Vamsi K. Yadavalli, Ph.D.
Affiliations: | 2004 | Pennsylvania State University, State College, PA, United States |
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Chemical EngineeringGoogle:
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Parents
Sign in to add mentorMichael Vincent Pishko | grad student | 2004 | Penn State | |
(Towards the design and fabrication of miniaturized systems for optical biosensing.) |
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Publications
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Olsen A, Miller M, Yadavalli VK, et al. (2020) Open source software tool for the automated detection and characterization of epithelial cells from trace biological samples. Forensic Science International. 312: 110300 |
Jiang Y, Xu M, Yadavalli VK. (2019) Silk Fibroin-Sheathed Conducting Polymer Wires as Organic Connectors for Biosensors. Biosensors. 9 |
Pradhan S, Moore KM, Ainslie KM, et al. (2019) Flexible, microstructured surfaces using chitin-derived biopolymers. Journal of Materials Chemistry. B |
Xu M, Yadavalli VK. (2019) Flexible biosensors for the impedimetric detection of protein targets using silk-conductive polymer biocomposites. Acs Sensors |
Xu M, Jiang Y, Pradhan S, et al. (2019) Use of Silk Proteins to Form Organic, Flexible, Degradable Biosensors for Metabolite Monitoring Frontiers in Materials. 6 |
Bucciarelli A, Chiera S, Quaranta A, et al. (2019) A Thermal‐Reflow‐Based Low‐Temperature, High‐Pressure Sintering of Lyophilized Silk Fibroin for the Fast Fabrication of Biosubstrates Advanced Functional Materials. 29: 1901134 |
Xu M, Obodo D, Yadavalli VK. (2018) The design, fabrication, and applications of flexible biosensing devices. Biosensors & Bioelectronics. 124: 96-114 |
Pal RK, Yadavalli VK. (2018) Silk protein nanowires patterned using electron beam lithography. Nanotechnology |
Kundu B, Eltohamy MR, Yadavalli VK, et al. (2018) Template mediated protein self-assembly as a valuable tool in regenerative therapy. Biomedical Materials (Bristol, England) |
Pal R, Kundu SC, Yadavalli VK. (2018) Fabrication of flexible, fully organic, degradable energy storage devices using silk proteins. Acs Applied Materials & Interfaces |