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Ti-Sb-Te Phase Change Materials: Component Optimisation, Mechanism and Applications

Zhu, Min
Heftet / 2018 / Engelsk

Produktdetaljer

ISBN
9789811351235
Publisert
2018-12-12
Utgiver
Vendor
Springer Verlag, Singapore
Høyde
235 mm
Bredde
155 mm
Aldersnivå
Research, P, 06
Språk
Product language
Engelsk
Format
Product format
Heftet

Forfatter
Zhu, Min

Biographical note

Min Zhu received his B.Sc. in Electronics Science and Technology from Hubei University, China in 2009, and completed his Ph.D. in Microelectronics and Solid-State Electronics at Shanghai Institute of Microsystem and Information Technology, Chinese Academy of Sciences in 2014. His major research project in Prof. Zhitang Song’s group concerned a Ti-Sb-Te alloy for high-speed and low-power phase change memory. Subsequently, he received an Alexander von Humboldt Research Fellowship and became a post-doctoral fellow working with Prof. Matthias Wuttig at RWTH Aachen University, investigating the crystallization behavior of phase change materials.

Ti-Sb-Te Phase Change Materials: Component Optimisation, Mechanism and Applications

Zhu, Min
Heftet / 2018 / Engelsk
Zhu, Min
Heftet / 2018 / Engelsk
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This book introduces a novel Ti-Sb-Te alloy for high-speed and low-power phase-change memory applications, which demonstrates a phase-change mechanism that differs significantly from that of conventional Ge2Sb2Te5 and yields favorable overall performance. Systematic methods, combined with better material characteristics, are used to optimize the material components and device performance. Subsequently, a phase-change memory chip based on the optimized component is successfully fabricated using 40-nm complementary metal-oxide semiconductor technology, which offers a number of advantages in many embedded applications.
Les mer
This book introduces a novel Ti-Sb-Te alloy for high-speed and low-power phase-change memory applications, which demonstrates a phase-change mechanism that differs significantly from that of conventional Ge2Sb2Te5 and yields favorable overall performance.
Les mer
Acknowledge.- Abstract.- Introduction.- Component Optimization of Sb-Te in Ti-Sb-Te Phase Change Materials.- Component Optimization of Ti in Ti-Sb2Te3 Phase Change Materials.- Optimization Component Ti0.43Sb2Te3.- Influence of Temperature on Performance of Ti0.43Sb2Te3 Based Device.- Phase Change Mechanism of Ti0.43Sb2Te3 Alloy.- Ti0.43Sb2Te3 Based Phase Change Memory Chip.- Summary.- References.- Published Papers and Patents.- Bibliography.
Les mer
This book introduces a novel Ti-Sb-Te alloy for high-speed and low-power phase-change memory applications, which demonstrates a phase-change mechanism that differs significantly from that of conventional Ge2Sb2Te5 and yields favorable overall performance. Systematic methods, combined with better material characteristics, are used to optimize the material components and device performance. Subsequently, a phase-change memory chip based on the optimized component is successfully fabricated using 40-nm complementary metal-oxide semiconductor technology, which offers a number of advantages in many embedded applications.
Les mer
Nominated as an outstanding thesis by the University of Chinese Academy of Sciences Proposes a novel Ti-Sb-Te alloy for high-speed and low-power phase change memory Covers both the mechanism and component optimizations of the Ti-Sb-Te alloy, as well as its applications in phase-change memory chips Includes supplementary material: sn.pub/extras
Les mer

Relaterte produkter

This book introduces a novel Ti-Sb-Te alloy for high-speed and low-power phase-change memory applications, which demonstrates a phase-change mechanism that differs significantly from that of conventional Ge2Sb2Te5 and yields favorable overall performance. Systematic methods, combined with better material characteristics, are used to optimize the material components and device performance. Subsequently, a phase-change memory chip based on the optimized component is successfully fabricated using 40-nm complementary metal-oxide semiconductor technology, which offers a number of advantages in many embedded applications.
Les mer
This book introduces a novel Ti-Sb-Te alloy for high-speed and low-power phase-change memory applications, which demonstrates a phase-change mechanism that differs significantly from that of conventional Ge2Sb2Te5 and yields favorable overall performance.
Les mer
Acknowledge.- Abstract.- Introduction.- Component Optimization of Sb-Te in Ti-Sb-Te Phase Change Materials.- Component Optimization of Ti in Ti-Sb2Te3 Phase Change Materials.- Optimization Component Ti0.43Sb2Te3.- Influence of Temperature on Performance of Ti0.43Sb2Te3 Based Device.- Phase Change Mechanism of Ti0.43Sb2Te3 Alloy.- Ti0.43Sb2Te3 Based Phase Change Memory Chip.- Summary.- References.- Published Papers and Patents.- Bibliography.
Les mer
This book introduces a novel Ti-Sb-Te alloy for high-speed and low-power phase-change memory applications, which demonstrates a phase-change mechanism that differs significantly from that of conventional Ge2Sb2Te5 and yields favorable overall performance. Systematic methods, combined with better material characteristics, are used to optimize the material components and device performance. Subsequently, a phase-change memory chip based on the optimized component is successfully fabricated using 40-nm complementary metal-oxide semiconductor technology, which offers a number of advantages in many embedded applications.
Les mer
Nominated as an outstanding thesis by the University of Chinese Academy of Sciences Proposes a novel Ti-Sb-Te alloy for high-speed and low-power phase change memory Covers both the mechanism and component optimizations of the Ti-Sb-Te alloy, as well as its applications in phase-change memory chips Includes supplementary material: sn.pub/extras
Les mer

Produktdetaljer

ISBN
9789811351235
Publisert
2018-12-12
Utgiver
Vendor
Springer Verlag, Singapore
Høyde
235 mm
Bredde
155 mm
Aldersnivå
Research, P, 06
Språk
Product language
Engelsk
Format
Product format
Heftet

Forfatter
Zhu, Min

Biographical note

Min Zhu received his B.Sc. in Electronics Science and Technology from Hubei University, China in 2009, and completed his Ph.D. in Microelectronics and Solid-State Electronics at Shanghai Institute of Microsystem and Information Technology, Chinese Academy of Sciences in 2014. His major research project in Prof. Zhitang Song’s group concerned a Ti-Sb-Te alloy for high-speed and low-power phase change memory. Subsequently, he received an Alexander von Humboldt Research Fellowship and became a post-doctoral fellow working with Prof. Matthias Wuttig at RWTH Aachen University, investigating the crystallization behavior of phase change materials.

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