Protein-Based Multi-Bit Biomemory Device Consisting of Various Metalloproteins on Self-Assembled 11-MUA Layer

Taek Lee; Junhong Min; Jin-Ho Lee; Jeong-Woo Choi

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Protein-Based Multi-Bit Biomemory Device Consisting of Various Metalloproteins on Self-Assembled 11-MUA Layer

机译：在自组装的11-MUA层上由各种金属蛋白组成的基于蛋白质的多位生物存储设备

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A multi-bit biomemory device was devised by introducing 4 different metalloproteins (azurin, cytochrome c, ferredoxin, myoglobin) to an electronic device using 11-MUA (11-mercaptoundecanoic acid) as the chemical linker. The immobilization of the 4 different self-assembled protein layers on a Au substrate via 11-MUA were confirmed by Raman spectroscopy and atomic force microscopy (AFM). The redox properties of these 4 different protein layers immobilized onto Au surface were assessed by cyclic voltammetry (CV). In addition, their memory functions were verified by chronoamperometry (CA). Based on these results, we demonstrated that a multi-bit biomemory concept could be realized using various metalloproteins as active materials.

机译：通过使用11-MUA（11-巯基癸酸）作为化学接头，将4种不同的金属蛋白（天青素，细胞色素c，铁氧还蛋白，肌红蛋白）引入电子设备，从而设计出一种多位生物内存设备。通过拉曼光谱和原子力显微镜（AFM）证实了通过11-MUA将4个不同的自组装蛋白层固定在Au基底上。通过循环伏安法（CV）评估了固定在Au表面上的这4种不同蛋白质层的氧化还原特性。此外，它们的记忆功能已通过计时电流法（CA）进行了验证。基于这些结果，我们证明了使用多种金属蛋白作为活性材料可以实现多位生物记忆概念。

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《Journal of nanoscience and nanotechnology》 |2011年第1期|共5页
作者
Taek Lee; Junhong Min; Jin-Ho Lee; Jeong-Woo Choi;
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正文语种 eng
中图分类特种结构材料;
关键词
Biomemory; Atomic Force Microscopy; Cyclic Voltammetry; Nanobiochip;

机译：生物内存;原子力显微镜;循环伏安法;纳米生物芯片;

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1. Protein-Based Multi-Bit Biomemory Device Consisting of Various Metalloproteins on Self-Assembled 11-MUA Layer [J] . Taek Lee, Junhong Min, Jin-Ho Lee, Journal of nanoscience and nanotechnology . 2011,第1期

机译：在自组装的11-MUA层上由各种金属蛋白组成的基于蛋白质的多位生物存储设备
2. Protein-based biomemory device consisting of the cysteine-modified azurin [J] . Jeong-Woo Choi, Byung-Keun Oh, Young Jun Kim, Applied Physics Letters . 2007,第26期

机译：基于蛋白质的生物记忆设备，由半胱氨酸修饰的天青蛋白组成
3. Analysis of nanoscale protein film consisting of lactoferrin/11-MUA bilayers for bioelectronic device [J] . Chen Q., Lee T., Kumar A.Y., Journal of biomedical nanotechnology . 2013,第5期

机译：用于生物电子设备的由乳铁蛋白/ 11-MUA双层组成的纳米级蛋白质膜的分析
4. SURFACE DENSITY CONTROL OF THE SELF-ASSEMBLED METALLOPROTEIN MONOLAYERS ON METAL SUBSTRATES [C] . Sun Hailian, rnLiu Yongzhi, rnDing Haijun, Frontiers on Separation Science and Technology . 2004

机译：金属基底上自组装金属蛋白单分子膜的表面密度控制
5. Scanning tunneling microscopy studies of growth medium & temperature dependent structural phases of alkanethiol self-assembled monolayers, reactive self-assembled monolayers, & flat gold nanoparticle/indium tin oxide substrates and a scanning surface photovoltage microscopy study for local mechanical stress characterization in complementary metal oxide semiconductor devices. [D] . Dahanayaka, Dahanayaka Liyanage Daminda Hemal. 2010

机译：烷烃硫醇自组装单分子层，反应性自组装单分子层，扁平金纳米颗粒/铟锡氧化物基质的生长介质和温度依赖性结构相的扫描隧道显微镜研究，以及互补金属氧化物中局部机械应力表征的扫描表面光电压显微镜研究半导体器件。
6. Multi-Bit Biomemory Based on Chitosan: Graphene Oxide Nanocomposite with Wrinkled Surface [O] . Lei Li, Guangming Li 2020

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7. Multi-Bit Biomemory Based on Chitosan: Graphene Oxide Nanocomposite with Wrinkled Surface [O] . Lei Li, Guangming Li 2020

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8. Ionic Self-Assembled Monolayer (ISAM) Nonlinear Optical Thin Films and Devices [R] . Miller, M. B. 1998

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Protein-Based Multi-Bit Biomemory Device Consisting of Various Metalloproteins on Self-Assembled 11-MUA Layer

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