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Unlocking the critical roles of N, P Co-Doping in MXene for Lithium-Oxygen Batteries: Elevated d-Band center and expanded interlayer spacing Journal article
Wang, Zhonghua, Dong, Zhen, Wu, Bangjun, Wang, Zhongquan, Qiu, Zhenping, Wang, Da, Zeng, Qingguang, Liu, Xiaolu, Nam Hui, Kwun, Liu, Zheng, Zhang, Yelong. Unlocking the critical roles of N, P Co-Doping in MXene for Lithium-Oxygen Batteries: Elevated d-Band center and expanded interlayer spacing[J]. Journal of Colloid and Interface Science, 2024, 676, 368-377.
Authors:  Wang, Zhonghua;  Dong, Zhen;  Wu, Bangjun;  Wang, Zhongquan;  Qiu, Zhenping; et al.
Favorite | TC[WOS]:5 TC[Scopus]:5  IF:9.4/8.2 | Submit date:2024/08/05
D-band Center  Interlayer Spacing  Li-o2 Batteries  Mxene  n, p Co-doping  
3-D printed triple-band metasurface filter based on groove gap waveguide technology Journal article
Gao, Qiyue, Zhou, Xin, Huang, Nengcai. 3-D printed triple-band metasurface filter based on groove gap waveguide technology[J]. Materials and Design, 2024, 244, 113127.
Authors:  Gao, Qiyue;  Zhou, Xin;  Huang, Nengcai
Favorite | TC[WOS]:0 TC[Scopus]:0  IF:7.6/8.4 | Submit date:2024/08/05
3-d Printing  Bandpass Filter (Bpf)  Groove Gap Waveguide (Ggw)  Metasurface  Triple-band  
3-D Printed Multiband Filtering Crossovers Based on Mixed Spherical Cavity Resonators Journal article
Feng, Shuai, Zhang, Gang, Yang, Yang, Zhou, Xin, Hong, Jiasheng. 3-D Printed Multiband Filtering Crossovers Based on Mixed Spherical Cavity Resonators[J]. IEEE MICROWAVE AND WIRELESS TECHNOLOGY LETTERS, 2024, 34(7), 903-906.
Authors:  Feng, Shuai;  Zhang, Gang;  Yang, Yang;  Zhou, Xin;  Hong, Jiasheng
Favorite | TC[WOS]:0 TC[Scopus]:0  IF:0/0 | Submit date:2024/06/05
3-d Printed  Dual Band  Filtering Crossover  Hemispherical Cavity Resonator (Hcr)  
Compact mm-Wave 3-D-Printing Filtering Magic-T Based on Half-Mode Groove Gap Waveguide Journal article
Huang, Nengcai, Zhang, Gang, Tam, Kam Weng, Hong, Jiasheng, Yang, Jiquan, Lu, Jing, Gu, Hongtao. Compact mm-Wave 3-D-Printing Filtering Magic-T Based on Half-Mode Groove Gap Waveguide[J]. IEEE Microwave and Wireless Technology Letters, 2024, 34(7), 895-898.
Authors:  Huang, Nengcai;  Zhang, Gang;  Tam, Kam Weng;  Hong, Jiasheng;  Yang, Jiquan; et al.
Favorite | TC[WOS]:1 TC[Scopus]:1  IF:0/0 | Submit date:2024/06/05
3-d Printing  Band-pass Filters  Bandpass Filter (Bpf)  Couplings  Filtering  Half-mode Groove Gap Waveguide (Hm-ggw)  Magic-t  Magnetic Resonance  Pins  Resonators  Wireless Communication  
Topological tailoring-induced Dirac cone in ultrathin niobium diboride nanosheets for electrocatalytic sulfur reduction reaction Journal article
Zhao, Yuwei, Zhang, Linghai, Xiang, Jianglu, Chen, Xinyu, Zhu, Chao, Wang, Kaixi, Li, Junfeng, Ma, Huifang, Song, Xuefen, Wang, Lin, Zha, Chenyang. Topological tailoring-induced Dirac cone in ultrathin niobium diboride nanosheets for electrocatalytic sulfur reduction reaction[J]. Materials Today Physics, 2023, 32, 101029.
Authors:  Zhao, Yuwei;  Zhang, Linghai;  Xiang, Jianglu;  Chen, Xinyu;  Zhu, Chao; et al.
Favorite | TC[WOS]:10 TC[Scopus]:9  IF:10.0/9.8 | Submit date:2023/04/03
Catalytic Reaction  D-band Center  Dirac Materials  Lithium Sulfur Battery  Weyl Fermions  
Tailoring WB morphology enables d-band centers to be highly active for high-performance lithium-sulfur battery Journal article
Zhao, Yuwei, Liu, Chang, Zha,Chenyang, Li, Jing, Lyu, Chongguang, Wang, Kaixi, Li, Junfeng, Hui, Kwan San, Zhang, Linghai, Hui, Kwun Nam. Tailoring WB morphology enables d-band centers to be highly active for high-performance lithium-sulfur battery[J]. Chinese Chemical Letters, 2023, 34(11), 108189.
