Design and simulation of GaN based Schottky betavoltaic nuclear micro-battery

SanH.; YaoS.; WangX.; ChengZ.; ChenX.

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Design and simulation of GaN based Schottky betavoltaic nuclear micro-battery

机译：GaN基肖特基β伏特核微电池的设计与仿真

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The current paper presents a theoretical analysis of Ni-63 nuclear micro-battery based on a wide-band gap semiconductor GaN thin-film covered with thin Ni/Au films to form Schottky barrier for carrier separation. The total energy deposition in GaN was calculated using Monte Carlo methods by taking into account the full beta spectral energy, which provided an optimal design on Schottky barrier width. The calculated results show that an 8μm thick Schottky barrier can collect about 95% of the incident beta particle energy. Considering the actual limitations of current GaN growth technique, a Fe-doped compensation technique by MOCVD method can be used to realize the n-type GaN with a carrier concentration of 1×1015cm-3, by which a GaN based Schottky betavoltaic micro-battery can achieve an energy conversion efficiency of 2.25% based on the theoretical calculations of semiconductor device physics.

机译：本文介绍了一种基于宽带隙半导体GaN薄膜的Ni-63核微电池的理论分析，该薄膜覆盖有薄的Ni / Au薄膜以形成用于载流子分离的肖特基势垒。考虑到完整的β光谱能量，使用Monte Carlo方法计算了GaN中的总能量沉积，从而为肖特基势垒宽度提供了最佳设计。计算结果表明，厚度为8μm的肖特基势垒可以收集约95％的入射β粒子能量。考虑到当前GaN生长技术的实际局限性，可以采用MOCVD法掺铁补偿技术，以实现载流子浓度为1×1015cm-3的n型GaN，从而形成基于GaN的肖特基betavoltaic微电池根据半导体器件物理学的理论计算，可以实现2.25％的能量转换效率。

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《Applied radiation and isotopes: including data, instrumentation and methods for use in agriculture, industry and medicine》 |2013年第null期|共6页
作者
SanH.; YaoS.; WangX.; ChengZ.; ChenX.;
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正文语种 eng
中图分类原子核物理学、高能物理学;
关键词
Betavoltaic nuclear micro-battery; GaN; Monte Carlo simulation; Ni-63; Schottky barrier;

机译：贝塔伏特核微电池GaN蒙特卡罗模拟Ni-63肖特基势垒;

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1. Design and simulation of GaN based Schottky betavoltaic nuclear micro-battery [J] . SanH., YaoS., WangX., Applied radiation and isotopes: including data, instrumentation and methods for use in agriculture, industry and medicine . 2013,第Null期

机译：GaN基肖特基β伏特核微电池的设计与仿真
2. Comparative study of GaN betavoltaic battery based on p-n junction and Schottky barrier diode [J] . Zheng Renzhou, Lu Jingbin, Liu Yumin, Radiation Physics and Chemistry . 2020,第期

机译：基于P-N结和肖特基势垒二极管的GaN BetaVoltiC电池的比较研究
3. Betavoltaic nuclear microbattery based on Graphene/Si Schottky junction [J] . Xiaoyu Wang, Weiping Liu, Jiachen Zhang, Transactions of the American nuclear society . 2020,第Juna期

机译：基于石墨烯/ Si肖特基交界处的BetaVoltaic核微型解放
4. The design optimization for GaN-based betavoltaic microbattery [C] . Cheng Zaijun, San Haisheng, Li Yanfei, Proceedings of the 2010 5th IEEE International Conference on Nano/Micro Engineered and Molecular Systems . 2010

机译：GaN基β伏特微电池的设计优化
5. Modeling and Design of GaN High Electron Mobility Transistors and Hot Electron Transistors through Monte Carlo Particle-based Device Simulations. [D] . Soligo, Riccardo. 2016

机译：通过基于Monte Carlo粒子的器件仿真对GaN高电子迁移率晶体管和热电子晶体管进行建模和设计。
6. Current Transport Mechanism in Palladium Schottky Contact on Si-Based Freestanding GaN [O] . Moonsang Lee, Chang Wan Ahn, Thi Kim Oanh Vu, 2020

机译：硅基氮化镓上钯肖特基接触中的电流传输机制
7. Design and simulation of high conversion efficiency betavoltaic battery based on a stacked multilayer structure [O] . Meng Wu, Jinwen Zhang 2019

机译：基于堆叠多层结构的高转换效率贝载电池的设计与仿真
8. Modeling and Simulation of a Gallium Nitride (GaN) Betavoltaic Energy Converter. [R] . Ray, W. I. B., Litz, M. S., Russo, J. A. 2016

机译：氮化镓（GaN）Betote pV能量转换器的建模与仿真。

Design and simulation of GaN based Schottky betavoltaic nuclear micro-battery

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