Photoresponse of graphene ruthenium-complex heterostructures

Walter, N.; Winter, J.; Bog, U.; Hirtz, M.; Schramm, F.; Du, R.; Ruben, M.; Pernice, W.H.P.; Jang, H.; Ahn, J-H.; Danneau, R.

Risultato della ricerca: Paper

Abstract

The aim of this study is to understand the photoresponse of a Ruthenium-complex/graphene heterostructure. Early work demonstrated that light detection by graphene field effect devices was enhanced by dropcasting Ruthenium Complex molecules. Here we proposed to fabricate a new class of devices where the Ruthenium-complex molecules are embedded between two layer of CVD monolayer graphene.
Lingua originaleEnglish
Stato di pubblicazionePublished - 2015

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Walter, N.; Winter, J.; Bog, U.; Hirtz, M.; Schramm, F.; Du, R.; Ruben, M.; Pernice, W.H.P.; Jang, H.; Ahn, J-H.; Danneau, R. (2015). Photoresponse of graphene ruthenium-complex heterostructures.

Photoresponse of graphene ruthenium-complex heterostructures. / Walter, N.; Winter, J.; Bog, U.; Hirtz, M.; Schramm, F.; Du, R.; Ruben, M.; Pernice, W.H.P.; Jang, H.; Ahn, J-H.; Danneau, R.

2015.

Risultato della ricerca: Paper

Walter, N.; Winter, J.; Bog, U.; Hirtz, M.; Schramm, F.; Du, R.; Ruben, M.; Pernice, W.H.P.; Jang, H.; Ahn, J-H.; Danneau, R. 2015, 'Photoresponse of graphene ruthenium-complex heterostructures'.
Walter, N.; Winter, J.; Bog, U.; Hirtz, M.; Schramm, F.; Du, R.; Ruben, M.; Pernice, W.H.P.; Jang, H.; Ahn, J-H.; Danneau, R.. Photoresponse of graphene ruthenium-complex heterostructures. 2015.
Walter, N.; Winter, J.; Bog, U.; Hirtz, M.; Schramm, F.; Du, R.; Ruben, M.; Pernice, W.H.P.; Jang, H.; Ahn, J-H.; Danneau, R. / Photoresponse of graphene ruthenium-complex heterostructures.
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title = "Photoresponse of graphene ruthenium-complex heterostructures",
abstract = "The aim of this study is to understand the photoresponse of a Ruthenium-complex/graphene heterostructure. Early work demonstrated that light detection by graphene field effect devices was enhanced by dropcasting Ruthenium Complex molecules. Here we proposed to fabricate a new class of devices where the Ruthenium-complex molecules are embedded between two layer of CVD monolayer graphene.",
author = "{Walter, N.; Winter, J.; Bog, U.; Hirtz, M.; Schramm, F.; Du, R.; Ruben, M.; Pernice, W.H.P.; Jang, H.; Ahn, J-H.; Danneau, R.} and Alessandro Busacca and Salvatore Stivala and Cino, {Alfonso Carmelo} and Giambra, {Marco Angelo}",
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T1 - Photoresponse of graphene ruthenium-complex heterostructures

AU - Walter, N.; Winter, J.; Bog, U.; Hirtz, M.; Schramm, F.; Du, R.; Ruben, M.; Pernice, W.H.P.; Jang, H.; Ahn, J-H.; Danneau, R.

AU - Busacca, Alessandro

AU - Stivala, Salvatore

AU - Cino, Alfonso Carmelo

AU - Giambra, Marco Angelo

PY - 2015

Y1 - 2015

N2 - The aim of this study is to understand the photoresponse of a Ruthenium-complex/graphene heterostructure. Early work demonstrated that light detection by graphene field effect devices was enhanced by dropcasting Ruthenium Complex molecules. Here we proposed to fabricate a new class of devices where the Ruthenium-complex molecules are embedded between two layer of CVD monolayer graphene.

AB - The aim of this study is to understand the photoresponse of a Ruthenium-complex/graphene heterostructure. Early work demonstrated that light detection by graphene field effect devices was enhanced by dropcasting Ruthenium Complex molecules. Here we proposed to fabricate a new class of devices where the Ruthenium-complex molecules are embedded between two layer of CVD monolayer graphene.

UR - http://hdl.handle.net/10447/223350

M3 - Paper

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