Multilevel resistance state tuned by change in crystallization mode of superlattice-like Sb/Si3N4 films-Reference-Cited by-同舟云学术

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Multilevel resistance state tuned by change in crystallization mode of superlattice-like Sb/Si3N4 films

Published:2023-05 Issue: Volume:161 Page:112152
ISSN:0025-5408
Container-title:Materials Research Bulletin
language:en
Short-container-title:Materials Research Bulletin

Author:

Wu Yuntao,Cai Linying,Miao Libo,Wang Ziyang,Lu Yegang

Funder

National Natural Science Foundation of China

Natural Science Foundation of Zhejiang Province

Natural Science Foundation of Ningbo Municipality

Ningbo Municipal Natural Science Foundation

Publisher

Elsevier BV

Subject

Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics,General Materials Science

Reference32 articles.

1. New concept of 3D bio-inspired solar thermal collector;Fraisse;Solar Energy,2020

2. Optimizing heat-absorption efficiency of phase change materials by mimicking leaf vein morphology;Liu;Appl. Energy,2020

3. Graphene quantum dots coated VO2 arrays for highly durable electrodes for Li and Na ion batteries;Chao;Nano Lett.,2015

4. Toward fast neural computing using all-photonic phase change spiking neurons;Chakraborty;Sci. Rep.,2018

5. Photonic in-memory computing primitive for spiking neural networks using phase-change materials;Chakraborty;Phys. Rev. Appl.,2019

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1. Interface-controlled growth-dominated crystallization enables ultralow resistance drift in GeTe/Sb2Te3 phase-change heterostructure thin films;Journal of Alloys and Compounds;2024-08

2. Study on the modulation of sb phase change thin films and device properties by MoTe2 heterojunction layer;Journal of Materials Science: Materials in Electronics;2024-05

3. Enhanced Thermal Stability and Suppressed Resistance Drift of Sb70Se30 Phase-Change Thin Films by Adding HfO2 Interlayers;Journal of Electronic Materials;2024-01-05

4. Samarium addition-mediated simultaneous achievement of excellent resistance drift and superior thermal stability in phase-change compound antimony-selenium thin film;Ceramics International;2024-01

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