Plasmon‐Assisted Self‐Encrypted All‐Optical Memory (Adv. Funct. Mater. 2/2023).

Autor: Zhang, Chengyun, Ji, Min, Zhou, Xilin, Mi, Xiaohu, Chen, Huan, Zhang, Baobao, Fu, Zhengkun, Zhang, Zhenglong, Zheng, Hairong
Předmět:
Zdroj: Advanced Functional Materials; 1/10/2023, Vol. 33 Issue 2, p1-1, 1p
Abstrakt: Information encryption, luminescence switch, rare earth oxides, surface plasmon resonance, thermal quenching This study not only provides insight into the unique thermal response of the plasmon resonance in the composite structure but also offers good candidates for self-encrypted binary information storage. Keywords: information encryption; luminescence switch; rare earth oxides; surface plasmon resonance; thermal quenching EN information encryption luminescence switch rare earth oxides surface plasmon resonance thermal quenching 1 1 1 01/12/23 20230110 NES 230110 B Optical Responsive Nanomaterials b In article number 2208561, Zhang, Zheng, and co-workers report that a self-encrypted all-optical memory with ultrahigh switching contrast is realized in Y SB 2 sb O SB 3 sb :Eu SP 3+ sp -Au. [Extracted from the article]
Databáze: Complementary Index