Negative electronic compressibility and tunable spin splitting in WSe2 (English)
- New search for: Riley, J. M.
- New search for: Meevasana, W.
- New search for: Bawden, L.
- New search for: Asakawa, M.
- New search for: Takayama, T.
- New search for: Eknapakul, T.
- New search for: Kim, T. K.
- New search for: Hoesch, M.
- New search for: Mo, S. K.
- New search for: Takagi, H.
- New search for: Riley, J. M.
- New search for: Meevasana, W.
- New search for: Bawden, L.
- New search for: Asakawa, M.
- New search for: Takayama, T.
- New search for: Eknapakul, T.
- New search for: Kim, T. K.
- New search for: Hoesch, M.
- New search for: Mo, S. K.
- New search for: Takagi, H.
In:
NATURE NANOTECHNOLOGY
;
10
, 12
;
1043-1047
;
2015
-
ISSN:
- Article (Journal) / Print
-
Title:Negative electronic compressibility and tunable spin splitting in WSe2
-
Contributors:Riley, J. M. ( author ) / Meevasana, W. ( author ) / Bawden, L. ( author ) / Asakawa, M. ( author ) / Takayama, T. ( author ) / Eknapakul, T. ( author ) / Kim, T. K. ( author ) / Hoesch, M. ( author ) / Mo, S. K. ( author ) / Takagi, H. ( author )
-
Published in:NATURE NANOTECHNOLOGY ; 10, 12 ; 1043-1047
-
Publisher:
- New search for: Nature Publishing Group
-
Publication date:2015-01-01
-
Size:5 pages
-
ISSN:
-
Type of media:Article (Journal)
-
Type of material:Print
-
Language:English
- New search for: 530 / 621.3
- Further information on Dewey Decimal Classification
-
Classification:
-
Source:
© Metadata Copyright the British Library Board and other contributors. All rights reserved.
Table of contents – Volume 10, Issue 12
The tables of contents are generated automatically and are based on the data records of the individual contributions available in the index of the TIB portal. The display of the Tables of Contents may therefore be incomplete.
- 993
-
No more walls| 2015
- 993
-
When the dots are joined| 2015
- 994
-
Opportunities and challenges for quantum dot photovoltaicsMaksym V Kovalenko et al. | 2015
- 997
-
Prospects for thermoelectricity in quantum dot hybrid arraysJeffrey J Urban et al. | 2015
- 1001
-
What future for quantum dot-based light emitters?Arto Nurmikko et al. | 2015
- 1005
-
Navigating the fourth industrial revolutionAndrew D Maynard et al. | 2015
- 1007
-
Our choice from the recent literature| 2015
- 1008
-
Skyrmions: Detection with unpolarized currentsTheodore L Monchesky et al. | 2015
- 1009
-
Optical rectennas: Nanotubes circumvent trade-offsGarret Moddel et al. | 2015
- 1011
-
Computing: Naturally randomJie Han et al. | 2015
- 1013
-
Charge transport in strongly coupled quantum dot solidsCherie R Kagan et al. | 2015
- 1027
-
A carbon nanotube optical rectennaAsha Sharma et al. | 2015
- 1033
-
Infrared rectification in a nanoantenna-coupled metal-oxide-semiconductor tunnel diodePaul S Davids et al. | 2015
- 1039
-
Electrical detection of magnetic skyrmions by tunnelling non-collinear magnetoresistanceChristian Hanneken et al. | 2015
- 1043
-
Negative electronic compressibility and tunable spin splitting in WSe2J M Riley et al. | 2015
- 1048
-
Evolution of a designless nanoparticle network into reconfigurable Boolean logicS K Bose et al. | 2015
- 1053
-
Heterogeneous sub-continuum ionic transport in statistically isolated graphene nanoporesTarun Jain et al. | 2015
- 1058
-
Antenna-coupled photon emission from hexagonal boron nitride tunnel junctionsM Parzefall et al. | 2015
- 1064
-
Surface imaging beyond the diffraction limit with optically trapped spheresLars Friedrich et al. | 2015
- 1070
-
Identification of single nucleotides in MoS2 nanoporesJiandong Feng et al. | 2015
- 1077
-
Hierarchically arranged helical fibre actuators driven by solvents and vapoursPeining Chen et al. | 2015
- 1084
-
Graphic design for scientistsKaren Cheng et al. | 2015