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	A 4.5-W, 18.5–24.5-GHz GaN Power Amplifier Employing Chebyshev Matching Technique Journal article Yujia, Wang, Jincheng, Zhang, Yong, Chen, Junyan, Ren, Shunli, Ma. A 4.5-W, 18.5–24.5-GHz GaN Power Amplifier Employing Chebyshev Matching Technique[J]. IEEE Transactions on Very Large Scale Integration (VLSI) Systems, 2023, 31(2), 233-242. Authors: Yujia, Wang; Jincheng, Zhang; Yong, Chen; Junyan, Ren; Shunli, Ma Favorite \| TC[WOS]:2 TC[Scopus]:5 IF:2.8/2.8 \| Submit date：2023/01/30 Chebyshev Matching Technique Gallium Nitride (Gan) Power Added Efficiency (Pae) Power Amplifier (Pa) Satellite Communication Wideband Matching Network
	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]:10 TC[Scopus]:10 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
	Pure 2D Perovskite Formation by Interfacial Engineering Yields a High Open-Circuit Voltage beyond 1.28 V for 1.77-eV Wide-Bandgap Perovskite Solar Cells Journal article He, Rui, Yi, Zongjin, Luo, Yi, Luo, Jincheng, Wei, Qi, Lai, Huagui, Huang, Hao, Zou, Bingsuo, Cui, Guangyao, Wang, Wenwu, Xiao, Chuanxiao, Ren, Shengqiang, Chen, Cong, Wang, Changlei, Xing, Guichuan, Fu, Fan, Zhao, Dewei. Pure 2D Perovskite Formation by Interfacial Engineering Yields a High Open-Circuit Voltage beyond 1.28 V for 1.77-eV Wide-Bandgap Perovskite Solar Cells[J]. Advanced Science, 2022, 9(36). Authors: He, Rui; Yi, Zongjin; Luo, Yi; Luo, Jincheng; Wei, Qi; et al. Favorite \| TC[WOS]:36 TC[Scopus]:37 IF:14.3/16.3 \| Submit date：2023/01/30 Interfacial Passivation Organic Arylammonium Salts Perovskite Solar Cells Wide-bandgap Perovskites
	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
	A 23- to 28-GHz 5-bit switch-type phase shifter with 1-bit calibration based on optimized ABCD matrix design methods for 5G MIMO system in 0.15-μm GaAs Journal article Zhang, Zhiyang, Nie, Lihe, Zhang, Jincheng, Wu, Tianxiang, Chen, Yong, Ren, Junyan, Ma, Shunli. A 23- to 28-GHz 5-bit switch-type phase shifter with 1-bit calibration based on optimized ABCD matrix design methods for 5G MIMO system in 0.15-μm GaAs[J]. International Journal of Circuit Theory and Applications, 2022, 50(6), 1834-1854. Authors: Zhang, Zhiyang; Nie, Lihe; Zhang, Jincheng; Wu, Tianxiang; Chen, Yong; et al. Favorite \| TC[WOS]:5 TC[Scopus]:6 IF:1.8/1.7 \| Submit date：2022/05/17 Fifth-generation Impedance Matching Phase Shifter Phased-array System Switch-type
	A 6.5-mm2 10.5-to-15.5-GHz Differential GaN PA with Coupled-Line-Based Matching Networks Achieving 10-W Peak Psat and 42% PAE Journal article Zhang, Jincheng, Nie, Lihe, Chen, Yong, Ren, Junyan, Ma, Shunli. A 6.5-mm2 10.5-to-15.5-GHz Differential GaN PA with Coupled-Line-Based Matching Networks Achieving 10-W Peak Psat and 42% PAE[J]. IEEE TRANSACTIONS ON CIRCUITS AND SYSTEMS II-EXPRESS BRIEFS, 2022, 69(11), 4268-4272. Authors: Zhang, Jincheng; Nie, Lihe; Chen, Yong; Ren, Junyan; Ma, Shunli Favorite \| TC[WOS]:10 TC[Scopus]:15 IF:4.0/3.7 \| Submit date：2022/08/05 Broadband Matching Coupled-line Differential Gan Ku-band Power Amplifier (Pa) Power Combiner
	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)
	A 3-to-78GHz Differential Distributed Amplifier with Ultra- Balanced Active Balun and Gain Boosting Techniques in 65-nm CMOS Process Conference paper Zhang, Jincheng, Wu, Tianxiang, Chen, Yong, Ren, Junyan, Ma, Shunli. A 3-to-78GHz Differential Distributed Amplifier with Ultra- Balanced Active Balun and Gain Boosting Techniques in 65-nm CMOS Process[C], IEEE, 345 E 47TH ST, NEW YORK, NY 10017 USA:IEEE, 2021. Authors: Zhang, Jincheng; Wu, Tianxiang; Chen, Yong; Ren, Junyan; Ma, Shunli Favorite \| TC[WOS]:0 TC[Scopus]:3 \| Submit date：2022/05/13
	High accuracy error estimates of a Galerkin finite element method for nonlinear time fractional diffusion equation Journal article Ren,Jincheng, Shi,Dongyang, Vong,Seakweng. High accuracy error estimates of a Galerkin finite element method for nonlinear time fractional diffusion equation[J]. NUMERICAL METHODS FOR PARTIAL DIFFERENTIAL EQUATIONS, 2019, 36(2), 284-301. Authors: Ren,Jincheng; Shi,Dongyang; Vong,Seakweng Favorite \| TC[WOS]:14 TC[Scopus]:15 IF:2.1/2.8 \| Submit date：2021/03/09 Fast Convolution Algorithm Galerkin Finite Element Method Nonlinear Time Fractional Diffusion Equation Superconvergent Result

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