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Highly enhanced photocatalytic performance for CO2 reduction on NH2-MIL-125(Ti): The impact of (Cu, Mn) co-incorporation Journal article
Gu, Wenhao, Feng, Jinxian, Lv, Xingshuai, Fai Ip, Weng, Pan, Hui. Highly enhanced photocatalytic performance for CO2 reduction on NH2-MIL-125(Ti): The impact of (Cu, Mn) co-incorporation[J]. Separation and Purification Technology, 2025, 359, 130323.
Authors:  Gu, Wenhao;  Feng, Jinxian;  Lv, Xingshuai;  Fai Ip, Weng;  Pan, Hui
Favorite | TC[WOS]:0 TC[Scopus]:0  IF:8.1/7.6 | Submit date:2025/01/22
Charge Separation  Concentration Quenching Effect  Intermediate Energy Level  Oxygen Vacancy  Visible-light-harvesting  
All-textile 3D triboelectric nanogenerator derived from bidirectional cross-weaving binary-yarns for bio-motion energy harvesting and sensing Journal article
Zhong, Qiao, Mao, Yongyun, Zhou, Bingpu, Hu, Wanbiao. All-textile 3D triboelectric nanogenerator derived from bidirectional cross-weaving binary-yarns for bio-motion energy harvesting and sensing[J]. Chemical Engineering Journal, 2025, 504.
Authors:  Zhong, Qiao;  Mao, Yongyun;  Zhou, Bingpu;  Hu, Wanbiao
Favorite | TC[WOS]:0 TC[Scopus]:0  IF:13.3/13.2 | Submit date:2025/01/22
Bio-motion Energy Harvesting  Tactile Sensing  Textile  Triboelectric Nanogenerator (Teng)  Yarn  
High-Efficiency Ultrasound Energy Harvesting Interface With Auto-Calibrated Timing Control From -25 °C to 85 °C Journal article
Zhao, Guangshu, Xie, Chao, Wang, Chenxi, Zhang, Milin, Law, Man Kay. High-Efficiency Ultrasound Energy Harvesting Interface With Auto-Calibrated Timing Control From -25 °C to 85 °C[J]. IEEE Journal of Solid-State Circuits, 2024.
Authors:  Zhao, Guangshu;  Xie, Chao;  Wang, Chenxi;  Zhang, Milin;  Law, Man Kay
Favorite | TC[WOS]:0 TC[Scopus]:0  IF:4.6/5.6 | Submit date:2024/12/26
Adaptive Time Control  Auto-calibration  Bias-flip Interface  Energy Harvesting  High Efficiency  Piezoelectric Transducer (Pzt)  Ultrasound  
A Single-Input RF Energy-Harvesting Interface With Compensated-CEPE Control and 3-D Hill-Climbing MPPT Achieving - 28.5-dBm Sensitivity Journal article
Chen, Qiujin, Xia, Tian, Hu, Tingxu, Wang, Yuanfei, Lu, Yan, Martins, Rui P., Huang, Mo. A Single-Input RF Energy-Harvesting Interface With Compensated-CEPE Control and 3-D Hill-Climbing MPPT Achieving - 28.5-dBm Sensitivity[J]. IEEE Journal of Solid-State Circuits, 2024.
Authors:  Chen, Qiujin;  Xia, Tian;  Hu, Tingxu;  Wang, Yuanfei;  Lu, Yan; et al.
Favorite | TC[WOS]:0 TC[Scopus]:0  IF:4.6/5.6 | Submit date:2025/01/13
Energy Harvesting  Maximum Power Point Tracking (Mppt)  Rf  Single-ended Rectifier  Temperature Consistency  
0.4-V Supply, 12-nW Reverse Bandgap Voltage Reference With Single BJT and Indirect Curvature Compensation Journal article
Lee, Chon Fai, Chi-Wa, U., Martins, Rui P., Lam, Chi Seng. 0.4-V Supply, 12-nW Reverse Bandgap Voltage Reference With Single BJT and Indirect Curvature Compensation[J]. IEEE Transactions on Circuits and Systems I-Regular Papers, 2024, 71(11), 5040-5053.
Authors:  Lee, Chon Fai;  Chi-Wa, U.;  Martins, Rui P.;  Lam, Chi Seng
Favorite | TC[WOS]:0 TC[Scopus]:0  IF:5.2/4.5 | Submit date:2024/12/05
Bandgap Voltage Reference  Reverse Bandgap  Nonlinear Current  Leakage Current  Temperature Coefficient  Internet Of Things  Energy Harvesting  
A -28.5-dBm Sensitivity RF Energy Harvesting Interface with 3-D MPPT Achieving > 98% MPPT Accuracy and Good Temperature Consistency Conference paper
CHEN QIUJIN, HUANG MO, XIA TIAN, HU TINGXU, R. P. MARTINS, LU YAN. A -28.5-dBm Sensitivity RF Energy Harvesting Interface with 3-D MPPT Achieving > 98% MPPT Accuracy and Good Temperature Consistency[C]:Institute of Electrical and Electronics Engineers Inc., 2024, 544-547.
