High Performance Core-shell Junction Field Effect Phototransistor by Molecular Monolayer Doping

机译：高性能核心 - 壳结场效应光电晶体由分子单层掺杂

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The state-of-art complementary metal-oxide-semiconductor (CMOS) technology requires highly sensitive photodetectors that are monolithically integrated. In this work, we demonstrate a high-performance core-shell junction field effect (JFET) phototransistors based on single silicon nanowires. The JFEF phototransistor is formed by doping a section of a highly doped p-type Si nanowire into n-type via self-assembled molecular monolayer doping. The p-type nanowire channel is pinched-off by the sectional doping, which suppresses the dark current and induces a large photogain. Experimental and simulation results show that the nanowire JFET photo-transistors possess a photoresponsivity of 10^{6 A/W.}

机译：最先进的互补金属氧化物 - 半导体（CMOS）技术需要微敏感的光电探测器，其单整体整合。在这项工作中，我们展示了基于单晶纳米线的高性能核心 - 壳结场效应（JFET）光电晶体管。通过自组装的分子单层掺杂将高度掺杂的P型Si纳米线掺杂将高度掺杂的P型Si纳米线的截面掺杂到N型，通过自组装的分子单层掺杂形成JFEF光电晶体管。 P型纳米线通道通过截面掺杂夹持，尺寸抑制暗电流并诱导大的光素。实验和仿真结果表明，纳米线JFET光电晶体管具有10的光响应性^{6 A / W.}

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《International Conference on Electron Devices and Solid-State Circuits》|2019年|845p|共3页
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Jiajing He; Huimin Wen; Yaping Dan;
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中图分类半导体集成电路（固体电路）;
关键词
CMOS integrated circuits; core-shell nanostructures; elemental semiconductors; junction gate field effect transistors; monolayers; nanowires; phototransistors; self-assembly; semiconductor doping; silicon;

机译：CMOS集成电路;核心壳纳米结构;元素半导体;结栅极场效应晶体管;单层;纳米线;光电晶体管;自组装;半导体掺杂;硅;

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专利

1. Silicon nanowire core-shell PN junction phototransistors by self-assembled monolayer doping [J] . Nanotechnology . 2020,第19期

机译：通过自组装单层掺杂硅纳米线芯壳PN结光电晶体管
2. Hg/Molecular Monolayer-Si Junctions: Electrical Interplay between Monolayer Properties and Semiconductor Doping Density [J] . Omer Yaffe, Luc Scheres, Lior Segev The journal of physical chemistry, C. Nanomaterials and interfaces . 2010,第22期

机译：汞/分子单层-硅结：单层性质与半导体掺杂密度之间的电相互作用
3. Shallow Si N + P junction diodes realized via molecular monolayer doping [J] . Tapriya Astha, Novak Brian, Williams Scott, Microelectronic Engineering . 2018,第JUNa期

机译：通过分子单层掺杂实现的浅Si N + P结二极管
4. High Performance Core-shell Junction Field Effect Phototransistor by Molecular Monolayer Doping [C] . Jiajing He, Huimin Wen, Yaping Dan International Conference on Electron Devices and Solid-State Circuits . 2019

机译：分子单层掺杂高性能核壳结场效应光电晶体管
5. Improving and Controlling Organic Field Effect Transistor Performance through Dual Solvent Processing and Molecular Doping. [D] . Belasco, James Robert. 2014

机译：通过双溶剂处理和分子掺杂改善和控制有机场效应晶体管的性能。
6. Enhancing Photovoltaic Performance of GaAs Single-Junction Solar Cells by Applying a Spectral Conversion Layer Containing Eu-Doped and Yb/Er-Doped Phosphors [O] . Wen-Jeng Ho, Jheng-Jie Liu, Zong-Xian Lin, 2019

机译：通过应用包含Eu掺杂和Yb / Er掺杂的磷光体的光谱转换层来增强GaAs单结太阳能电池的光伏性能
7. Hg/Molecular Monolayer-Si Junctions: Electrical Interplay between Monolayer Properties and Semiconductor Doping Density [O] . Omer Yaffe, Luc Scheres, Lior Segev, 2010

机译：汞/分子单层-硅结：单层性质与半导体掺杂密度之间的电相互作用
8. Lattice-Mismatched In(0.53)Ga(0.47)As/In(0.52)Al(0.48)As Modulation-Doped Field-Effect Transistors on GaAs: Molecular-Beam Epitaxial Growth and Device Performance [R] . Chang, K., Bhattacharya, P., Lai, R. 1990

机译：栅格不匹配的（0.53）Ga（0.47）as / In（0.52）al（0.48）作为Gaas上的调制掺杂场效应晶体管：分子束外延生长和器件性能

High Performance Core-shell Junction Field Effect Phototransistor by Molecular Monolayer Doping

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