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Silicon p-i-n junction fibers

Silicon p-i-n junction fibers
Silicon p-i-n junction fibers
Conventional wafer-based microelectronics are typically fabricated on a length scale of millimeters to centimeters on rigid substrates. Extending electronic function to longer length scales and more flexible forms has long been of interest for a wide range of application areas such as power generation, chemical sensing, foldable displays, and biomedical devices (e.g., epidermal electronics). 1D fibers are now emerging as flexible structures that can allow electronic function to be exploited over length scales from meters to even kilometers, and can also be configured into large 2D woven structures and 2D and 3D arrays. These fibers are further extending the scope of the field to applications such as 3D photodetectors, imaging fabrics, and telecommunications, with many more applications possible with further improvements in electronic fiber device performance.
silicon, fibers, junctions, solar cells, optoelectronics
1521-4095
1461-1467
He, Rongrui
d89761c0-6ad3-460b-80a1-154d33763bdb
Day, Todd D.
71079fe7-e66e-406b-8d3a-bddb030e03ff
Krishnamurthi, Mahesh
f707c230-29e8-436d-a160-a54f41ae5305
Sparks, Justin R.
68cb6a0c-29ef-4487-8940-557b05b08568
Sazio, Pier J.A.
0d6200b5-9947-469a-8e97-9147da8a7158
Gopalan, Venkatraman
c37ec093-614a-4b1c-a6ec-a5b32f398a58
Badding, John V.
dd484978-a8b8-4d1f-9b9e-b6b33bde9e7b
He, Rongrui
d89761c0-6ad3-460b-80a1-154d33763bdb
Day, Todd D.
71079fe7-e66e-406b-8d3a-bddb030e03ff
Krishnamurthi, Mahesh
f707c230-29e8-436d-a160-a54f41ae5305
Sparks, Justin R.
68cb6a0c-29ef-4487-8940-557b05b08568
Sazio, Pier J.A.
0d6200b5-9947-469a-8e97-9147da8a7158
Gopalan, Venkatraman
c37ec093-614a-4b1c-a6ec-a5b32f398a58
Badding, John V.
dd484978-a8b8-4d1f-9b9e-b6b33bde9e7b

He, Rongrui, Day, Todd D., Krishnamurthi, Mahesh, Sparks, Justin R., Sazio, Pier J.A., Gopalan, Venkatraman and Badding, John V. (2013) Silicon p-i-n junction fibers. Advanced Materials, 25 (10), 1461-1467. (doi:10.1002/adma.201203879).

Record type: Article

Abstract

Conventional wafer-based microelectronics are typically fabricated on a length scale of millimeters to centimeters on rigid substrates. Extending electronic function to longer length scales and more flexible forms has long been of interest for a wide range of application areas such as power generation, chemical sensing, foldable displays, and biomedical devices (e.g., epidermal electronics). 1D fibers are now emerging as flexible structures that can allow electronic function to be exploited over length scales from meters to even kilometers, and can also be configured into large 2D woven structures and 2D and 3D arrays. These fibers are further extending the scope of the field to applications such as 3D photodetectors, imaging fabrics, and telecommunications, with many more applications possible with further improvements in electronic fiber device performance.

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More information

e-pub ahead of print date: 4 December 2012
Published date: 13 March 2013
Keywords: silicon, fibers, junctions, solar cells, optoelectronics
Organisations: Optoelectronics Research Centre

Identifiers

Local EPrints ID: 349395
URI: http://eprints.soton.ac.uk/id/eprint/349395
ISSN: 1521-4095
PURE UUID: 4960ddcf-6d7f-4a6d-bb48-7a413c7569c5
ORCID for Pier J.A. Sazio: ORCID iD orcid.org/0000-0002-6506-9266

Catalogue record

Date deposited: 04 Mar 2013 10:52
Last modified: 15 Mar 2024 03:13

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Contributors

Author: Rongrui He
Author: Todd D. Day
Author: Mahesh Krishnamurthi
Author: Justin R. Sparks
Author: Pier J.A. Sazio ORCID iD
Author: Venkatraman Gopalan
Author: John V. Badding

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