Facile Construction of a Laser Scanning Optical Beam Induced Current Microscope

Buragohain, Ankita; Kakoty, Nayan M.; Zhuo, Guan-Yu; Ahmed, Gazi A.; Kao, Fu-Jen; Mazumder, Nirmal; Gogoi, Ankur

doi:10.1109/jphot.2024.3349930

IEEE Photonics J.

2024

DOI: 10.1109/jphot.2024.3349930

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Facile Construction of a Laser Scanning Optical Beam Induced Current Microscope

Ankita Buragohain,

Nayan M. Kakoty,

Guan-Yu Zhuo

et al.

Abstract: We report on the design and construction of a laser scanning optical beam-induced current (OBIC) microscope by assembling cost-effective commercial optical and electronic hardware components and developing data acquisition and control software in LabVIEW. A preliminary OBIC image of a Si photodetector acquired by the developed microscope is presented to demonstrate its operational capability. The versatility of the design will allow for the construction of other scanning microscope modalities on the same platf… Show more

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2024

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Long‐Range Charge Carrier Transport in Planar Polymer Bulk‐Heterojunction Photovoltaic Cells

AlTal,

Gao

2024

Physica Rapid Research Ltrs

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One‐dimensional scanning optical beam induced current (OBIC) measurements have been carried out on polymer bulk heterojunction (BHJ) photovoltaic cells with a planar, or lateral configuration. The planar P3HT:PCBM cells have parallel aluminum or gold electrodes that are 390 to 560 micrometers apart. When a focused laser beam is scanned across the electrode gap, photocurrent or photovoltage are recorded as a function of beam position along with the transmission of the excitation beam. Despite the large electrode gap size, cells with symmetric Al/Al electrodes exhibit significant photocurrent and photovoltage which are the highest at the electrode interfaces and null at the cell center. The OBIC in these large planar polymer BHJ cells is attributed to the metal/BHJ blend Schottky junction. The larger Schottky barrier of the Al/BHJ junction gives rise to a stronger OBIC response than the Au/BHJ junction. The photocurrent and photovoltage always have opposite signs and are anti‐symmetric about the cell center. In asymmetric Al/Au cells, the electrode work function difference contributes an additional built‐in field/potential drop and significantly modifies the photocurrent and photovoltage profiles. The depletion width of the Al/BHJ Schottky junction is 110‐120 µm, while the minority electron diffusion length is determined to be 43.8 µm.This article is protected by copyright. All rights reserved.

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Long‐Range Charge Carrier Transport in Planar Polymer Bulk‐Heterojunction Photovoltaic Cells

AlTal,

Gao

2024

Physica Rapid Research Ltrs

View full text Add to dashboard Cite

show abstract

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Facile Construction of a Laser Scanning Optical Beam Induced Current Microscope

Cited by 1 publication

References 22 publications

Long‐Range Charge Carrier Transport in Planar Polymer Bulk‐Heterojunction Photovoltaic Cells

Long‐Range Charge Carrier Transport in Planar Polymer Bulk‐Heterojunction Photovoltaic Cells

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