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A Polymer/Carbon‐Nanotube Ink as a Boron‐Dopant/Inorganic‐Passivation Free Carrier Selective Contact for Silicon Solar Cells with over 21% Efficiency

Jianhui Chen, Lu Wan, Han Li, Jun Yan, Jikui Ma, Biao Sun, Feng Li, Benjamin S. Flavel

2020Advanced Functional Materials47 citationsDOIOpen Access PDF

Abstract

Abstract Traditional silicon solar cells extract holes and achieve interface passivation with the use of a boron dopant and dielectric thin films such as silicon oxide or hydrogenated amorphous silicon. Without these two key components, few technologies have realized power conversion efficiencies above 20%. Here, a carbon nanotube ink is spin coated directly onto a silicon wafer to serve simultaneously as a hole extraction layer, but also to passivate interfacial defects. This enables a low‐cost fabrication process that is absent of vacuum equipment and high‐temperatures. Power conversion efficiencies of 21.4% on an device area of 4.8 cm 2 and 20% on an industrial size (245.71 cm 2 ) wafer are obtained. Additionally, the high quality of this passivated carrier selective contact affords a fill factor of 82%, which is a record for silicon solar cells with dopant‐free contacts. The combination of low‐dimensional materials with an organic passivation is a new strategy to high performance photovoltaics.

Topics & Concepts

Materials sciencePassivationDopantWaferSiliconAmorphous siliconBoronPhotovoltaicsOptoelectronicsNanotechnologySolar cellCrystalline siliconLayer (electronics)Photovoltaic systemDopingElectrical engineeringOrganic chemistryChemistryEngineeringSilicon and Solar Cell TechnologiesNanowire Synthesis and ApplicationsThin-Film Transistor Technologies