The role of intervalley phonons in hot carrier transfer and extraction in type-ll InAs/ AlAsSb quantum-well solar cells

Whiteside V. R.; Esmaielpour H.; Mishima T. D.; Dorman K. R.; Santos M. B.; Ferry D. K.; Sellers I. R.

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The role of intervalley phonons in hot carrier transfer and extraction in type-ll InAs/ AlAsSb quantum-well solar cells

机译：区间间隔声子在II型InAs / AlAsSb量子阱太阳能电池中热载流子转移和提取中的作用

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Simultaneous continuous wave (CW) photoluminescence and monochromatic current densityvoltage (J-V) measurements of InAs/AlAsSb QW p-i-n diodes reveal stable hot carriers observed at relatively low power (nearly independent of power). This behavior is attributed to preferential scattering of high energy carriers to the upper satellite L- and X-valleys, which inhibits carrier thermalization via LO phonon emission. Although both high electric field and optical excitation are shown to enable stable hot carrier generation in the quantum wells (QWs), the extraction of these carriers is inhibited by the mismatch in valley degeneracy (L to Gamma) across the InAs QW-AlInAs layers resulting in carrier localization in the QWs in the operating regime of the solar cell.

机译：InAs / AlAsSb QW p-i-n二极管的同时连续波（CW）光致发光和单色电流密度电压（J-V）测量显示，在相对较低的功率（几乎与功率无关）下观察到稳定的热载流子。此行为归因于高能载流子优先散射到上卫星L和X谷，这会抑制通过LO声子发射引起的载流子热化。尽管显示出高电场和光激发都能在量子阱（QW）中稳定地生成热载流子，但这些载流子的提取受到整个InAs QW / n-AlInAs谷值简并失配（从L到Gamma）的抑制。层导致在太阳能电池工作状态下量子阱中的载流子定位。

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来源
《Semiconductor science and technology 》 |2019年第9期| 094001.1-094001.9| 共9页
作者
Whiteside V. R.; Esmaielpour H.; Mishima T. D.; Dorman K. R.; Santos M. B.; Ferry D. K.; Sellers I. R.;
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作者单位

Univ Oklahoma Dept Phys & Astron Norman OK 73019 USA;

Univ Oklahoma Dept Phys & Astron Norman OK 73019 USA|Ile de France Photovolta Inst IPVF IPVF Ile De France France;

Arizona State Univ Sch Elect Comp & Energy Engn Tempe AZ 85281 USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类
关键词
hot carriers; type-II band alignment; 1-valley; x-valley; photovoltaic;

机译：热载体;II型谱带对准;1谷X谷光伏的;

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1. Suppression of phonon-mediated hot carrier relaxation in type-II InAs/AlAsxSb1-x quantum wells: a practical route to hot carrier solar cells [J] . Esmaielpour Hamidreza, Whiteside Vincent R., Tang Jinfeng, Progress in photovoltaics . 2016 ,第5期

机译：II型InAs / AlAsxSb1-x量子阱中声子介导的热载流子弛豫的抑制：热载流子太阳能电池的实用途径
2. Carrier heating and its effects on the current-voltage relations of conventional and hot-carrier solar cells: A physical model incorporating energy transfer between carriers, photons, and phonons [J] . Tsai Chin-Yi Solar Energy . 2019 ,第AUGa期

机译：载热及其对常规和热载太阳能电池电流-电压关系的影响：一个物理模型，其中包含了载流子，光子和声子之间的能量转移
3. Carrier heating and its effects on the current-voltage relations of conventional and hot-carrier solar cells: A physical model incorporating energy transfer between carriers, photons, and phonons [J] . Tsai Chin-Yi Solar Energy . 2019 ,第Auga期

机译：载体加热及其对传统和热载波太阳能电池电流关系的影响：一种包含载流子，光子和声子的能量转移的物理模型
4. Explore the Intervalley Scattering on Phonon Bottleneck Effect and Its Application on Hot Carrier Solar Cells [C] . Yi Zhang, Jing Huang, Liangliang Tang, IEEE PES Asia-Pacific Power and Energy Engineering Conference . 2020

机译：探索声子瓶颈效应的间隔散射及其在热载流子太阳能电池中的应用
5. Optical and Mechanical Investigation of InAs /GaAs Quantum Dots Solar Cells and InAs Nanowires for the Application of Photovoltaic Device. [D] . Dai, Yushuai. 2013

机译：InAs / GaAs量子点太阳能电池和InAs纳米线在光伏器件中的应用的光学和机械研究。
6. Photo-generated carriers lose energy during extraction from polymer-fullerene solar cells [O] . Armantas Melianas, Fabian Etzold, Tom J. Savenije, -1

机译：从聚合物富勒烯太阳能电池中提取时光生载流子会失去能量
7. Suppression of phonon-mediated hot carrier relaxation in type-II InAs/AlAs$_{x}$Sb$_{1-x}$ quantum wells: a practical route to hot carrier solar cells [O] . Esmaielpour, H., Whiteside, V. R., Tang, J., 2015

机译：在II型中抑制声子介导的热载体松弛 Inas / alas $ _ {x} $ sb $ _ {1-x} $量子阱：通往热载体的实用路径太阳能电池

The role of intervalley phonons in hot carrier transfer and extraction in type-ll InAs/ AlAsSb quantum-well solar cells

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