylammonium Chloride,” C. L. McCormick and L. C. Salazar, Polymer, 33(20), 4384-4387 (1992).
101“Water Soluble Copolymers 43. Ampholytic Copolymers of Sodium 2-(Acrylamido)-2-Methylpropanesulfonate with 2-(Acrylamido)-2-Methylpropanetrimethylammonium Chloride,” C. L. McCormick and L. C. Salazar, Macromolecules, 25(7), 1896-1900 (1992).
100“Water Soluble Copolymers 46. Hydrophilic Sulfobetaine Copolymers of Acrylamide and 3-(2-Acrylamido-2-Methylpropanedimethylammodio)-1-Propanesulfonate,” C. L. McCormick and L. C. Salazar, Polymer, 33(21), 4617-4624 (1992).
99“Water Soluble Copolymers 41. Copolymers of Acrylamide and Sodium 3-Acrylamido-3-Methylbutanoate,” C. L. McCormick and L. C. Salazar, J. Macro. Sci.–Pure Appl. Chem., A29(3), 193-205 (1992).
98“Water-Soluble Copolymers 40. Photophysical Studies of the Solution Behavior of Associative Pyrenesulfonamide-Labeled Polyacrylamides,” C. L. McCormick, C. E. Hoyle, D. Creed, and S. A. Ezzell, Macromolecules, 25(7), 1887-1895 (1992).
97“Water-Soluble Copolymers 39. Synthesis and Solution Properties of Associative Acrylamido Copolymers with Pyrenesulfonamide Fluorescence Labels,” C. L. McCormick and S. A. Ezzell, Macromolecules, 25(7), 1881-1886 (1992).
96“Water-Soluble Copolymers 38. Synthesis and Characterization of Electrolyte Responsive Terpolymers of Acrylamide, N-(4-Butyl) Phenylacrylamide and Sodium Acrylate, Sodium-2-Acrylamido-2-Methylpropanesulfonate or Sodium-3-Acrylamido-3-Methylbutanoate,” C. L. McCormick, J. C. Middleton, and C. E. Grady, Polymer, 33(19), 4184-4190 (1992).
95“Water-Soluble Copolymers 37. Synthesis and Characterization of Responsive Hydrophobically-Modified Polyelectrolytes,” C. L. McCormick, J. C. Middleton, and D. F. Cummins, Macromolecules, 25(4), 1201-1206 (1992).
94“Apparent Solubility Parameters from Photophysical Investigation of Copolymers with Pendent Naphthyl Chromophores,” C. L. McCormick, C. E. Hoyle, M. D. Clark, and T. A. Schott, Polymer International, 27(1), 63-65 (1992).
93“Water-Soluble Copolymers 26. Fluorescence Probe Studies of Hydrophobically-Modified Maleic Acid-Ethyl Vinyl Ether Copolymers,” C. L. McCormick, C. E. Hoyle, and M. D. Clark, Polymer, 33(2), 243-247 (1992).
92“Water-Soluble Copolymers 36. Photophysical Investigations of Water-Soluble Copolymers of 2-(1-naphthylacetamido)ethylacrylamide,” C. L. McCormick, C. E. Hoyle, and M. D. Clark, Macromolecules, 24(9), 2397-2403 (1991).
91“Structural Design of Water-Soluble Copolymers,” C. L. McCormick, in Water Soluble Polymers: Synthesis, Solution Properties, and Applications, ACS Symposium Series 467, S. W. Shalaby, C. L. McCormick, and G. B. Butler, Eds.; ACS: Washington, DC, 1991; 2-24.
90“Copolymers of Acrylamide and a Novel Sulfobetaine Amphoteric Monomer,” L. C. Salazar and C. L. McCormick, in Water Soluble Polymers: Synthesis, Solution Properties and Applications, ACS Symposium Series 467, S. W. Shalaby, C. L. McCormick, and G. B. Butler, Eds.; ACS: Washington, DC, 1991; 119-129.
89“Synthesis and Solution Characterization of Pyrene-Labeled Polyacrylamides,” S. A. Ezzell and C. L. McCormick, in Water Soluble Polymers: Synthesis, Solution Properties, and Applications, ACS Symposium Series 467, S. W. Shalaby, C. L. McCormick, and G. B. Butler, Eds.; ACS: Washington, DC, 1991; 130-150.
