Semiconductor nanomembranes for integrated silicon photonics and flexible Photonics

Weidong Zhou; Zhenqiang Ma; Santhad Chuwongin; Yi Chen Shuai; Jung Hun Seo; Deyin Zhao; Hongjun Yang; Weiquan Yang

doi:10.1007/s11082-012-9586-8

Semiconductor nanomembranes for integrated silicon photonics and flexible Photonics

Weidong Zhou
, Zhenqiang Ma
, Santhad Chuwongin
, Yi Chen Shuai
, Jung Hun Seo
, Deyin Zhao
, Hongjun Yang
, Weiquan Yang

Department of Materials Design and Innovation

University of Texas at Arlington
University of Wisconsin-Madison
Semerane, Inc.

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

16 Scopus citations

Abstract

Crystalline semiconductor nanomembranes (NMs), which are transferable, stackable, bondable and manufacturable, offer unprecedented opportunities for unique and novel device applications. We review here nanophotonic devices based on stacked semiconductor NMs on Si, glass and flexible PET substrates. Photonic crystal Fano resonance-based surface-normal optical filters and broadband reflectors have been demonstrated with unique angle and polarization properties. Flexible photodetectors and solar cells have also been developed based on the NMstacking processes. Such NM stacking process can lead to a paradigm shift on silicon photonic integration and hybrid organic/inorganic flexible photonics.

Original language	English
Pages (from-to)	605-611
Number of pages	7
Journal	Optical and Quantum Electronics
Volume	44
Issue number	12-13
DOIs	https://doi.org/10.1007/s11082-012-9586-8
State	Published - Oct 2012

Keywords

Flexible photonics
Photonic crystals
Photonic integration
Semiconductor nanomembranes
Silicon photonics

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10.1007/s11082-012-9586-8

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title = "Semiconductor nanomembranes for integrated silicon photonics and flexible Photonics",

abstract = "Crystalline semiconductor nanomembranes (NMs), which are transferable, stackable, bondable and manufacturable, offer unprecedented opportunities for unique and novel device applications. We review here nanophotonic devices based on stacked semiconductor NMs on Si, glass and flexible PET substrates. Photonic crystal Fano resonance-based surface-normal optical filters and broadband reflectors have been demonstrated with unique angle and polarization properties. Flexible photodetectors and solar cells have also been developed based on the NMstacking processes. Such NM stacking process can lead to a paradigm shift on silicon photonic integration and hybrid organic/inorganic flexible photonics.",

keywords = "Flexible photonics, Photonic crystals, Photonic integration, Semiconductor nanomembranes, Silicon photonics",

author = "Weidong Zhou and Zhenqiang Ma and Santhad Chuwongin and Shuai, \{Yi Chen\} and Seo, \{Jung Hun\} and Deyin Zhao and Hongjun Yang and Weiquan Yang",

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T1 - Semiconductor nanomembranes for integrated silicon photonics and flexible Photonics

AU - Zhou, Weidong

AU - Ma, Zhenqiang

AU - Chuwongin, Santhad

AU - Shuai, Yi Chen

AU - Seo, Jung Hun

AU - Zhao, Deyin

AU - Yang, Hongjun

AU - Yang, Weiquan

PY - 2012/10

Y1 - 2012/10

N2 - Crystalline semiconductor nanomembranes (NMs), which are transferable, stackable, bondable and manufacturable, offer unprecedented opportunities for unique and novel device applications. We review here nanophotonic devices based on stacked semiconductor NMs on Si, glass and flexible PET substrates. Photonic crystal Fano resonance-based surface-normal optical filters and broadband reflectors have been demonstrated with unique angle and polarization properties. Flexible photodetectors and solar cells have also been developed based on the NMstacking processes. Such NM stacking process can lead to a paradigm shift on silicon photonic integration and hybrid organic/inorganic flexible photonics.

AB - Crystalline semiconductor nanomembranes (NMs), which are transferable, stackable, bondable and manufacturable, offer unprecedented opportunities for unique and novel device applications. We review here nanophotonic devices based on stacked semiconductor NMs on Si, glass and flexible PET substrates. Photonic crystal Fano resonance-based surface-normal optical filters and broadband reflectors have been demonstrated with unique angle and polarization properties. Flexible photodetectors and solar cells have also been developed based on the NMstacking processes. Such NM stacking process can lead to a paradigm shift on silicon photonic integration and hybrid organic/inorganic flexible photonics.

KW - Flexible photonics

KW - Photonic crystals

KW - Photonic integration

KW - Semiconductor nanomembranes

KW - Silicon photonics

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EP - 611

JO - Optical and Quantum Electronics

JF - Optical and Quantum Electronics

IS - 12-13

ER -

Semiconductor nanomembranes for integrated silicon photonics and flexible Photonics

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Keywords

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