Laser‐Induced Cooperative Transition in Molecular Electronic Crystal (Adv. Mater. 39/2021)

Supramolecular Electronic Crystals The cooperative tuning of a supramolecular electronic crystal enables access to a long‐lived hidden conducting phase with a broad temperature range from 2 to 360 K, through a pulsed electromagnetic field. In article number 2103000, Shenqiang Ren and co‐workers demo...

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Bibliographic Details
Published in:Advanced materials (Weinheim) 2021-10, Vol.33 (39), p.n/a
Main Authors: Hu, Yong, Adhikari, Dasharath, Tan, Andrew, Dong, Xi, Zhu, Taishan, Wang, Xiaoyu, Huang, Yulong, Mitchell, Travis, Yao, Ziheng, Dasenbrock‐Gammon, Nathan, Snider, Elliot, Dias, Ranga P., Huang, Chuankun, Kim, Richard, Neuhart, Ian, Ali, Ahmed H., Zhang, Jiawei, Bechtel, Hans A., Martin, Michael C., Corder, Stephanie N. Gilbert, Hu, Feng, Li, Zheng, Armstrong, Jason N., Wang, Jigang, Liu, Mengkun, Benedict, Jason, Zurek, Eva, Sambandamurthy, Ganapathy, Grossman, Jeffrey C., Zhang, Pengpeng, Ren, Shenqiang
Format: Article
Language:English
Subjects:
bistability
Crystals
Decoupling
dimerization
Electromagnetic fields
electronic crystals
hidden phases
MATERIALS SCIENCE
photoexcitation
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Summary:Supramolecular Electronic Crystals The cooperative tuning of a supramolecular electronic crystal enables access to a long‐lived hidden conducting phase with a broad temperature range from 2 to 360 K, through a pulsed electromagnetic field. In article number 2103000, Shenqiang Ren and co‐workers demonstrate a a dynamic and cooperative phase in K‐TCNQ, with the control of pulsed electromagnetic excitation. A dedicated charge–spin–lattice decoupling is required to activate and subsequently stabilize the non‐equilibrium phase.
ISSN:0935-9648
1521-4095
DOI:10.1002/adma.202170309