All-printed nanomembrane wireless bioelectronics using a biocompatible solderable graphene for multimodal human-machine interfaces

Though wearable electronics remain an attractive technology for bioelectronics, fabrication methods that precisely print biocompatible materials for electronics are needed. Here, the authors report an additive manufacturing process that yields all-printed nanomaterial-based wireless electronics.

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Autores principales: Young-Tae Kwon, Yun-Soung Kim, Shinjae Kwon, Musa Mahmood, Hyo-Ryoung Lim, Si-Woo Park, Sung-Oong Kang, Jeongmoon J. Choi, Robert Herbert, Young C. Jang, Yong-Ho Choa, Woon-Hong Yeo
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Lenguaje:EN
Publicado: Nature Portfolio 2020
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Acceso en línea:https://doaj.org/article/53370886c839444f89b1eed95e6aab6c
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spelling oai:doaj.org-article:53370886c839444f89b1eed95e6aab6c2021-12-02T15:23:10ZAll-printed nanomembrane wireless bioelectronics using a biocompatible solderable graphene for multimodal human-machine interfaces10.1038/s41467-020-17288-02041-1723https://doaj.org/article/53370886c839444f89b1eed95e6aab6c2020-07-01T00:00:00Zhttps://doi.org/10.1038/s41467-020-17288-0https://doaj.org/toc/2041-1723Though wearable electronics remain an attractive technology for bioelectronics, fabrication methods that precisely print biocompatible materials for electronics are needed. Here, the authors report an additive manufacturing process that yields all-printed nanomaterial-based wireless electronics.Young-Tae KwonYun-Soung KimShinjae KwonMusa MahmoodHyo-Ryoung LimSi-Woo ParkSung-Oong KangJeongmoon J. ChoiRobert HerbertYoung C. JangYong-Ho ChoaWoon-Hong YeoNature PortfolioarticleScienceQENNature Communications, Vol 11, Iss 1, Pp 1-11 (2020)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Young-Tae Kwon
Yun-Soung Kim
Shinjae Kwon
Musa Mahmood
Hyo-Ryoung Lim
Si-Woo Park
Sung-Oong Kang
Jeongmoon J. Choi
Robert Herbert
Young C. Jang
Yong-Ho Choa
Woon-Hong Yeo
All-printed nanomembrane wireless bioelectronics using a biocompatible solderable graphene for multimodal human-machine interfaces
description Though wearable electronics remain an attractive technology for bioelectronics, fabrication methods that precisely print biocompatible materials for electronics are needed. Here, the authors report an additive manufacturing process that yields all-printed nanomaterial-based wireless electronics.
format article
author Young-Tae Kwon
Yun-Soung Kim
Shinjae Kwon
Musa Mahmood
Hyo-Ryoung Lim
Si-Woo Park
Sung-Oong Kang
Jeongmoon J. Choi
Robert Herbert
Young C. Jang
Yong-Ho Choa
Woon-Hong Yeo
author_facet Young-Tae Kwon
Yun-Soung Kim
Shinjae Kwon
Musa Mahmood
Hyo-Ryoung Lim
Si-Woo Park
Sung-Oong Kang
Jeongmoon J. Choi
Robert Herbert
Young C. Jang
Yong-Ho Choa
Woon-Hong Yeo
author_sort Young-Tae Kwon
title All-printed nanomembrane wireless bioelectronics using a biocompatible solderable graphene for multimodal human-machine interfaces
title_short All-printed nanomembrane wireless bioelectronics using a biocompatible solderable graphene for multimodal human-machine interfaces
title_full All-printed nanomembrane wireless bioelectronics using a biocompatible solderable graphene for multimodal human-machine interfaces
title_fullStr All-printed nanomembrane wireless bioelectronics using a biocompatible solderable graphene for multimodal human-machine interfaces
title_full_unstemmed All-printed nanomembrane wireless bioelectronics using a biocompatible solderable graphene for multimodal human-machine interfaces
title_sort all-printed nanomembrane wireless bioelectronics using a biocompatible solderable graphene for multimodal human-machine interfaces
publisher Nature Portfolio
publishDate 2020
url https://doaj.org/article/53370886c839444f89b1eed95e6aab6c
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