Walter M. Weber
Walter M. Weber
Professor of Nanoelectronics at TU Wien
Bestätigte E-Mail-Adresse bei - Startseite
Zitiert von
Zitiert von
Reconfigurable silicon nanowire transistors
A Heinzig, S Slesazeck, F Kreupl, T Mikolajick, WM Weber
Nano letters 12 (1), 119-124, 2011
Silicon-nanowire transistors with intruded nickel-silicide contacts
WM Weber, L Geelhaar, AP Graham, E Unger, GS Duesberg, M Liebau, ...
Nano letters 6 (12), 2660-2666, 2006
Direct comparison of catalyst-free and catalyst-induced GaN nanowires
C Chèze, L Geelhaar, O Brandt, WM Weber, H Riechert, S Münch, ...
Nano Research 3 (7), 528-536, 2010
Dually Active Silicon Nanowire Transistors and Circuits with Equal Electron and Hole Transport
A Heinzig, T Mikolajick, J Trommer, D Grimm, WM Weber
Nano letters 13 (9), 4176-4181, 2013
Elementary Aspects for Circuit Implementation of Reconfigurable Nanowire Transistors
J Trommer, A Heinzig, S Slesazeck, T Mikolajick, WM Weber
Axial and radial growth of Ni-induced GaN nanowires
L Geelhaar, C Chèze, WM Weber, R Averbeck, H Riechert, T Kehagias, ...
Applied Physics Letters 91 (9), 093113, 2007
Functionality-enhanced logic gate design enabled by symmetrical reconfigurable silicon nanowire transistors
J Trommer, A Heinzig, T Baldauf, S Slesazeck, T Mikolajick, WM Weber
IEEE Transactions on Nanotechnology 14 (4), 689-698, 2015
The RFET—a reconfigurable nanowire transistor and its application to novel electronic circuits and systems
T Mikolajick, A Heinzig, J Trommer, T Baldauf, WM Weber
Semiconductor Science and Technology 32 (4), 043001, 2017
Reconfigurable nanowire electronics–A review
WM Weber, A Heinzig, J Trommer, D Martin, M Grube, T Mikolajick
Solid-State Electronics 102, 12-24, 2014
Enabling Energy Efficiency and Polarity-Control in Germanium Nanowire Transistors by Individually Gated Nano-Junctions
WMW J. Trommer, A. Heinzig, U. Mühle, M. Löffler, A. Winzer, P. M. Jordan, J ...
ACS Nano, 2017
Silicon nanowires–a versatile technology platform
T Mikolajick, A Heinzig, J Trommer, S Pregl, M Grube, G Cuniberti, ...
physica status solidi (RRL)-Rapid Research Letters 7 (10), 793-799, 2013
Designing efficient circuits based on runtime-reconfigurable field-effect transistors
S Rai, J Trommer, M Raitza, T Mikolajick, WM Weber, A Kumar
IEEE Transactions on Very Large Scale Integration (VLSI) Systems 27 (3), 560-572, 2018
Silicon and Germanium Nanowire Electronics: Physics of Conventional and Unconventional Transistors
WM Weber, T Mikolajick
Reports on Progress in Physics 80 (6), 066502, 2017
Light Weight and Flexible High‐Performance Diagnostic Platform
D Karnaushenko, B Ibarlucea, S Lee, G Lin, L Baraban, S Pregl, M Melzer, ...
Advanced healthcare materials 4 (10), 1517-1525, 2015
High Area Capacity Lithium-Sulfur Full-cell Battery with Prelitiathed Silicon Nanowire-Carbon Anodes for Long Cycling Stability
A Krause, S Dörfler, M Piwko, FM Wisser, T Jaumann, E Ahrens, ...
Nature Scientific Reports 6, 27982, 2016
Parallel arrays of Schottky barrier nanowire field effect transistors: Nanoscopic effects for macroscopic current output
S Pregl, WM Weber, D Nozaki, J Kunstmann, L Baraban, J Opitz, ...
Nano Research 6 (6), 381-388, 2013
Reconfigurable nanowire electronics-enabling a single CMOS circuit technology
WM Weber, A Heinzig, J Trommer, M Grube, F Kreupl, T Mikolajick
IEEE Transactions on Nanotechnology 13 (6), 1020-1028, 2014
Schottky barrier-based silicon nanowire pH sensor with live sensitivity control
FM Zörgiebel, S Pregl, L Römhildt, J Opitz, W Weber, T Mikolajick, ...
Nano Research 7 (2), 263-271, 2014
In Situ Raman Spectroscopy on Silicon Nanowire Anodes Integrated in Lithium Ion Batteries
A Krause, O Tkacheva, A Omar, U Langklotz, L Giebeler, S Dörfler, ...
Journal of The Electrochemical Society 166 (3), A5378-A5385, 2019
Direct probing of Schottky barriers in Si nanowire Schottky barrier field effect transistors
D Martin, A Heinzig, M Grube, L Geelhaar, T Mikolajick, H Riechert, ...
Physical Review Letters 107 (21), 216807, 2011
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