88“Photophysical and Rheological Studies of the Aqueous Solution Properties of Naphthalene-Pendent Acrylic Copolymers,” M. D. Clark, C. L. McCormick, and C. E. Hoyle, in Water Soluble Polymers: Synthesis, Solution Properties, and Applications, ACS Symposium Series 467, S. W. Shalaby, C. L. McCormick, and G. B. Butler, Eds.; ACS: Washington, DC, 1991; 291-302.
87“Roles of Molecular Structure and Solvation on Drag Reduction in Aqueous Solutions,” C. L. McCormick, S. E. Morgan, and R. D. Hester, in Water Soluble Polymers: Synthesis, Solution Properties, and Applications, ACS Symposium Series 467, S. W. Shalaby, C. L. McCormick, and G. B. Butler, Eds.; ACS: Washington, DC, 1991; 320-337.
86“Rheological Properties of Hydrophobically Modified Acrylamide-Based Polyelectrolytes,” J. C. Middleton, D. F. Cummins, and C. L. McCormick, in Water Soluble Polymers: Synthesis, Solution Properties, and Applications, ACS Symposium Series 467, S. W. Shalaby, C. L. McCormick and G. B. Butler, Eds.; ACS: Washington, DC, 1991; 338-348.
85“Water-Soluble Copolymers 35. Photophysical and Rheological Studies of the Copolymer of Methacrylic Acid with 2-(1-naphthylacetyl)ethyl Acrylate,” C. L. McCormick, C. E. Hoyle, and M. D. Clark, Macromolecules, 23(12), 3124-3129 (1990).
84“Fundamental Studies of Hydrophobically Modified, Associative Copolymers in Aqueous Solution: Implications in Rheology Modification and Drag Reduction,” C. L. McCormick and R. D. Hester, Proceedings of the 1990 Water-Borne and Higher-Solids Coatings Symposium, 85-101, New Orleans, LA (1990).
83“Preparation of Cellulose Derivatives via Ring Opening Reactions with Cyclic Reagents in Lithium Chloride/N,N-Dimethylacetamide,” C. L. McCormick and T. R. Dawsey, Macromolecules, 23(15), 3606-3610 (1990).
82“Competitive Formation of Cellulose p-toluenesulfonate and Chlorodeoxycellulose During Homogeneous Reaction of p-toluenesulfonate Chloride With Cellulose in N,N-Dimethyl-Acetamide-Lithium Chloride,” C. L. McCormick, T. R. Dawsey, and J. K. Newman, Carbohydrate Research, 208, 183-191 (1990).
81“The Lithium Chloride/Dimethylacetamide Solvent for Cellulose: A Literature Review,” C. L. McCormick and T. R. Dawsey, J. Macromol-Sci. Revs. Macromol. Chem. Phys., C30(3&4), 405-440 (1990).
80“Water-Soluble Polymers 34. Ampholytic Terpolymers of Sodium 2-Acrylamido-2-Methylpropanesulfonate with 2-Acrylamido-2-Methylpropane-Dimethylammonium Chloride and Acrylamide: Synthesis and Absorbency Behavior,” C. L. McCormick and C. B. Johnson, J. Macromol. Sci.–Chem., A27(5), 539-547 (1990).
79“Water-Soluble Polymers 33. Ampholytic Terpolymers of Sodium 2-Acrylamido-2-Methylpropanesulfonate with 2-Acrylamido-2-Methylpropane-Dimethylammonium Chloride and Acrylamide: Synthesis and Aqueous Solution Behavior,” C. L. McCormick and C. B. Johnson, Polymer, 31, 1100-1107 (1990).
78“Water-Soluble Copolymers 32. Macromolecular Drag Reduction, A Review of Predictive Theories and the Effects of Polymer Structure,” S. E. Morgan and C. L. McCormick, Progress in Polymer Science, 15(3), 507-549 (1990).
..... 77“Water-Soluble Copolymers. 31. Effects of Molecular Parameters, Solvation, and Polymer Associations on Drag Reduction Performance,” C. L. McCormick, R. D. Hester, S. E. Morgan and A. M. Safieddine, Macromolecules, 23(8), 2132-2139 (1990).
