Chadwick lab:Publications: Difference between revisions
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<li>The Crystallization and Characterization of Composite Spherical Particles. Quon J. L., Chadwick K., Myerson A. S., Hatton T. A., Trout B. L.; manuscript being prepared for submission to Organic Process Research and Development (2012).</li> | <li>The Crystallization and Characterization of Composite Spherical Particles. Quon J. L., Chadwick K., Myerson A. S., Hatton T. A., Trout B. L.; manuscript being prepared for submission to Organic Process Research and Development (2012).</li> | ||
<li>The Effect of Substrate Surface Morphology on the Nucleation Kinetics of Acetaminophen. Quon J. L., Chadwick K., Sheu I., Brettmann B. K., Myerson A. S., Trout B. L.; manuscript being prepared for submission to Crystal Growth and Design (2012).</li> | <li>The Effect of Substrate Surface Morphology on the Nucleation Kinetics of Acetaminophen. Quon J. L., Chadwick K., Sheu I., Brettmann B. K., Myerson A. S., Trout B. L.; manuscript being prepared for submission to <em>Crystal Growth and Design</em> (2012).</li> | ||
<li>Self Promoted Heterogeneous Nucleation: Crystallization Controlled by Cooperativity. Chadwick K., Wood G., Sheu I., Levina A., Myerson A. S., Trout B. L.; manuscript being prepared for submission to the Journal of the American Chemical Society (2012). </li> | <li>Self Promoted Heterogeneous Nucleation: Crystallization Controlled by Cooperativity. Chadwick K., Wood G., Sheu I., Levina A., Myerson A. S., Trout B. L.; manuscript being prepared for submission to the <em>Journal of the American Chemical Society</em> (2012). </li> | ||
<li>A novel thin film-based pharmaceutical tablet manufacturing process: formulation, processing, and properties. Du Y., Luna L. E., Chadwick K., Kim K. T., Xi L., Myerson A. S., Trout B. L.; manuscript submitted to Pharmaceutical Research (2012).</li> | <li>A novel thin film-based pharmaceutical tablet manufacturing process: formulation, processing, and properties. Du Y., Luna L. E., Chadwick K., Kim K. T., Xi L., Myerson A. S., Trout B. L.; manuscript submitted to <em>Pharmaceutical Research</em> (2012).</li> | ||
<li>Making a Disappearing Polymorph Reappear: Controlling Polymorphism Using Crystalline Substrates. Chadwick K., Ma X., Myerson A. S., Trout B. L.; manuscript submitted to CrystEngComm (2012).</li> | <li>Making a Disappearing Polymorph Reappear: Controlling Polymorphism Using Crystalline Substrates. Chadwick K., Ma X., Myerson A. S., Trout B. L.; manuscript submitted to <em>CrystEngComm</em> (2012).</li> | ||
<li>[http://pubs.rsc.org/en/content/articlelanding/2011/ce/c1ce05871a#divAbstract Polymorphic Control by Heterogeneous Nucleation – A New Method for Selecting Crystalline Substrates.] Chadwick K., Myerson A. S., Trout B. L.; CrystEngComm 2011; 13; 6625-6627. | <li>[http://pubs.rsc.org/en/content/articlelanding/2011/ce/c1ce05871a#divAbstract Polymorphic Control by Heterogeneous Nucleation – A New Method for Selecting Crystalline Substrates.] Chadwick K., Myerson A. S., Trout B. L.; <em>CrystEngComm</em> 2011; 13; 6625-6627.</li> | ||
<li></li> | <li>[http://www.ncbi.nlm.nih.gov/pubmed?term=Solubility%2C%20metastable%20zone%20width%20measurement%20and%20crystal%20growth%20of%20the%201%3A1%20benzoic%20acid%2Fisonicotinamide%20cocrystal%20in%20solutions%20of%20variable%20stoichiometry Solubility, metastable zone width measurement and crystal growth of the 1:1 benzoic acid/isonicotinamide cocrystal in solutions of variable stoichiometry.] Boyd, S.; Back, K.; Chadwick, K.; Davey, R. J.; Seaton, C. C.; <em>Journal of Pharmaceutical Science</em> 2010; 99; 3779-3786.</li> | ||
<li></li> | <li></li> | ||
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Designing Acid/Acid Co-Crystals through the Application of Hammett Substituent Constants; Seaton, C. C.; Chadwick, K.; Sadiq, G.; Guo, K.; Davey, R. J.; Crystal Growth & Design 2010; 10; 726-733. | Designing Acid/Acid Co-Crystals through the Application of Hammett Substituent Constants; Seaton, C. C.; Chadwick, K.; Sadiq, G.; Guo, K.; Davey, R. J.; Crystal Growth & Design 2010; 10; 726-733. |
Revision as of 09:00, 25 November 2013
Recent Publications
- Towards the Rational Design of Crystalline Surfaces for Heteroepitaxy: The Role of Molecular Functionality. Chadwick K., Chen J., Myerson A.S., and Trout B.L.; Crystal Growth & Design 12 (2012): 1159-1166.
