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519. Haoran Sun, Ke Chen, Geethal Amila Gamage, Hamidreza Ziyaee, Fei Wang, Yu, Wang, Victor G. Hadjiev, Fei Tian, Gang Chen, and Zhifeng Ren, “Effects of ¹⁰B and ¹¹B isotopes on the thermal conductivity of boron arsenide”, Materials Today Physics 11, 100169 (2019).

518. Geethal Amila Gamage, Ke Chen, Gang Chen, Fei Tian, Zhifeng Ren, “Effect of nucleation sites on the growth and quality of single-crystal boron arsenide”, Materials Today Physics 11, 100160 (2019).

517. Qiancheng Zhu, Mingyu Cheng, Bowen Zhang, Kai Jin, Shuo Chen, Zhifeng Ren, and Ying Yu, “Realizing a rechargeable high-performance Cu-Zn battery by adjusting the solubility of Cu²⁺”, Advanced Functional Materials 29, 1905979 (2019).

516. Luo Yu, Qing Zhu, Shaowei Song, Brian McElhenny, Dezhi Wang, Chunzheng Wu, Zhaojun Qin, Jiming Bao, Ying Yu, Shuo Chen, and Zhifeng Ren, “Non-noble metal-nitride based electrocatalysts for high-performance alkaline seawater electrolysis”, Nature Communications 10, 5106 (2019).

515. Shan Li, Hangtian Zhu, Jun Mao, Zhenzhen Feng, Xiaofang Li, Chen Chen, Feng Cao, Xingjun Liu, David J. Singh, Zhifeng Ren, and Qian Zhang, “N-type TaCoSn-based half-Heuslers as Promising Thermoelectric Materials”, ACS Applied Materials & Interfaces 11, 41321-41329 (2019).

514. Hamidreza Ziyaee, Geethal Gamage, Haoran Sun, Fei Tian, and Zhifeng Ren, “Thermodynamic calculation and its experimental correlation with the growth process of boron arsenide single crystals”, J. Appl. Phys. 126, 155108 (2019).

513. Zihang Liu, Shuping Guo, Yixuan Wu, Jun Mao, Qing Zhu, Hangtian Zhu, Yanzhong Pei, Jiehe Sui, Yongsheng Zhang, and Zhifeng Ren, “Design of High-Performance Disordered Half-Heusler Thermoelectric Materials Using 18-Electron Rule”, Advanced Functional Materials 29, 1905044 (2019).

512. Liu-Cheng Chen, Pei-Qi Chen, Wei-Jian Li, Qian Zhang, Viktor V. Struzhkin, Alexander F. Goncharov, Zhifeng Ren, and Xiao-Jia Chen, “Enhancement of thermoelectric performance across the topological phase transition in dense lead selenide”, Nature Materials 18, 1321-1326 (2019).

511. Li You, Jiye Zhang, Shanshan Pan, Ying Jiang, Ke Wang, Jiong Yang, Yanzhong Pei, Qing Zhu,Matthias T. Agne, G. Jeffrey Snyder, Zhifeng Ren, Wenqing Zhang, and Jun Luo, “Realization of higher thermoelectric performance by dynamic doping of copper in n-type PbTe”, Energy Environ. Sci. 12, 3089-3098 (2019).

510. Dan Luo, Fanghao Zhang, Zhensong Ren, Wuyang Ren, Luo Yu, Lili Jiang, Bush Ren, Liang Wang, Zhiming Wang, Ying Yu, Qinyong Zhang, and Zhifeng Ren, “An Improved Method to Synthesize Nanoscale Graphene Oxide Using Much Less Acid”, Materials Today Physics 9, 100097 (2019).

509. Yan Wang, Qihan Liu, Jianming Zhang, Tianzeng Hong, Wenting Sun, Lu Tang, Eric Arnold, Zhigang Suo, Wei Hong, Zhifeng Ren, and Chuan Fei Guo, “Giant Poisson’s effect for wrinkle-free stretchable transparent electrodes”, Advanced Materials 31, 1902955 (2019).

