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Evaluating Biocompatibility of Semiconductive Gallium Nitride, Flat and Nano-Structured Silicon Chips by Cell Viability, Adhesion and Growth

机译：通过细胞活力，粘附和生长评估半导体镓氮化镓，扁平和纳米结构硅芯片的生物相容性

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We show that two dominant semiconductors gallium nitride (GaN) and silicon nanorods (SiNR) exhibit excellent biocompatibility, the most important property in the research of bio-medical materials. The result of MTT assays indicates no cytotoxicity and the observation of cellular morphology further reveals outstanding adhesion and extension of L929 cells (mouse fibroblasts) in both the GaN and silicon substrates. Consequently, combining the advantages of semiconductors including controllable electric properties and mature fabrication with the demonstrated favorable biocompatibility, GaN and SiNR are promising materials for neuron bio-chips, medical devices and other bio-medical application.

机译：我们展示了两个主导的半导体镓氮化镓（GaN）和硅纳米棒（SINR）表现出优异的生物相容性，这是生物医学材料研究中最重要的性质。 MTT测定的结果表明，没有细胞毒性，并且细胞形态的观察进一步揭示了GaN和硅基材中L929细胞（小鼠成纤维细胞）的突出粘附和延伸。因此，将包括可控电性能和成熟制造的半导体的优点与所示的有利生物相容性，GaN和Sinr是神经元生物芯片，医疗装置和其他生物医学应用的有希望的材料。

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《International Nanoelectronics Conference》|2010年||共2页
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Yu-Ting Kang; Ta-Jen Yen;
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1. Method for integrating gallium nitride sensors on silicon chips awarded patent [J] . Jay Narayan, John C. Fan Advanced Ceramics Report . 2010,第Deca期

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2. Growth of gallium nitride on silicon by molecular beam epitaxy incorporating a chromium nitride interlayer [J] . Kuang-Wei Liu, Sheng-Joue Young, Shoou-Jinn Chang Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2012,第1期

机译：通过结合氮化铬中间层的分子束外延在硅上生长氮化镓
3. Effect of Low-Energy Ga Ion Implantation on Selective Growth of Gallium Nitride Layer on Silicon Nitride Surfaces Using Metal Organic Chemical Vapor Deposition [J] . Kazuya Isiizumi, Jun Kikkawa, Yoshiaki Nakamura, Japanese journal of applied physics . 2011,第6Issue2期

机译：金属有机化学气相沉积低能Ga离子注入对氮化硅表面氮化镓层选择性生长的影响
4. Evaluating biocompatibility of semiconductive gallium nitride, flat and nano-structured silicon chips by cell viability, adhesion and growth [C] . Yu-Ting Kang, Ta-Jen Yen Nanoelectronics Conference (INEC), 2010 . 2010

机译：通过细胞活力，附着力和生长评估半导体氮化镓，扁平和纳米结构硅芯片的生物相容性
5. Growth of gallium nitride and aluminum gallium nitride thin films using conventional and pendeo-expitaxial growth processes on hydrogen(6)-silicon carbide(0001) and silicon(111) substrates. [D] . Gehrke, Thomas. 2000

机译：使用常规和五极外延生长工艺在氢（6）-碳化硅（0001）和硅（111）衬底上生长氮化镓和氮化铝镓薄膜。
6. Controlling bottom-up rapid growth of single crystalline gallium nitride nanowires on silicon [O] . Ko-Li Wu, Yi Chou, Chang-Chou Su, -1

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7. Controlling bottom-up rapid growth of single crystalline gallium nitride nanowires on silicon [O] . Ko-Li Wu, Yi Chou, Chang-Chou Su, 2017

机译：控制硅上单晶镓氮化物纳米线的自下而上快速生长
8. Effect of Variation of Silicon Nitride Passivation Layer on Electron Irradiated Aluminum Gallium Nitride/Gallium Nitride HEMT Structures [R] . Jackson, H C 2014

机译：氮化硅钝化层变化对电子辐照氮化铝镓/氮化镓HEmT结构的影响

Evaluating Biocompatibility of Semiconductive Gallium Nitride, Flat and Nano-Structured Silicon Chips by Cell Viability, Adhesion and Growth

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