Paul D. Calvert
Affiliations: | 1988 | Sussex University, Falmer, England, United Kingdom | |
| 1988- | Materials Science and Engineering | University of Arizona, Tucson, AZ |
Area:
Materials Science Engineering, Electronics and Electrical EngineeringWebsite:
https://archive.catalog.arizona.edu/faculty/984/msex.html#:~:text=Calvert%2C%20Paul%20D%20(1988)%20Professor%2C%20Materials%20Science%3B%20BA%2C%201967%2C%20Cambridge%20University%3B%20PHD%2C%201971%2C%20Massachusetts%20Institute%20of%20TechnologyGoogle:
""Paul Davidson Calvert Arizona""Bio:
Paul Calvert received his BA degree in materials science from Christs College, Cambridge, in 1967 and an unearned MA in 1971. That same year he received his PhD degree in materials engineering, with a thesis on polymer crystallization, from the Massachusetts Institute of Technology. From 1972 to 1988, Calvert was a lecturer in polymer science at Sussex University and afterward came to the University of Arizona, where he recently became a full professor.
DOI: 10.1002/pol.1972.160100916
https://books.google.com/books?id=Ky0aAQAAMAAJ
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Parents
Sign in to add mentor| Donald R. Uhlmann | grad student | 1971 | MIT (Chemistry Tree) | |
| (Crystallization of Organic Polymers) | ||||
Children
Sign in to add trainee| Chad W. Souvignier | grad student | 2000 | University of Arizona |
| Sridhar Kasichainula | grad student | 2001 | University of Arizona |
| Hugh B. Denham | grad student | 2002 | University of Arizona |
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Publications
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| Mishra S, Scarano FJ, Calvert P. (2015) Rapid prototyping of three-dimensional nanocomposite hydrogel constructs: Effect of silica nanofiller on swelling and solute release behaviors of the nanocomposite hydrogels. Journal of Biomedical Materials Research. Part A |
| Calvert P, Panhuis Mih, Spinks G, et al. (2014) Strong tough gels for 3D tissue constructs Mrs Proceedings. 1622: 1-5 |
| Agrawal A, Rahbar N, Calvert PD. (2013) Strong fiber-reinforced hydrogel. Acta Biomaterialia. 9: 5313-8 |
| Calvert P, Limem S, McCallum D, et al. (2012) Self-assembled gels from biological and synthetic polyelectrolytes Materials Research Society Symposium Proceedings. 1418: 51-56 |
| Calvert P, Agrawal A, Rahbar N, et al. (2012) Tough, Strong Hydrogels with Elastomeric Fiber Reinforcement. Mrs Proceedings. 1420 |
| Hu B, Li D, Manandharm P, et al. (2012) CNT/conducting polymer composite conductors impart high flexibility to textile electroluminescent devices J. Mater. Chem.. 22: 1598-1605 |
| Limem S, McCallum D, Wallace GG, et al. (2011) Inkjet printing of self-assembling polyelectrolyte hydrogels Soft Matter. 7: 3818-3826 |
| Hu B, Li D, Ala O, et al. (2011) Textile-based flexible electroluminescent devices Advanced Functional Materials. 21: 305-311 |
| Tellis BC, Szivek JA, Bliss CL, et al. (2009) Trabecular scaffolds created using micro CT guided fused deposition modeling. Materials Science & Engineering. C, Materials For Biological Applications. 28: 171-178 |
| Limem S, Li D, Iyengar S, et al. (2009) Multi-Material Inkjet Printing of Self-Assembling and Reacting Coatings Journal of Macromolecular Science, Part A. 46: 1205-1212 |