76“Water-Soluble Copolymers. 30. Effects of Molecular Structure on Drag Reduction Efficiency,” C. L. McCormick, R. D. Hester, S. E. Morgan and A. M. Safieddine, Macromolecules, 23(8), 2124-2131 (1990).
75“Water - Soluble Polymers,” C. L. McCormick, J. Bock and D. N. Schulz, Encyclopedia of Polymer Science and Engineering, 17, John Wiley and Sons, New York, 730-784 (1989).
74“Synthetically Structured Water-Soluble Copolymers: Associations by Hydrophobic or Ionic Mechanisms,” C. L. McCormick and C. B. Johnson, chapter in Polymers in Aqueous Media, J. E. Glass, ed., ACS Books, Advances in Chemistry Series No. 223, 437-454 (1989).
73“Controlled Activity Polymers VII. Acrylamide Copolymers with Structopendent Naphthylacetic Acid and Indoleacetic Acid Esters: Release Behavior,” C. L. McCormick, K. Kim, and S. A. Ezzell, J. Controlled Release, 7(2), 109-121 (1988).
72“Controlled Activity Polymers VI. Acrylamide Copolymers with Structopendent Naphthylacetic Acid and Indoleacetic Acid Esters: Synthesis and Characterization,” C. L. McCormick and K. Kim, J. Controlled Release, 7(2), 101-108 (1988).
71“Controlled Activity Polymers V. Copolymers of 2-(1‑Naphthylacetyl) Ethyl Acrylate with Hydrophilic Comonomers: Release Behavior,” C. L. McCormick and K. Kim, J. Macromol. Sci., Chem., A25(3), 307-326 (1988).
70“Controlled Activity Polymers IV. Copolymers of 2-(1‑Naphthylacetyl) Ethyl Acrylate with Hydrophilic Comonomers: Synthesis and Characterization,” C. L. McCormick and K. Kim, J. Macromol. Sci., Chem., A25(3), 285-305 (1988).
69“Water-Soluble Copolymers 29. Ampholytic Copolymers of Sodium 2-Acrylamido-2-methylpropanesulfonate with (2-Acrylamido-2-methylpropyl)dimethylammonium Chloride: Solution Properties,” C. L. McCormick and C. B. Johnson, Macromolecules, 21(3), 694-699 (1988).
68“Water-Soluble Copolymers 28. Ampholytic Copolymers of Sodium 2-Acrylamido-2-methylpropanesulfonate with (2-Acrylamido-2-methylpropyl)dimethylammonium Chloride: Synthesis and Characterization,” C. L. McCormick and C. B. Johnson, Macromolecules, 21(3), 686-693 (1988).
67“Water-Soluble Copolymers 27. Synthesis and Aqueous Solution Behavior of Associative Acrylamide/N-Alkylacrylamide Copolymers,” C. L. McCormick, T. Nonaka, and C. B. Johnson, Polymer, 29(4), 731-739 (1988).
66“Structurally Tailored Macromolecules for Mobility Control in Enhanced Oil Recovery,” C. L. McCormick and C. B. Johnson, chapter in Water-Soluble Polymers for Petroleum Recovery, G. A. Stahl and D. N. Schulz, Eds., Plenum Publishing Company, 161-180 (1988).
65“Derivitization of Cellulose in Lithium Chloride/N,N-Dimethylacetamide Solutions,” C. L. McCormick and P. A. Callais, Polymer, 28, 2317-2324 (1987).
64“Water-Soluble Copolymers 16. Studies of the Behavior of Acrylamide/N-(1,1-Dimethyl-3-Oxobutyl)acrylamide Copolymers in Aqueous Salt Solutions,” C. L. McCormick, B. H. Hutchinson, and S. E. Morgan, Makromol. Chem., 188, 357‑370 (1987).
63“Water-Soluble Copolymers 25. Ion-Binding Studies of N-Substituted Acrylamide Copolymers Using Potentiometric and Spectroscopic Methods,” C. L. McCormick and D. L. Elliott, J. Poly. Sci. Chem.: Poly. Chem., A25, 1329-1337 (1986).
