Suppression of hot carriers by nanoporous silicon for improved operation of a solar cell

IF 3.9 4区 物理与天体物理 0 OPTICS
S. Ašmontas, L. Fedorenko, V. Vlasiuk, T. Gorbanyuk, V. Kostylyov, V. Lytovchenko, J. Gradauskas, A. Sužiedėlis, E. Sirmulis, O. Žalys, O. Masalskyi
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引用次数: 1

Abstract

. The surface of a silicon solar cell is modified to improve its photovoltaic characteristics. Nanostructured porous silicon layer is formed on a front n + -type surface of a p–n junction by means of electrochemical etching accompanied by illumination with a high-power light-emitting diode operating at the wavelength of 365 nm. Addition of the porous layer results in considerable increase in the capacitive photovoltage across the p–n junction. This increase is shown to be stipulated by reduced photonic losses due to anti-reflection coating effect of the porous layer, as well as by decreasing adverse effect of hot carriers on the photovoltage. Broadening of the spectrum of capacitive photovoltage towards the short-wavelength region was observed. This finding is associated with the graded-gap character of the porous layer and photovoltage formation across it as well as with increased absorption of high-energy photons in the porous layer and resulting weaker heating of free carriers.
纳米多孔硅抑制热载流子以改善太阳能电池的运行
。对硅太阳能电池的表面进行了改性,以改善其光伏特性。在365 nm波长的大功率发光二极管照射下,采用电化学刻蚀的方法在pn结的n +型表面形成纳米结构的多孔硅层。多孔层的添加导致p-n结上电容性光电压的显著增加。这种增加是由于多孔层的抗反射涂层作用减少了光子损失,以及热载流子对光电压的不利影响减少了。观察到电容光电压谱向短波区展宽。这一发现与多孔层的梯度间隙特性和在其上形成的光电压以及多孔层中高能光子的吸收增加和导致自由载流子的加热减弱有关。
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来源期刊
CiteScore
9.90
自引率
0.00%
发文量
20
审稿时长
>12 weeks
期刊介绍: “Ukrainian Journal of Physical Optics” contains original and review articles in the fields of crystal optics, piezo-, electro-, magneto- and acoustooptics, optical properties of solids and liquids in the course of phase transitions, nonlinear optics, holography, singular optics, laser physics, spectroscopy, biooptics, physical principles of operation of optoelectronic devices and systems, which need rapid publication. The journal was founded in 2000 by the Institute of Physical Optics of the Ministry of Education and Science of Ukraine.
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