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<h2>Recent Publications</h2>
<h2>Recent Publications</h2>
http://www.ncbi.nlm.nih.gov/pubmed/?term=chadwick%2C+keith
<ol type="1">
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<li>[http://pubs.acs.org/doi/abs/10.1021/cg2010858?prevSearch=%255BContrib%253A%2BChadwick%2BK%255D%2Band%2B%255BContrib%253A%2BChadwick%252C%2BKeith%255D&searchHistoryKey= 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. <em>Crystal Growth & Design</em> 12 (2012): 1159-1166.</li>
<p>15. [http://www.ncbi.nlm.nih.gov/pubmed/?term=Templated+Nucleation+of+Acetaminophen+on+Spherical+Excipient+Agglomerates Templated Nucleation of Acetaminophen on Spherical Excipient Agglomerates.] Quon J.L., Chadwick, K., Sheu I., Brettmann B. K., Myerson, A.S., Trout B.L. <em>Langmuir</em> 29 (10) 2013: 3292-3300.</p>


<li>[http://pubs.rsc.org/en/content/articlelanding/2012/ce/c1ce06358h#divAbstract Separation of Impurities from Active Pharmaceutical Ingredients by Selective Co-Crystal Formation.] Hsi, K., Chadwick, K., Fried A., Kenny, M., and Myerson, A. S. <em>CrystEngComm</em> 14 (2012): 2386-2388.</li>
<p>14. [http://pubs.acs.org/doi/abs/10.1021/cg2010858?prevSearch=%255BContrib%253A%2BChadwick%2BK%255D%2Band%2B%255BContrib%253A%2BChadwick%252C%2BKeith%255D&searchHistoryKey= 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. <em>Crystal Growth & Design</em> 12 2012: 1159-1166.</p>


<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 <em>Organic Process Research and Development</em> (2012).</li>
<p>13. [http://pubs.rsc.org/en/content/articlelanding/2012/ce/c1ce06358h#divAbstract Separation of Impurities from Active Pharmaceutical Ingredients by Selective Co-Crystal Formation.] Hsi, K., Chadwick, K., Fried A., Kenny, M., and Myerson, A. S. <em>CrystEngComm</em> 14 2012: 2386-2388.</p>


<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>
<p>12. 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 <em>Organic Process Research and Development</em> (2012).</p>


<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>
<p>11. 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).</p>


<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>
<p>10. 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). </p>


<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>
<p>9. 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).</p>


<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>
<p>8. 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).</p>


<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>
7. [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.</p>


<li>[http://pubs.acs.org/doi/abs/10.1021/cg9011235 Designing Acid/Acid Co-Crystals through the Application of Hammett Substituent Constants.] Seaton, C. C.; Chadwick, K.; Sadiq, G.; Guo, K.; Davey, R. J. <em>Crystal Growth & Design</em> 2010; 10; 726-733.</li>
<p>6. [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.</p>


<li>[http://pubs.acs.org/doi/abs/10.1021/op900123n?prevSearch=Crystallization%2Bfrom%2BWater-in-Oil%2BEmulsions%2BAs%2Ba%2BRoute%2Bto%2BSpherical%2BParticulates%253A%2BGlycine%2Band%2Bthe%2BHydrochloride%2BSalts%2Bof%2BGlutamic%2BAcid%2Band%2BEphedrine&searchHistoryKey= Crystallisation 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 <em>Organic Process Research & Development</em> 2009; 13; 1284-1290.</li>
<p>5. [http://pubs.acs.org/doi/abs/10.1021/cg9011235 Designing Acid/Acid Co-Crystals through the Application of Hammett Substituent Constants.] Seaton, C. C.; Chadwick, K.; Sadiq, G.; Guo, K.; Davey, R. J. <em>Crystal Growth & Design</em> 2010; 10; 726-733.</p>


<li>[http://pubs.rsc.org/en/content/articlelanding/2009/ce/b818268j#divAbstract 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. <em>CrystEngComm</em> 2009; 11; 412-414.</li>
<p>4. [http://pubs.acs.org/doi/abs/10.1021/op900123n?prevSearch=Crystallization%2Bfrom%2BWater-in-Oil%2BEmulsions%2BAs%2Ba%2BRoute%2Bto%2BSpherical%2BParticulates%253A%2BGlycine%2Band%2Bthe%2BHydrochloride%2BSalts%2Bof%2BGlutamic%2BAcid%2Band%2BEphedrine&searchHistoryKey= Crystallisation 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 <em>Organic Process Research & Development</em> 2009; 13; 1284-1290.</p>


<li>[http://pubs.acs.org/doi/abs/10.1021/cg8013078?prevSearch=Cocrystallization%253A%2BA%2BSolution%2BChemistry%2BPerspective%2Band%2Bthe%2BCase%2Bof%2BBenzophenone%2Band%2BDiphenylamine&searchHistoryKey= 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. <em>Crystal Growth & Design</em> 2009; 9; 1990-1999.</li>
<p>3. [http://pubs.rsc.org/en/content/articlelanding/2009/ce/b818268j#divAbstract 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. <em>CrystEngComm</em> 2009; 11; 412-414.</p>


<li>How does grinding produce co-crystals? Insights from the case of benzophenone and diphenylamine. Chadwick, K.; Davey, R.; Cross, W. <em>CrystEngComm</em> 2007; 9; 732-734.</li>
<p>2. [http://pubs.acs.org/doi/abs/10.1021/cg8013078?prevSearch=Cocrystallization%253A%2BA%2BSolution%2BChemistry%2BPerspective%2Band%2Bthe%2BCase%2Bof%2BBenzophenone%2Band%2BDiphenylamine&searchHistoryKey= 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. <em>Crystal Growth & Design</em> 2009; 9; 1990-1999.</p>
 
<p>1. How does grinding produce co-crystals? Insights from the case of benzophenone and diphenylamine. Chadwick, K.; Davey, R.; Cross, W. <em>CrystEngComm</em> 2007; 9; 732-734.</p>


{{Chadwick:end tool}}
{{Chadwick:end tool}}

Revision as of 06:38, 1 July 2014

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Recent Publications

http://www.ncbi.nlm.nih.gov/pubmed/?term=chadwick%2C+keith

    15. Templated Nucleation of Acetaminophen on Spherical Excipient Agglomerates. Quon J.L., Chadwick, K., Sheu I., Brettmann B. K., Myerson, A.S., Trout B.L. Langmuir 29 (10) 2013: 3292-3300.

    14. 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.

    13. 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.

    12. 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).

    11. 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).

    10. 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).

    9. 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).

    8. 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).

    7. 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.

    6. 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.

    5. 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.

    4. Crystallisation 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.

    3. 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.

    2. 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.

    1. 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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