62“Water-Soluble Copolymers 24. Copolymers of Acrylamide with N-(1,1-Dimethyl-3-Oxobutyl)-N-(n-Propyl)Acrylamide: Solution Properties,” C. L. McCormick, K. P. Blackmon, and D. L. Elliott, D. Angew. Makro. Chem., 144, 87-99 (1986).
61“Water-Soluble Copolymers 23. Copolymers of Acrylamide with N-(1,1-Dimethyl-3-Oxobutyl)-N-(n-Propyl)Acrylamide: Synthesis and Characterization,” C. L. McCormick and K. P. Blackmon, D. Angew. Makro. Chem., 144, 73-86 (1986).
60“Water-Soluble Copolymers 22. Copolymers of Acrylamide with 2-Acrylamido-2-Methylpropanedimethylammonium Chloride: Aqueous Solution Properties of a Polycation,” C. L. McCormick, K. P. Blackmon, and D. L. Elliott, Polymer, 27, 1976-1980 (1986).
59“Water-Soluble Copolymers 21. Copolymers of Acrylamide with 2-Acrylamido-2-Methylpropanedimethylammonium Chloride: Synthesis and Characterization,” C. L. McCormick and K. P. Blackmon, Polymer, 27, 1971-1975 (1986).
58“Water-Soluble Copolymers 20. Copolymers of Acrylamide with Sodium-3-(N-Propyl) Acrylamido-3-Methylbutanoate: Solution Properties,” C. L. McCormick, K. P. Blackmon, and D. L. Elliott, J. Macromol. Sci., Chem., A23(12), 1469-1486 (1986).
57“Water-Soluble Copolymers 19. Copolymers of Acrylamide with Sodium-3-(N-Propyl) Acrylamido-3-Methylbutanoate: Synthesis and Characterization,” C. L. McCormick and K. P. Blackmon, J. Macromol. Sci., Chem., A23(12), 1451-1467 (1986).
56“Water-Soluble Copolymers 18. Copolymers of Acrylamide with Sodium-2-Methacrylamido-3-Methylbutanoate: Microstructural Studies and Solution Properties,” C. L. McCormick, D. L. Elliott, and K. P. Blackmon, Macromolecules,19, 1516-22 (1986).
55“Water-Soluble Copolymers 17. Copolymers of Acrylamide with Sodium-2-Methacrylamide-3-Methylbutanoate: Synthesis and Characterization,” C. L. McCormick and K. P. Blackmon, Macromolecules, 19, 1512-5 (1986).
54“Water-Soluble Copolymers 15. Studies of Random Copolymers of Acrylamide with N-Substituted Acrylamides by 13C NMR,” B. H. Hutchinson and C. L. McCormick, Polymer, 27(4), 623-626 (1986).
53“Water-Soluble Copolymers 14. Potentiometric and Turbidimetric Studies of Water-Soluble Copolymers of Acrylamide: Comparison of Carboxylated and Sulfonated Copolymers,” C. L. McCormick and D. L. Elliott, Macromolecules, 19, 542-547 (1986).
52“Water-Soluble Copolymers 13. Copolymers of Acrylamide with Sodium-3-Acrylamido-3-Methylbutanoate: Solution Properties,” C. L. McCormick, K. P. Blackmon, and D. L. Elliott, J. Poly. Sci., Chem.: Poly. Chem., A24, 2619-2634 (1986).
51“Water-Soluble Copolymers 12. Copolymers of Acrylamide with Sodium-3-Acrylamido-3-Methylbutanoate: Synthesis and Characterization,” C. L. McCormick and K. P. Blackmon, J. Poly. Sci., Chem.: Poly. Chem., A24, 2635-2645 (1986).
50“Cyclopolymerization of N-Substituted Diacryltriazine Monomers with Hydrophilic Comonomers to Yield Polymeric Herbicides,” C. L. McCormick, Z. B. Zhang and K. W. Anderson, J. Controlled Release, 4, 97-109 (1986).
49“Water-Soluble Copolymers 11. Selectivity in the Graft Copolymerization of Acrylamide/N-(1,1-Dimethyl-3-Oxybutyl) Acrylamide Comonomers onto Dextran by Ce(IV) Induced Initiation,” C. L. McCormick and L. S. Park, J. Appl. Polym. Sci., 30, 45-59 (1985).
