Results 201 to 210 of about 2,025,180 (241)
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Eliminating Tip Dendrite Growth by Lorentz Force for Stable Lithium Metal Anodes
Advanced Functional Materials, 2019Lithium metal anodes are deemed as the “Holy Grail” for next generation high energy density batteries, due to the reported highest specific capacity (3860 mAh g−1) and the lowest negative electrochemical potential (−3.04 V vs the standard hydrogen ...
Aoxuan Wang +4 more
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Metallurgical and Materials Transactions B, 2011
A mathematical model of interdendritic thermometallurgical strain (ITM) generated during dendritic solidification of steel alloys has been developed. The model consists of two main parts in which the first part represents the derivation of ITM strain based on the concept of thermal storage energy.
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A mathematical model of interdendritic thermometallurgical strain (ITM) generated during dendritic solidification of steel alloys has been developed. The model consists of two main parts in which the first part represents the derivation of ITM strain based on the concept of thermal storage energy.
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Atomic-scale simulations for lithium dendrite growth driven by strain gradient
Applied Mathematics and Mechanics, 2020Gao Xu, Feng Hao, Jiawang Hong, D. Fang
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Journal of Biological Systems, 2018
To develop an anticancer drug, the mathematical models are nowadays indispensable because of complex immunological mechanisms defying with high experimentation costs as well as a large number of parameters. Based on immunological theories and vision of experimentation data, a simple and sufficient compartment model is designed that can accurately ...
ABAZAR ARABAMERI +2 more
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To develop an anticancer drug, the mathematical models are nowadays indispensable because of complex immunological mechanisms defying with high experimentation costs as well as a large number of parameters. Based on immunological theories and vision of experimentation data, a simple and sufficient compartment model is designed that can accurately ...
ABAZAR ARABAMERI +2 more
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Mathematical modelling of dendritic complexity mechanism in Alzheimer’s disease
AIP Conference Proceedings, 2023Rashmi Kumari +2 more
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Kybernetik, 1972
A mathematical model of a neuron was developed to investigate the effects of various spatio-temporal patterns of miniature dendritic input potentials on neuronal somatic potentials. The model treats spatio-temporal dendritic activation patterns as the input or forcing function in the non-homogeneous cable equation.
G M, Barnwell, B J, Cerimele
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A mathematical model of a neuron was developed to investigate the effects of various spatio-temporal patterns of miniature dendritic input potentials on neuronal somatic potentials. The model treats spatio-temporal dendritic activation patterns as the input or forcing function in the non-homogeneous cable equation.
G M, Barnwell, B J, Cerimele
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Diffusion of Protein Receptors on a Cylindrical Dendritic Membrane with Partially Absorbing Traps
SIAM Journal on Applied Mathematics, 2008P. Bressloff +2 more
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Searching neural network structures with L systems and genetic algorithms
International Journal of Computational Mathematics, 1999Isto Aho +4 more
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Crystalline Saffman-Taylor Fingers
SIAM Journal on Applied Mathematics, 1995R. Almgren
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Towards a Mathematical Theory of DS Computation in SAC Dendrites
In this presentation, the authors begin with a discussion of dendritic Direction Selectivity (DS) based on a paper by Koren et. al. and then move on to suggesting the possibility of a mathematical theory of direction selectivity.openaire +1 more source