Hybrid energy harvester based on nanopillar solar cells and PVDF nanogenerator

Dae Yeong Lee; Hyunjin Kim; Hua Min Li; A. Rang Jang; Yeong Dae Lim; Seung Nam Cha; Young Jun Park; Dae Joon Kang; Won Jong Yoo

doi:10.1088/0957-4484/24/17/175402

Hybrid energy harvester based on nanopillar solar cells and PVDF nanogenerator

Dae Yeong Lee
, Hyunjin Kim
, Hua Min Li
, A. Rang Jang
, Yeong Dae Lim
, Seung Nam Cha
, Young Jun Park
, Dae Joon Kang
, Won Jong Yoo

Department of Electrical Engineering

University at Buffalo

Research output: Contribution to journal › Article › peer-review

48 Scopus citations

Abstract

A tandem device which integrates a PVDF nanogenerator and silicon (Si) nanopillar solar cell is fabricated. The Si nanopillar solar cell was fabricated using a mask-free plasma etching technique and annealing process. The PVDF nanogenerator was stacked on top of the Si nanopillar solar cell using a spinning method. The optical properties and the device performance of nanowire solar cells have been characterized, and the dependence of device performance versus annealing time or method has been investigated. Furthermore, the PVDF nanogenerator was operated with a 100 dB sound wave and a 0.8 V peak to peak output voltage was generated. This tandem device can successfully harvest energy from both sound vibration and solar light, demonstrating its strong potential as a future ubiquitous energy harvester.

Original language	English
Article number	175402
Journal	Nanotechnology
Volume	24
Issue number	17
DOIs	https://doi.org/10.1088/0957-4484/24/17/175402
State	Published - May 3 2013

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title = "Hybrid energy harvester based on nanopillar solar cells and PVDF nanogenerator",

abstract = "A tandem device which integrates a PVDF nanogenerator and silicon (Si) nanopillar solar cell is fabricated. The Si nanopillar solar cell was fabricated using a mask-free plasma etching technique and annealing process. The PVDF nanogenerator was stacked on top of the Si nanopillar solar cell using a spinning method. The optical properties and the device performance of nanowire solar cells have been characterized, and the dependence of device performance versus annealing time or method has been investigated. Furthermore, the PVDF nanogenerator was operated with a 100 dB sound wave and a 0.8 V peak to peak output voltage was generated. This tandem device can successfully harvest energy from both sound vibration and solar light, demonstrating its strong potential as a future ubiquitous energy harvester.",

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doi = "10.1088/0957-4484/24/17/175402",

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T1 - Hybrid energy harvester based on nanopillar solar cells and PVDF nanogenerator

AU - Lee, Dae Yeong

AU - Kim, Hyunjin

AU - Li, Hua Min

AU - Jang, A. Rang

AU - Lim, Yeong Dae

AU - Cha, Seung Nam

AU - Park, Young Jun

AU - Kang, Dae Joon

AU - Yoo, Won Jong

PY - 2013/5/3

Y1 - 2013/5/3

N2 - A tandem device which integrates a PVDF nanogenerator and silicon (Si) nanopillar solar cell is fabricated. The Si nanopillar solar cell was fabricated using a mask-free plasma etching technique and annealing process. The PVDF nanogenerator was stacked on top of the Si nanopillar solar cell using a spinning method. The optical properties and the device performance of nanowire solar cells have been characterized, and the dependence of device performance versus annealing time or method has been investigated. Furthermore, the PVDF nanogenerator was operated with a 100 dB sound wave and a 0.8 V peak to peak output voltage was generated. This tandem device can successfully harvest energy from both sound vibration and solar light, demonstrating its strong potential as a future ubiquitous energy harvester.

AB - A tandem device which integrates a PVDF nanogenerator and silicon (Si) nanopillar solar cell is fabricated. The Si nanopillar solar cell was fabricated using a mask-free plasma etching technique and annealing process. The PVDF nanogenerator was stacked on top of the Si nanopillar solar cell using a spinning method. The optical properties and the device performance of nanowire solar cells have been characterized, and the dependence of device performance versus annealing time or method has been investigated. Furthermore, the PVDF nanogenerator was operated with a 100 dB sound wave and a 0.8 V peak to peak output voltage was generated. This tandem device can successfully harvest energy from both sound vibration and solar light, demonstrating its strong potential as a future ubiquitous energy harvester.

UR - https://www.scopus.com/pages/publications/84876159488

U2 - 10.1088/0957-4484/24/17/175402

DO - 10.1088/0957-4484/24/17/175402

M3 - Article

SN - 0957-4484

VL - 24

JO - Nanotechnology

JF - Nanotechnology

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M1 - 175402

ER -

Hybrid energy harvester based on nanopillar solar cells and PVDF nanogenerator

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