Charge transport through a neural network of DNA nanocomposites

A Bandyopadhyay; A K Ray; A K Sharma

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Charge transport through a neural network of DNA nanocomposites

机译：通过DNA纳米复合材料的神经网络进行电荷传输

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Interconnecting networks are fabricated by using calf-thymus DNA sodium salt and elementary DNA base adenine. Calf-thymus DNA sodium salt forms a complex wire-like network with poly(allylamine hydrochloride) which is a weak polyelectrolyte. The interconnection is formed by electrostatic forces during self-assembly. Adenine base and zinc oxide (ZnO) form a neural network, the conformation of which depends on the molar ratio of the two ingredients. Electrical measurements show that the formation of a calf-thymus and polyallylamine hydrochloride suprastructure may lead to a selective charge transfer network while the adenine-based network offers additional processing capability.

机译：互连网络是通过使用小牛胸腺DNA钠盐和基本DNA碱基腺嘌呤制成的。小牛胸腺DNA钠盐与聚（烯丙胺盐酸盐）形成复杂的线状网络，后者是一种弱聚电解质。互连是在自组装过程中通过静电力形成的。腺嘌呤碱和氧化锌（ZnO）形成神经网络，其构象取决于两种成分的摩尔比。电学测量表明，小牛胸腺和聚烯丙胺盐酸盐超结构的形成可能导致选择性电荷转移网络，而基于腺嘌呤的网络提供了额外的处理能力。

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《Nanotechnology》 |2006年第1期|共5页
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A Bandyopadhyay; A K Ray; A K Sharma;
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正文语种 eng
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1. Charge transport through a neural network of DNA nanocomposites [J] . A Bandyopadhyay, A K Ray, A K Sharma Nanotechnology . 2006,第1期

机译：通过DNA纳米复合材料的神经网络进行电荷传输
2. Oxidation of p53 through DNA Charge Transport Involves a Network of Disulfides within the DNA-Binding Domain [J] . Schaefer Kathryn N., Geil Wendy M., Sweredoski Michael J., Biochemistry . 2015,第3期

机译：通过DNA电荷运输氧化p53涉及DNA结合域内的二硫键网络
3. Nanoscale charge transport in cytochrome c(3)/DNA network: Comparative studies between redox-active molecules [J] . Yamaguchi Harumasa, Che Dock-Chil, Hirano Yoshiaki, Japanese journal of applied physics . 2015,第9期

机译：细胞色素c（3）/ DNA网络中的纳米电荷传输：氧化还原活性分子之间的比较研究。
4. Electric field-dependent charge transport in a poly(dA)-(dT)DNA molecule: localization length study [C] . F Rahmani, E Yudiarsah International Symposium on Current Progress in Functional Materials . 2019

机译：聚（DA） - （DT）DNA分子中的电场依赖电荷传输：定位长度研究
5. Kinetics of charge transport through self-assembled DNA monolayers: Influence of DNA defects and applications for biosensing. [D] . McWilliams, Marc Allen. 2015

机译：电荷通过自组装DNA单层传输的动力学：DNA缺陷的影响和在生物传感中的应用。
6. Oxidation of p53 through DNA Charge Transport Involvesa Network of Disulfides within the DNA-Binding Domain [O] . KathrynN. Schaefer, Wendy M. Geil, Michael J. Sweredoski, -1

机译：通过DNA电荷运输氧化p53DNA结合域内的二硫键网络
7. Oxidation of p53 through DNA Charge Transport Involves a Network of Disulfides within the DNA-Binding Domain [O] . Schaefer Kathryn N., Geil Wendy M., Sweredoski Michael J., 2015

机译：通过DNA电荷运输氧化p53涉及DNA结合域内的二硫键网络
8. Using Artificial Neural Networks to Identify Unexploded Ordnance [R] . May, J. A. 1997

机译：利用人工神经网络识别未爆炸弹药

Charge transport through a neural network of DNA nanocomposites

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