48“Controlled Activity Polymers with Pendent Metribuzin: Effect of Structure on Hydrolytic Release,” C. L. McCormick, Macromolecules as Drugs and as Carriers for Biologically Active Materials, Annals of the New York Academy of Sciences, 446, 76-92 (1985).
47“Synthetic and Modified Natural Polymers for Enhanced Oil Recovery,” C. L. McCormick and C. B. Johnson, Biotechnology of Marine Polysaccarides, R. R. Colwell, E. R. Pariser and A. J. Sinskey, Eds.; Hemisphere Publishing Corp.: Washington, 214-248 (1985).
46“Water-Soluble Random and Graft Copolymers for Utilization in Enhanced Oil Recovery,” C. L. McCormick, J. Macromol. Sci., Chem., A22(5-7), 955-982 (1985).
45“Solution Studies of Cellulose in Lithium Chloride and N,N-Dimethylacetamide,” C. L. McCormick, P. A. Callais, and B. H. Hutchinson, Macromolecules, 18, 2394-2401 (1985).
44“Agricultural Applications,” C. L. McCormick, Encyclopedia of Polymer Science and Engineering, Vol. 1, 2nd Ed. H. F. Mark, Ed., John Wiley and Sons: New York, 611-622 (1984).
43“Synthesis and Characterization of Chitin Pendently Substituted with the Herbicide Metribuzin,” C. L. McCormick and K. W. Anderson in Chitin, Chitosan, and Related Enzymes, J. P. Zikakis, Ed., Academic Press: New York, NY, 41-53 (1984).
42“Water-Soluble Copolymers X. Copolymers of Acrylamide with N-(1,1-Dimethyl-oxybutyl) Acrylamide–Solution Properties,” C. L. McCormick and G. S. Chen, J. Poly. Sci., Chem., 22, 3649-3660 (1984).
41“Water-Soluble Copolymers IX. Copolymers of Acrylamide with N-(1,1-Dimethyl-oxybutyl) Acrylamide–Synthesis and Characterization,” C. L. McCormick and G. S. Chen, J. Poly. Sci., Chem., 22, 3633-3649 (1984).
40“Water-Soluble Copolymers VIII. Synthesis and Dilute Solution Rheological Studies of Dextran-g-poly(acrylamide-co-sodium acrylates)”, C. L. McCormick, L. S. Park, and R. D. Hester, Polym. Eng. and Sci., 24(2), 163-168 (1984).
39“Water-Soluble Copolymers VII. Cerium (IV) Induced Graft Copolymerization of Acrylamide and Sodium-2-Acrylamido-2-Methylpropane Sulfonate onto Dextran,” C. L. McCormick and L. S. Park, J. Poly. Sci., Chem., 22, 49-60 (1984).
38“Water-Soluble Copolymers VI. Dilute Solution Viscosity Studies of Random Copolymers of Acrylamide with Sulfonated Comonomers,” H. H. Neidlinger, G. S. Chen, and C. L. McCormick, J. Appl. Poly. Sci., 29, 713-730 (1984).
37“Polymers for Enhanced Oil Recovery,” C. L. McCormick, Mississippi Energy Research Journal, 5-9 (February 1983).
36“Controlled Activity Polymers with Pendently Bound Herbicides,” C. L. McCormick, K. W. Anderson, and B. H. Hutchinson, Jr., J. Macromol-Sci. Revs. Macromol. Chem. Phys., C22, 57-87 (1982).
35“Water-Soluble Copolymers V. Compositional Determination of Random Copolymers of Acrylamide with Sulfonated Comonomers by Infrared Spectroscopy and 13C Nuclear Magnetic Resonance,” C. L. McCormick, G. S. Chen, and B. H. Hutchinson, Jr., J. Appl. Poly. Sci., 27, 3103 (1982).
34“Water-Soluble Copolymers IV. Random Copolymers of Acrylamide with Sulfonated Comonomers,” C. L. McCormick and G. S. Chen, J. Polymer Science, Polymer Chemistry, 20, 817-838 (1982).
33“Cellulose Dissolution and Derivatization in LiCl/DMAc Solutions,” C. L. McCormick and T. S. Shen, in Macromolecular Solution, R. B. Seymour and G. A. Stahl, Eds., Pergamon Press: New York, NY, 101-107 (1982).
