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The Relaxation of Oxygen Vacancies Induced Hysteresis Behavior of Ferroelectric Negative Capacitance Field-Effect Transistors Journal article
Liu, Bingtao, Huan, Changmeng, Cai, Yongqing, Ke, Qingqing. The Relaxation of Oxygen Vacancies Induced Hysteresis Behavior of Ferroelectric Negative Capacitance Field-Effect Transistors[J]. Journal of Electronic Materials, 2024, 53(11), 7057-7064.
Authors:  Liu, Bingtao;  Huan, Changmeng;  Cai, Yongqing;  Ke, Qingqing
Favorite | TC[WOS]:0 TC[Scopus]:0  IF:2.2/1.9 | Submit date:2024/10/10
Ferroelectric Negative Capacitance  Oxygen Vacancies  High-mobility Ions  Hysteresis-free  
Investigating the Reliability of a Negative Capacitance Field Effect Transistor Regarding the Electric Field Across the Oxide Layer Journal article
Liu, Bingtao, Sun, Hanxi, Huan, Changmeng, Jia, Renxu, Cai, Yongqing, Ke, Qingqing. Investigating the Reliability of a Negative Capacitance Field Effect Transistor Regarding the Electric Field Across the Oxide Layer[J]. Journal of Electronic Materials, 2023, 52, 3180-3187.
Authors:  Liu, Bingtao;  Sun, Hanxi;  Huan, Changmeng;  Jia, Renxu;  Cai, Yongqing; et al.
Favorite | TC[WOS]:2 TC[Scopus]:2  IF:2.2/1.9 | Submit date:2023/06/07
Electric Field Distribution  Negative Capacitance  Oxide Reliability  Tcad  
Wideband variable-gain amplifiers based on a pseudo-current steering gain-tuning technique Journal article
Kong, Lingshan, Chen, Yong, Yu, Haohong, Boon, Chirn Chye, Mak, Pui In, Martins, Rui P.. Wideband variable-gain amplifiers based on a pseudo-current steering gain-tuning technique[J]. IEEE Access, 2021, 9, 35814 -35823.
Authors:  Kong, Lingshan;  Chen, Yong;  Yu, Haohong;  Boon, Chirn Chye;  Mak, Pui In; et al.
Favorite | TC[WOS]:5 TC[Scopus]:7  IF:3.4/3.7 | Submit date:2022/01/25
Cmos  Wide-tuning Gain Control  Variable-gain Amplifier (Vga)  Active Inductor  Data-dependent Jitter (Ddj)  Dual-branch Current Mirror  High-speed Transceiver  Negative CapacitaNce (Nc)  Peak-to-peak Jitter  Pseudo-current Steering  
Wideband variable-gain amplifiers based on a pseudo-current-steering gain-tuning technique Journal article
Kong, Lingshan, Chen, Yong, Yu, Haohong, Boon, Chirn Chye, Mak, Pui In, Martins, Rui P.. Wideband variable-gain amplifiers based on a pseudo-current-steering gain-tuning technique[J]. IEEE Access, 2021, 9, 35814-35823.
Authors:  Kong, Lingshan;  Chen, Yong;  Yu, Haohong;  Boon, Chirn Chye;  Mak, Pui In; et al.
Favorite | TC[WOS]:5 TC[Scopus]:7  IF:3.4/3.7 | Submit date:2022/05/13
Active Inductor  Cmos  Data-dependent Jitter (Ddj)  Dual-branch Current Mirror  High-speed Transceiver  Negative CapacitaNce (Nc)  Peak-to-peak Jitter  Pseudo-current Steering  Variable-gain Amplifier (Vga)  Wide-tuning Gain Control  
Wideband Variable-Gain Amplifiers Based on a Pseudo-Current-Steering Gain-Tuning Technique Conference paper
Lingshan Kong, Yong Chen, Haohong Yu, Quan Pan, Chirn Chye Boon, Pui-In Mak, Rui P. Martins. Wideband Variable-Gain Amplifiers Based on a Pseudo-Current-Steering Gain-Tuning Technique[C]:IEEE, 2020, 153-156.
Authors:  Lingshan Kong;  Yong Chen;  Haohong Yu;  Quan Pan;  Chirn Chye Boon; et al.
Favorite | TC[WOS]:4 TC[Scopus]:5 | Submit date:2021/03/09
Variable-gain Amplifier (Vga)  Cmos  Pseudo-current Steering  Wide-tuning Gain Control  Bandwidth (Bw)  High-speed Transceiver  Negative Capacitance  Peak-to-peak Jitter  
0.058 mm(2) 13 Gbit/s inductorless analogue equaliser with low-frequency equalisation compensating 15 dB channel loss Journal article
Balachandran, Arya, Chen, Yong, Choi, Pilsoon, Boon, Chirn Chye. 0.058 mm(2) 13 Gbit/s inductorless analogue equaliser with low-frequency equalisation compensating 15 dB channel loss[J]. ELECTRONICS LETTERS, 2018, 54(2).
Authors:  Balachandran, Arya;  Chen, Yong;  Choi, Pilsoon;  Boon, Chirn Chye
Favorite | TC[WOS]:6 TC[Scopus]:9  IF:0.7/0.9 | Submit date:2018/10/30
Equalisers  Circuit Feedback  Analogue Circuits  Random Sequences  Binary Sequences  Cmos Analogue Integrated Circuits  Inductorless Analogue Equaliser  Low-frequency Equalisation Compensation  Lfeq  Low-frequency Channel Loss  Active Feedback Topology  Negative Capacitance Circuit  Data Jitter  Pseudorandom Binary Sequence  Cmos Technology  Loss 15 Db  Bit Rate 13 gBit  s  Size 65 Nm  Voltage 1  2 v