- Separation of Impurities from Active Pharmaceutical Ingredients by Selective Co-Crystal Formation. Hsi, K., Chadwick, K., Fried A., Kenny, M., and Myerson, A. S.; CrystEngComm 14 (2012): 2386-2388.
- The Crystallization and Characterization of Composite Spherical Particles. Quon J. L., Chadwick K., Myerson A. S., Hatton T. A., Trout B. L.; manuscript being prepared for submission to Organic Process Research and Development (2012).
- The Effect of Substrate Surface Morphology on the Nucleation Kinetics of Acetaminophen. Quon J. L., Chadwick K., Sheu I., Brettmann B. K., Myerson A. S., Trout B. L.; manuscript being prepared for submission to Crystal Growth and Design (2012).
- Self Promoted Heterogeneous Nucleation: Crystallization Controlled by Cooperativity. Chadwick K., Wood G., Sheu I., Levina A., Myerson A. S., Trout B. L.; manuscript being prepared for submission to the Journal of the American Chemical Society (2012).
- A novel thin film-based pharmaceutical tablet manufacturing process: formulation, processing, and properties. Du Y., Luna L. E., Chadwick K., Kim K. T., Xi L., Myerson A. S., Trout B. L.; manuscript submitted to Pharmaceutical Research (2012).
- Making a Disappearing Polymorph Reappear: Controlling Polymorphism Using Crystalline Substrates. Chadwick K., Ma X., Myerson A. S., Trout B. L.; manuscript submitted to CrystEngComm (2012).
- Polymorphic Control by Heterogeneous Nucleation – A New Method for Selecting Crystalline Substrates. Chadwick K., Myerson A. S., Trout B. L.; CrystEngComm 2011; 13; 6625-6627.
- Solubility, metastable zone width measurement and crystal growth of the 1:1 benzoic acid/isonicotinamide cocrystal in solutions of variable stoichiometry. Boyd, S.; Back, K.; Chadwick, K.; Davey, R. J.; Seaton, C. C.; Journal of Pharmaceutical Science 2010; 99; 3779-3786.
Book Chapters
Invited Chapter:
Edited Textbook Chapters
Refereed Abstracts
Posters
Designing Acid/Acid Co-Crystals through the Application of Hammett Substituent Constants; Seaton, C. C.; Chadwick, K.; Sadiq, G.; Guo, K.; Davey, R. J.; Crystal Growth & Design 2010; 10; 726-733.
Designing Acid/Acid Co-Crystals - The Use of Hammett Substitution Constants; Chadwick, K.; Sadiq, G.; Davey, R. J.; Seaton, C. C.; Pritchard, R. G.; Parkin, A.; Crystal Growth & Design 2009; 9; 1278-1279.
Crystallization from Water-in-Oil Emulsions As a Route to Spherical Particulates: Glycine and the Hydrochloride Salts of Glutamic Acid and Ephedrine; Chadwick, K.; Davey, R. J.; Mughal, R.; Marziano, I.; From Organic Process Research & Development 2009; 13; 1284-1290.
The utility of a ternary phase diagram in the discovery of new co-crystal forms; Chadwick, K.; Davey, R.; Sadiq, G.; Cross, W.; Pritchard, R.; CrystEngComm 2009; 11; 412-414.
Cocrystallization: A Solution Chemistry Perspective and the Case of Benzophenone and Diphenylamine; Chadwick, K.; Davey, R. J.; Dent, G.; Pritchard, R. G.; Hunter, C. A.; Musumeci, D.; Crystal Growth & Design 2009; 9; 1990-1999.
How does grinding produce co-crystals? Insights from the case of benzophenone and diphenylamine; Chadwick, K.; Davey, R.; Cross, W.; CrystEngComm 2007; 9; 732-734.
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