32“Random and Graft Copolymers for Utilization in Enhanced Oil Recovery,” R. D. Hester, C. L. McCormick and H. H. Neidlinger in Proceedings of the SPE/DOE Joint Symposium on Enhanced Oil Recovery, Tulsa, OK (1981).
31“Polymers Containing Pendently Attached Metribuzin as Potential Controlled-Release Herbicides, C. L. McCormick and K. W. Anderson, in Controlled Release of Bioactive Materials, S. A. Mansdorf, Ed., 225-256 (1981).
30“Model Acrylamide Random and Graft Copolymers for Utilization in Enhanced Oil Recovery,” C. L. McCormick, R. D. Hester, and G. C. Wildman, ACS Symposium Series–Enhanced Recovery Methods, R. Berg, Ed., ACS: Washington, D.C. (1981).
29“Synthetic Random- and Graft-Copolymers for Utilization in Enhanced Oil Recovery–Synthesis and Rheology,” C. L. McCormick, R. D. Hester, H. H. Neidlinger, and G. C. Wildman in Surface Phenomena in Enhanced Oil Recovery, D. O. Shah, Ed., Plenum Press: New York, NY, 741-772 (1981).
28“Water-Soluble Copolymers III. Dextran-g-Acrylamides, Control of Grafting Sites and Molecular Weight by Ce(IV)-Induced Initiation in Homogeneous Solutions,” C. L. McCormick and L. S. Park, J. Polymer Science, Polymer Chemistry, 19, 2229-2241 (1981).
27 “Water-Soluble Copolymers II. Synthesis and Characterization of Model Dextran-g-Acrylamides by Ce(IV)/HNO3-Induced Initiation,” C. L. McCormick and K. C. Lin, JMS–Chem., A16(8), 1441-1462 (1981).
26“Water-Soluble Copolymers I. Synthesis of Model Dextran-g-Acrylamides by Fe(II)/H2O2 Initiation and Characterization by Aqueous Size Exclusion Chromatography,” C. L. McCormick and L. S. Park, Journal of Applied Polymer Science, 26, 1705-1717 (1981).
25“Controlled Release of Metribuzin, 2,4-D, and Model Aromatic Amines from Polysaccharides and Poly(Vinyl Alcohol),” C. L. McCormick, K. W. Anderson, J. A. Pelezo, and D. K. Lichatowich, Controlled Release of Pesticides and Pharmaceuticals, D. H. Lewis, Ed., Plenum Press: New York, NY, 147-158 (1981).
24“Controlled Activity Models with Pendent Carbamate Bonds,” C. L. McCormick, J. A. Pelezo, K. W. Anderson, and B. H. Hutchinson, Jr., Proceedings of the 7th International Symposium on Controlled Release of Bioactive Materials, 182-186, Ft. Lauderdale, FL (1980).
23“Synthesis, Characterization, and Rheological Behavior of Model Acrylamide Random- and Graft-Copolymers for Utilization in Enhanced Oil Recovery,” H. H. Neidlinger, C. L. McCormick, R. D. Hester, and G. C. Wildman, Enhanced Oil Recovery–Chemical Flooding, 2, F-29/1-21/14, DOE/BETC/IC-80/3, Bartlesville, OK (1980).
22“Controlled Release Herbicides,” B. N. Devisetty, C. L. McCormick, and B. S. Shasha, Proceedings of the 7th International Symposium on Controlled Release of Bioactive Materials, 187-188, Ft. Lauderdale, FL (1980).
21“Controlled Activity Polymers with Labile Bonds to Pendent Metribuzin,” C. L. McCormick and M. M. Fooladi, Controlled Release of Bioactive Materials, R. W. Baker, Ed., Academic Press: New York, NY, 317-330 (1980).
20“Homogeneous Solution Reactions of Cellulose, Chitin, and Other Polysaccharides,” C. L. McCormick, D. K. Lichatowich, K. W. Anderson, and J. A. Pelezo, Modification of Natural Polymers, ACS Symposium Series No. 121; C. E. Carraher and M. Tsuda, Eds., ACS: Washington, DC (1980), 371-380.
