Low dimensional freestanding semiconductors for flexible optoelectronics: materials, synthesis, process, and applications

Jung Hun Seo; Edward Swinnich; Yi Yu Zhang; Munho Kim

doi:10.1080/21663831.2020.1718231

Low dimensional freestanding semiconductors for flexible optoelectronics: materials, synthesis, process, and applications

Jung Hun Seo
, Edward Swinnich
, Yi Yu Zhang
, Munho Kim

Department of Materials Design and Innovation

SUNY Buffalo
Nanyang Technological University

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

41 Scopus citations

Abstract

In this review, the primary focus is the recent advances in the development of freestanding inorganic crystalline semiconductors and their manipulation technology for flexible optoelectronic applications. We firstly cover the details of the growth and processing techniques of freestanding inorganic crystalline semiconductors in various dimensions and their material property under strain condition. Finally, fabrication processes and opto-electrical properties of flexible optoelectronics are introduced. Future research directions are also discussed, including further enhancement of device performance, building more types of optoelectronic devices on flexible substrates, and process integration for the advanced optoelectronic circuits and systems.

Original language	English
Pages (from-to)	123-144
Number of pages	22
Journal	Materials Research Letters
Volume	8
Issue number	4
DOIs	https://doi.org/10.1080/21663831.2020.1718231
State	Published - Apr 2 2020

Keywords

Freestanding semiconductors
flexible nanomaterials
flexible optoelectronics

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10.1080/21663831.2020.1718231

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title = "Low dimensional freestanding semiconductors for flexible optoelectronics: materials, synthesis, process, and applications",

abstract = "In this review, the primary focus is the recent advances in the development of freestanding inorganic crystalline semiconductors and their manipulation technology for flexible optoelectronic applications. We firstly cover the details of the growth and processing techniques of freestanding inorganic crystalline semiconductors in various dimensions and their material property under strain condition. Finally, fabrication processes and opto-electrical properties of flexible optoelectronics are introduced. Future research directions are also discussed, including further enhancement of device performance, building more types of optoelectronic devices on flexible substrates, and process integration for the advanced optoelectronic circuits and systems.",

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AU - Seo, Jung Hun

AU - Swinnich, Edward

AU - Zhang, Yi Yu

AU - Kim, Munho

PY - 2020/4/2

Y1 - 2020/4/2

N2 - In this review, the primary focus is the recent advances in the development of freestanding inorganic crystalline semiconductors and their manipulation technology for flexible optoelectronic applications. We firstly cover the details of the growth and processing techniques of freestanding inorganic crystalline semiconductors in various dimensions and their material property under strain condition. Finally, fabrication processes and opto-electrical properties of flexible optoelectronics are introduced. Future research directions are also discussed, including further enhancement of device performance, building more types of optoelectronic devices on flexible substrates, and process integration for the advanced optoelectronic circuits and systems.

AB - In this review, the primary focus is the recent advances in the development of freestanding inorganic crystalline semiconductors and their manipulation technology for flexible optoelectronic applications. We firstly cover the details of the growth and processing techniques of freestanding inorganic crystalline semiconductors in various dimensions and their material property under strain condition. Finally, fabrication processes and opto-electrical properties of flexible optoelectronics are introduced. Future research directions are also discussed, including further enhancement of device performance, building more types of optoelectronic devices on flexible substrates, and process integration for the advanced optoelectronic circuits and systems.

KW - Freestanding semiconductors

KW - flexible nanomaterials

KW - flexible optoelectronics

UR - https://www.scopus.com/pages/publications/85079234496

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DO - 10.1080/21663831.2020.1718231

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JO - Materials Research Letters

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ER -

Low dimensional freestanding semiconductors for flexible optoelectronics: materials, synthesis, process, and applications

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Keywords

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