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个人简介
Theory and Computation of Biological Processes and Complex Materials
The Spakowitz lab is engaged in projects that address fundamental chemical and physical phenomena underlying a range of biological processes and soft-material applications. Current research in our lab focuses on four main research themes: chromosomal organization and dynamics, protein self-assembly, polymer membranes, and charge transport in conducting polymers. These broad research areas offer complementary perspectives on chemical and physical processes, and we leverage this complementarity throughout our research. Our approach draws from a diverse range of theoretical and computational methods, including analytical theory of semiflexible polymers, polymer field theory, continuum elastic mechanics, Brownian dynamics simulation, equilibrium and dynamic Monte Carlo simulations, and analytical theory and numerical simulations of reaction-diffusion phenomena. A common thread in our work is the need to capture phenomena over many length and time scales, and our flexibility in research methodologies provides us with the critical tools to address these complex multidisciplinary problems.
The Spakowitz lab is engaged in projects that address fundamental chemical and physical phenomena underlying a range of biological processes and soft-material applications. Current research in our lab focuses on four main research themes: chromosomal organization and dynamics, protein self-assembly, polymer membranes, and charge transport in conducting polymers. These broad research areas offer complementary perspectives on chemical and physical processes, and we leverage this complementarity throughout our research. Our approach draws from a diverse range of theoretical and computational methods, including analytical theory of semiflexible polymers, polymer field theory, continuum elastic mechanics, Brownian dynamics simulation, equilibrium and dynamic Monte Carlo simulations, and analytical theory and numerical simulations of reaction-diffusion phenomena. A common thread in our work is the need to capture phenomena over many length and time scales, and our flexibility in research methodologies provides us with the critical tools to address these complex multidisciplinary problems.
研究兴趣
论文共 152 篇作者统计合作学者相似作者
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Ashesh Ghosh,Andrew J Spakowitz
Soft matter (2024)
MACROMOLECULESno. 5 (2024): 2505-2519
Joseph G Wakim,Andrew J Spakowitz
Proceedings of the National Academy of Sciences of the United States of Americano. 26 (2024): e2317911121-e2317911121
SOFT MATTERno. 8 (2024): 1694-1701
Pamela C Cai, Margaret Braunreuther,Audrey Shih,Andrew J Spakowitz,Gerald G Fuller,Sarah C Heilshorn
APL bioengineeringno. 2 (2024): 026112-026112
MACROMOLECULESno. 20 (2023): 8359-8368
Biophysical journalno. 17 (2023): 3532-3540
JCI insightno. 12 (2022)
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