19“Homogeneous Solution Reactions of Cellulose, Chitin, and Other Polysaccharides to Produce Controlled-Activity Pesticide Systems,” C. L. McCormick and D. K. Lichatowich, J. Polymer Sci., Poly. Letters, 17, 479-484 (1979).
18“Polymers with Hydrolytically Labile Bonds to Pendent Metribuzin,” C. L. McCormick, H. H. Neidlinger, R. D. Hester, and G. C. Wildman, Proceedings of the Symposium on Surface Phenomena in Enhanced Oil Recovery, Stockholm, Sweden (August 1979).
17“Synthesis, Characterization, and Rheological Behavior of Model Random- and Graft-Copolymers for Utilization in Enhanced Oil Recovery,” C. L. McCormick, R. D. Hester, H. H. Neidlinger, and G. C. Wildman, Proceedings of the Fifth DOE Symposium on Enhanced Oil Recovery, Volume I, Tulsa, OK, D4/1-D4/26 (1979).
16“Volatiles from the Molding and Extrusion of Polystyrenes,” R. B. Seymour and C. L. McCormick, Popular Plastics, 22 (June 1979).
15“Polymers for Controlled-Release of Herbicides,” C. L. McCormick and D. K. Lichatowich, Journal of the Mississippi Academy of Sciences, 23, 6-10 (1978).
14“Polyurethane Elastomers for Biomedical Applications,” C. L. McCormick, Journal of Mississippi Academy of Sciences, 23, 2-6 (1978).
13“Development of Laboratory Screening Tests to Predict Polymer Performance in Enhanced Oil Recovery (I),” C. L. McCormick, R. D. Hester, H. H. Neidlinger, and G. C. Wildman, Fourth Annual DOE Symposium on Enhanced Oil and Gas Recovery Methods, IA, B1. 1-B1.25, Tulsa, OK (1978).
12“Controlled Activity Pendent Herbicide Systems Utilizing Chitin and Other Biodegradable Polymers,” C. L. McCormick, D. K. Lichatowich, and M. M. Fooladi, Proceedings of the 5th International Symposium on Controlled Release of Bioactive Materials, 3.6-3.17, Gaithersburg, MD (1978).
11“Controlled Activity Pendent Herbicide Systems Containing Pendent Metribuzin,” K. E. Savage, C. L. McCormick, and B. H. Hutchinson, Jr., Proceedings of the 5th International Symposium on Controlled Release of Bioactive Materials, 3.18-3.28, Gaithersburg, MD (1978).
10“Utilization of Polymers in Enhanced Oil Recovery,” C. L. McCormick, Polymeric Materials Basic Research Needs for Energy Applications, 13-29, Case Western Reserve, Cleveland, OH (1978).
9“Emission from Molding and Extrusion of Polystyrene,” R. B. Seymour, C. L. McCormick, and F. Williams, Plastics Engineering, 41, (December 1978).
8“Synthesis, Characterization, and Release Mechanisms of Polymers Containing Pendent Herbicides,” C. L. McCormick and M. Fooladi, Controlled Release Pesticides, ACS Symposium Series No. 53, 112-125, H. B. Scher, Ed., ACS: Washington, DC (1977).
7“Edapic Evaluation of Controlled-Release Formulations of Metribuzin,” C. L. McCormick, K. E. Savage, and B. Hutchinson, Proceedings of Southern Weed Science Society Meetings, 30, 374, Dallas, TX (1977).
6“Development of Controlled-Release Polymer Systems Containing Metribuzin,” C. L. McCormick, K. E. Savage, and B. Hutchinson, Proceedings of the 1977 Controlled-Release Pesticide Symposium, 28-40, Corvallis, OR (August 22-24, 1977).
5“Synthesis and Competitive Mechanism of Formation of Phenyl-Substituted 1,2-Azaborolidines and 1-Aza-5-borabicyclo (3.3.0) Octanes,” C. L. McCormick and G. B. Butler, Journal of Organic Chemistry, 41, 2803-2808 (1976).
4“Characterization of Segmental Polyurethane Elastomers for Utilization in Prosthetic Devices,” D. R. Owen, C. L. McCormick, and P. D. Frayer, Proceedings of the C