Author
Listed:
- Subhadeep Datta
(Shenzhen University
National University of Singapore)
- Yongqing Cai
(Institute of High Performance Computing, A*STAR)
- Indra Yudhistira
(Centre for Advanced 2D Materials (CA2DM), National University of Singapore)
- Zebing Zeng
(National University of Singapore)
- Yong-Wei Zhang
(Institute of High Performance Computing, A*STAR)
- Han Zhang
(Shenzhen University)
- Shaffique Adam
(Centre for Advanced 2D Materials (CA2DM), National University of Singapore
Yale-NUS College)
- Jishan Wu
(National University of Singapore)
- Kian Ping Loh
(Shenzhen University
National University of Singapore)
Abstract
Coupling spins of molecular magnets to two-dimensional (2D) materials provides a framework to manipulate the magneto-conductance of 2D materials. However, with most molecules, the spin coupling is usually weak and devices fabricated from these require operation at low temperatures, which prevents practical applications. Here, we demonstrate field-effect transistors based on the coupling of a magnetic molecule quinoidal dithienyl perylenequinodimethane (QDTP) to 2D materials. Uniquely, QDTP switches from a spin-singlet state at low temperature to a spin-triplet state above 370 K, and the spin transition can be electrically transduced by both graphene and molybdenum disulphide. Graphene-QDTP shows hole-doping and a large positive magnetoresistance ( ~ 50%), while molybdenum disulphide-QDTP demonstrates electron-doping and a switch to large negative magnetoresistance ( ~ 100%) above the magnetic transition. Our work shows the promise of spin detection at high temperature by coupling 2D materials and molecular magnets.
Suggested Citation
Subhadeep Datta & Yongqing Cai & Indra Yudhistira & Zebing Zeng & Yong-Wei Zhang & Han Zhang & Shaffique Adam & Jishan Wu & Kian Ping Loh, 2017.
"Tuning magnetoresistance in molybdenum disulphide and graphene using a molecular spin transition,"
Nature Communications, Nature, vol. 8(1), pages 1-8, December.
Handle:
RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_s41467-017-00727-w
DOI: 10.1038/s41467-017-00727-w
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