Komunikasi Fisika Indonesia
Vol 19, No 2 (2022)

PEROVSKITE SOLAR CELLS YANG STABIL UDARA DAN EFISIEN MENGGUNAKAN NANOSTRUKTUR ZnO SEBAGAI ELEKTRON TRANSPORT MATERIAL

Herna Herna (UNIVERSITAS RIAU)
Farhan Lutfi (Universitas Riau)
Ebigail Nur Tabita Tambunan (Universitas Riau)
Yessi Meinarti (Universitas Riau)
Ari Sulistyo Rini (Universitas Riau)

Article Info

Publish Date
01 Aug 2022

Abstract

The latest generation of photovoltaic cells are perovskite-based solar cells that can be fabricated through a simple and affordable process using high-efficiency solar power. This review also present zinc oxide (ZnO) adopted as an electron transport material (ETM) layer in the planar perovskitesolar cells due to its simple shynthesis and excellent electrical properties. ZnO ETM in conventional perovskite. Doping Aluminium (Al) with ZnO (AZO) was used the organic cation (CH3NH+3) of perovskite. The AZO ETM  was prepared by spin coating technique with AZO sol-gel   0, 0.5, 1, 1.5, 2, 2.5 and 3% Al doping. The perovskite solar cells with AZO ETM above 1.5% Al doping exhibits better and stable the performance cells because doing so can encourage the charge transporting and match the band energy with MAPl3 compared to pure ZnO.

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Journal Info
Komunikasi Fisika Indonesia
Website

Abbrev

JKFI

Publisher

Universitas Riau

Subject

Earth & Planetary Sciences Electrical & Electronics Engineering Energy Materials Science & Nanotechnology Physics

Description

KFI mempublikasikan artikel hasil penelitian dan review pada bidang fisika, namun tidak terbatas, yang meliputi fisika murni, geofisika, plasma, optik dan fotonik, instrumentasi, dan elektronika, dan fisika terapan (aplikasi ...