Materials Map

Discover the materials research landscape. Find experts, partners, networks.

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The Materials Map is an open tool for improving networking and interdisciplinary exchange within materials research. It enables cross-database search for cooperation and network partners and discovering of the research landscape.

The dashboard provides detailed information about the selected scientist, e.g. publications. The dashboard can be filtered and shows the relationship to co-authors in different diagrams. In addition, a link is provided to find contact information.

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Materials Map under construction

The Materials Map is still under development. In its current state, it is only based on one single data source and, thus, incomplete and contains duplicates. We are working on incorporating new open data sources like ORCID to improve the quality and the timeliness of our data. We will update Materials Map as soon as possible and kindly ask for your patience.

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in Cooperation with on an Cooperation-Score of 37%

Topics

Publications (4/4 displayed)

  • 2019Investigation of the effect of microstructural changes on thermal transport in semicrystalline polymer semiconductorscitations
  • 2017Engineering the Photoresponse of InAs Nanowires58citations
  • 2016Coulomb Enhanced Charge Transport in Semicrystalline Polymer Semiconductors26citations
  • 2014The role of regioregularity, crystallinity, and chain orientation on electron transport in a high-mobility n-type copolymer246citations

Places of action

Chart of shared publication
Selezneva, Ekaterina
1 / 4 shared
Sirringhaus, Henning
2 / 48 shared
Gonzalez-Zalba, M. Fernando
1 / 3 shared
Sagade, Abhay A.
1 / 5 shared
Tainter, Gregory
1 / 6 shared
Joyce, Hannah J.
1 / 19 shared
Hofmann, Stephan
1 / 46 shared
Groschner, Catherine K.
1 / 3 shared
Alexander-Webber, Jack A.
1 / 10 shared
Carpenter, Joshua
1 / 1 shared
Kölln, Lisa Sophie
1 / 1 shared
Neher, Dieter
2 / 64 shared
Nasrallah, Iyad
1 / 6 shared
Thomsen, Lars
1 / 20 shared
Ohara, Kathryn
1 / 1 shared
Facchetti, Antonio
2 / 9 shared
Venkateshvaran, Deepak
1 / 7 shared
Chabinyc, Michael
1 / 1 shared
Ade, Harald
2 / 11 shared
Gann, Eliot
1 / 22 shared
Sadhanala, Aditya
1 / 29 shared
Schubert, Marcel
1 / 5 shared
Zhang, Shiming
1 / 4 shared
Steyrleuthner, Robert
1 / 5 shared
Polzer, Frank
1 / 2 shared
Salleo, Alberto
1 / 38 shared
Chen, Zhihua
1 / 5 shared
Collins, Brian A.
1 / 4 shared
Himmelberger, Scott
1 / 6 shared
Chart of publication period
2019
2017
2016
2014

Co-Authors (by relevance)

  • Selezneva, Ekaterina
  • Sirringhaus, Henning
  • Gonzalez-Zalba, M. Fernando
  • Sagade, Abhay A.
  • Tainter, Gregory
  • Joyce, Hannah J.
  • Hofmann, Stephan
  • Groschner, Catherine K.
  • Alexander-Webber, Jack A.
  • Carpenter, Joshua
  • Kölln, Lisa Sophie
  • Neher, Dieter
  • Nasrallah, Iyad
  • Thomsen, Lars
  • Ohara, Kathryn
  • Facchetti, Antonio
  • Venkateshvaran, Deepak
  • Chabinyc, Michael
  • Ade, Harald
  • Gann, Eliot
  • Sadhanala, Aditya
  • Schubert, Marcel
  • Zhang, Shiming
  • Steyrleuthner, Robert
  • Polzer, Frank
  • Salleo, Alberto
  • Chen, Zhihua
  • Collins, Brian A.
  • Himmelberger, Scott
OrganizationsLocationPeople

article

Engineering the Photoresponse of InAs Nanowires

  • Gonzalez-Zalba, M. Fernando
  • Sagade, Abhay A.
  • Tainter, Gregory
  • Joyce, Hannah J.
  • Hofmann, Stephan
  • Groschner, Catherine K.
  • Pietro, Riccardo Di
  • Alexander-Webber, Jack A.
Abstract

<p>We report on individual-InAs nanowire optoelectronic devices which can be tailored to exhibit either negative or positive photoconductivity (NPC or PPC). The NPC photoresponse time and magnitude is found to be highly tunable by varying the nanowire diameter under controlled growth conditions. Using hysteresis characterization, we decouple the observed photoexcitation-induced hot electron trapping from conventional electric field-induced trapping to gain a fundamental insight into the interface trap states responsible for NPC. Furthermore, we demonstrate surface passivation without chemical etching which both enhances the field-effect mobility of the nanowires by approximately an order of magnitude and effectively eliminates the hot carrier trapping found to be responsible for NPC, thus restoring an "intrinsic" positive photoresponse. This opens pathways toward engineering semiconductor nanowires for novel optical-memory and photodetector applications.</p>

Topics
  • impedance spectroscopy
  • surface
  • mobility
  • semiconductor
  • etching
  • photoconductivity
  • normal-phase chromatography