Authors:  Zhao, Yuwei;  Liu, Chang;  Zha,Chenyang;  Li, Jing;  Lyu, Chongguang; et al.
Favorite | TC[WOS]:10 TC[Scopus]:9  IF:9.4/7.3 | Submit date:2023/02/07
D-band Centers  Tungsten Borides  Electrocatalysis  Nanosheet  Lithium-sulfur Battery  
A 124-to-152-GHz Power Amplifier Exploiting Chebyshev-Type Two-Section Wideband and Low-Loss Power-Combining Technique in 28-nm CMOS Journal article
Zhang, Jincheng, Wang, Yujia, Chen, Yong, Ren, Junyan, Ma, Shunli. A 124-to-152-GHz Power Amplifier Exploiting Chebyshev-Type Two-Section Wideband and Low-Loss Power-Combining Technique in 28-nm CMOS[J]. IEEE Transactions on Microwave Theory and Techniques, 2022, 71(5), 1852-1865.
Authors:  Zhang, Jincheng;  Wang, Yujia;  Chen, Yong;  Ren, Junyan;  Ma, Shunli
Favorite | TC[WOS]:11 TC[Scopus]:11  IF:4.1/4.2 | Submit date:2023/06/05
Chebyshev  Cmos  Coupled Resonator  D-band  Power Amplifier (Pa)  Slow Wave Coplanar Waveguide (S-cpw)  Transformer  Two-section Wideband Power Combining  
A 124-152 GHz > 15-dBm Psat28-nm CMOS PA Using Chebyshev Artificial-Transmission-Line-Based Matching for Wideband Power Splitting and Combining Conference paper
Jincheng Zhang, Tianxiang Wu, Yong Chen, Junyan Ren, Shunli Ma. A 124-152 GHz > 15-dBm Psat28-nm CMOS PA Using Chebyshev Artificial-Transmission-Line-Based Matching for Wideband Power Splitting and Combining[C], 2022, 187-190.
Authors:  Jincheng Zhang;  Tianxiang Wu;  Yong Chen;  Junyan Ren;  Shunli Ma
Favorite | TC[WOS]:2 TC[Scopus]:5 | Submit date:2023/01/30
Cmos  d Band  Power Amplifier (p a)  Power Combining  Wideband  
Interfacial gradient energy band alignment modulation via ion exchange reaction toward efficient and stable methylammonium-free Dion-Jacobson quasi-2D perovskite solar cells Journal article
Su, Pengyu, Bai, Le, Bi, Huan, Liu, Baibai, Chen, Shi, Lee, Donghwa, Yang, Hua, Chen, Cong, Zang, Zhigang, Chen, Jiangzhao. Interfacial gradient energy band alignment modulation via ion exchange reaction toward efficient and stable methylammonium-free Dion-Jacobson quasi-2D perovskite solar cells[J]. JOURNAL OF POWER SOURCES, 2021, 506, 230213.
Authors:  Su, Pengyu;  Bai, Le;  Bi, Huan;  Liu, Baibai;  Chen, Shi; et al.
Favorite | TC[WOS]:19 TC[Scopus]:20  IF:8.1/8.3 | Submit date:2021/10/02
Dion-jacobson Perovskite  Gradient Energy Band Alignment  Ion Exchange  Methylammonium-free  Quasi-2d Perovskite Solar Cells  
A 120-150 GHz Power Amplifier in 28-nm CMOS Achieving 21.9-dB Gain and 11.8-dBm Psatfor Sub-THz Imaging System Journal article
Zhang, Jincheng, Wu, Tianxiang, Nie, Lihe, Ma, Shunli, Chen, Yong, Ren, Junyan. A 120-150 GHz Power Amplifier in 28-nm CMOS Achieving 21.9-dB Gain and 11.8-dBm Psatfor Sub-THz Imaging System[J]. IEEE Access, 2021, 9, 74752-74762.
Authors:  Zhang, Jincheng;  Wu, Tianxiang;  Nie, Lihe;  Ma, Shunli;  Chen, Yong; et al.
Favorite | TC[WOS]:23 TC[Scopus]:27  IF:3.4/3.7 | Submit date:2021/10/28
Cmos  D-band  Frequency Modulated Continuous Wave (Fmcw)  Imaging System  Power Amplifier (Pa)  Power Combining  Sub-terahertz (Sub-thz)