Authors:  CHEN QIUJIN;  HUANG MO;  XIA TIAN;  HU TINGXU;  R. P. MARTINS; et al.
Favorite | TC[WOS]:0 TC[Scopus]:1 | Submit date:2024/11/28
Maximum Power Point Trackers  Temperature Sensors  Temperature Measurement  Radio Frequency  Semiconductor Device Modeling  Sensitivity  Accuracy  Sensors  Impedance  Energy Harvesting  Single-ended-rectifier  Mppt  Temperatures  
A Complementary Drain-Grounded VCO-PA Improving Transmit Efficiency Over a Wide EIRP Range Journal article
Yang, Zhizhan, Yin, Jun, Martins, Rui P., Mak, Pui In. A Complementary Drain-Grounded VCO-PA Improving Transmit Efficiency Over a Wide EIRP Range[J]. IEEE Transactions on Circuits and Systems II-Express Briefs, 2024, 71(10), 4422-4426.
Authors:  Yang, Zhizhan;  Yin, Jun;  Martins, Rui P.;  Mak, Pui In
Favorite | TC[WOS]:1 TC[Scopus]:1  IF:4.0/3.7 | Submit date:2024/06/05
Voltage-controlled Oscillator  Power Amplifier  Transmitter Power Efficiency  Energy Harvesting  Ultra-low Power Transmitter  Loop Antenna  
Piezoelectric Energy Harvesting Interface Using Self-Bias-Flip Rectifier and Switched-PEH DC-DC for MPPT Journal article
Li, Zhen, Wang, Jing, Law, Man Kay, Du, Sijun, Liang, Junrui, Cheng, Xu, Han, Jun, Zeng, Xiaoyang, Chen, Zhiyuan. Piezoelectric Energy Harvesting Interface Using Self-Bias-Flip Rectifier and Switched-PEH DC-DC for MPPT[J]. IEEE JOURNAL OF SOLID-STATE CIRCUITS, 2024, 59(7), 2248-2259.
Authors:  Li, Zhen;  Wang, Jing;  Law, Man Kay;  Du, Sijun;  Liang, Junrui; et al.
Favorite | TC[WOS]:9 TC[Scopus]:8  IF:4.6/5.6 | Submit date:2024/08/05
Energy Harvesting  Flipping Efficiency  Fully Integrated  Maximum Output Power Improving Rate (Mopir)  Maximum Power Point Track (Mppt)  Multi-input  Piezoelectric  Self-bias-flip  Switched-piezoelectric Energy Harvester (Peh) Dc-dc (Spdc)  
A 1.58-nA CEPE-Based Hill-Climbing MPPT Technique with Compensated Ton Achieving 67.3% Efficiency at 10-nA Lload and > 97% MPPT Efficiency at VCR from 2 to 6 Conference paper
Chen, Qiujin, Xia, Tian, Hu, Tingxu, Wang, Yuanfei, Huang, Mo, Martins, Rui P., Lu, Yan. A 1.58-nA CEPE-Based Hill-Climbing MPPT Technique with Compensated Ton Achieving 67.3% Efficiency at 10-nA Lload and > 97% MPPT Efficiency at VCR from 2 to 6[C]:Institute of Electrical and Electronics Engineers Inc., 2024.
Authors:  Chen, Qiujin;  Xia, Tian;  Hu, Tingxu;  Wang, Yuanfei;  Huang, Mo; et al.
Favorite | TC[WOS]:3 TC[Scopus]:3 | Submit date:2024/06/05
Switching Frequency  Switches  Dc-dc Power Converters  Generators  Internet Of Things  Impedance  Energy Harvesting  
Exploiting Intelligent Reflecting Surfaces for Interference Channels with SWIPT Journal article
Gao, Ying, Wu, Qingqing, Chen, Wen, Wu, Celimuge, Ng, Derrick Wing Kwan, Al-Dhahir, Naofal. Exploiting Intelligent Reflecting Surfaces for Interference Channels with SWIPT[J]. IEEE Transactions on Wireless Communications, 2024, 23(5), 4442-4458.
Authors:  Gao, Ying;  Wu, Qingqing;  Chen, Wen;  Wu, Celimuge;  Ng, Derrick Wing Kwan; et al.
Favorite | TC[WOS]:2 TC[Scopus]:3  IF:8.9/8.6 | Submit date:2024/06/05
Energy Harvesting  Intelligent Reflecting Surface  Interference Channel  Resource Allocation  Swipt