مرکز منطقه ای اطلاع رساني علوم و فناوري - Investigations on Al<inline-formula> <img src="/images/tex/19252.gif" alt="_{bm x}"> </inline-formula>Ga<inline-formula> <img src="/images/tex/19251.gif" alt="_{bm {1-x}}"> </inline-formula>As Solar Cells Grown by MOVPE

DocumentCode :

48666

Title :

Investigations on Al $_{bm x}$ Ga $_{bm {1-x}}$ As Solar Cells Grown by MOVPE

Author :

Heckelmann, Stefan ; Lackner, David ; Karcher, Christian ; Dimroth, Frank ; Bett, Andreas W.

Author_Institution :

Fraunhofer Inst. for Solar Energy Syst., Freiburg, Germany

Volume :

Issue :

fYear :

2015

fDate :

Jan. 2015

Firstpage :

446

Lastpage :

453

Abstract :

Solar cells based on Al_xGa_1-xAs in its direct bandgap range were fabricated and analyzed. We show that state-of-the-art metalorganic vapor phase epitaxy systems and precursors are capable of growing Al_xGa_1-xAs solar cells with defect concentrations up to 1 × 10¹⁴ cm^-3 and less determined by deep level transient spectroscopy. However, for the n-doped material, inevitable DX-centers exist. These dopant-related defects limit the performance of the investigated Al_xGa_1-xAs solar cells with x ≥ 0.20. To overcome this issue, the n-doped Al_xGa_1-xAs As emitter can be replaced by an n-doped Ga_0.51In_0.49P heteroemitter. This heterojunction solar cell again shows overall defect concentrations below 1 × 10¹⁴ cm^-3 and significantly improved cell characteristics.

Keywords :

III-V semiconductors; MOCVD; aluminium compounds; deep level transient spectroscopy; defect states; gallium arsenide; gallium compounds; indium compounds; p-n heterojunctions; semiconductor epitaxial layers; solar cells; vapour phase epitaxial growth; Al_xGa_1-xAs-Ga_0.51In_0.49P; MOVPE; deep level transient spectroscopy; defect concentration; direct bandgap range; dopant-related defects; heterojunction solar cell; metalorganic vapor phase epitaxy systems; n-doped heteroemitter; n-doped material; solar cells; Gallium arsenide; Heterojunctions; Photonic band gap; Photovoltaic cells; Temperature measurement; Transient analysis; Heterojunctions; III-V and concentrator PV; III-V multijunction solar cell design; III-V multijunction solar cells; III-V semiconductor materials; photovoltaic cells; semiconductor impurities;

fLanguage :

English

Journal_Title :

Photovoltaics, IEEE Journal of

Publisher :

ieee

ISSN :

2156-3381

Type :

jour

DOI :

10.1109/JPHOTOV.2014.2367869

Filename :

6963265

Link To Document :

https://search.ricest.ac.ir/dl/search/defaultta.aspx?DTC=49&DC=48666