508. Dan Luo, Fanghao Zhang, Fazhu Ding, Bushi Ren, and Zhifeng Ren, “Interactions between Amphiphilic Janus Nanosheets and a Nonionic Polymer in Aqueous and Biphasic Systems”, Soft Matter 15, 7472-7478 (2019).

507. Weiwu Chen, Zhaojun Qin, Brian McElhenny, Fanghao Zhang, Shuo Chen, Jiming Bao, Zhiming M. Wang, Hai-Zhi Song, and Zhifeng Ren, “The effect of carbon quantum dots on electrocatalytic hydrogen evolution reaction of manganese-nickel phosphide nanosheets”, J. Materials Chemistry A 7, 21488-21495 (2019).

506. Shaowei Song, Luo Yu, Viktor Hadjiev, Wenyu Zhang, Dezhi Wang, Xin Xiao, Shuo Chen, Qinyong Zhang, and Zhifeng Ren, “A new way to synthesize robust and porous Ni_1-xFe_x layered double hydroxide for efficient electrocatalytic oxygen evolution", ACS Applied Materials & Interfaces 11, 32909-32916 (2019).

505. Geethal Amila Gamage, Haoran Sun, Hamidreza Ziyaee, Fei Tian, and Zhifeng Ren, “Effect of boron sources on the growth of boron arsenide single crystals by chemical vapor transport”, Appl. Phys. Lett. 115, 092103 (2019).

504. Luo Yu, Shaowei Song, Brian McElhenny, Fazhu Ding, Dan Luo, Ying Yu, Shuo Chen, and Zhifeng Ren, “A universal synthesis strategy to make metal nitride electrocatalysts for hydrogen evolution reaction”, Journal of Materials Chemistry A 7, 19728-19732 (2019).

503. Wuyang Ren, Hangtian Zhu, Jun Mao, Li You, Shaowei Song, Tian Tong, Jiming Bao, Jun Luo, Zhiming Wang, and Zhifeng Ren, “Manipulation of Ni Interstitials for Realizing Large Power Factor in TiNiSn-Based Materials”, Advanced Electronic Materials 5, 1900166 (2019).

502. Lili Jiang, Dan Luo, Qinyong Zhang, Sude Ma, Guojiang Wan, Lu Xiong, and Zhifeng Ren, “Electrochemical Performance of Free-standing and Flexible Graphene and TiO₂ Composites with Different Conductive Polymers as Electrodes for Supercapacitors”, Chemistry – A European Journal 25, 7903-7911 (2019).

501. Xi Chen, Chunhua Li, Fei Tian, Geethal Gamage, Sean Sullivan, Jianshi Zhou, David Broido, Zhifeng Ren, and Li Shi, “Thermal Expansion Coefficient and Lattice Anharmonicity of Cubic Boron Arsenide”, Phys. Rev. Applied 11, 064070 (2019).

500. Luo Yu, Xin Ba, Ming Qiu, Yifei Li, Ling Shuai, Wei Zhang, Zhifeng Ren, and Ying Yu, “Visible-Light Driven CO₂ Reduction Coupled with Water Oxidation on Cl-Doped Cu₂O Nanorods”, Nano Energy 60, 576-582 (2019).

499. Hangtian Zhu, Jun Mao, Zhenzhen Feng, Jifeng Sun, Qing Zhu, Zihang Liu, David J. Singh, Yumei Wang, and Zhifeng Ren, “Understanding the asymmetrical thermoelectric performance for discovering promising thermoelectric materials”, Sci. Adv. 5, eaav5813, (2019).

498. Jun Mao, Hangtian Zhu, Zhiwei Ding, Zihang Liu, Geethal Amila Gamage, Gang Chen, and Zhifeng Ren, “High thermoelectric cooling performance of n-type Mg₃Bi₂-based materials”, Science 365, 495-498 (2019).

497. Naiming Liu, S. Emad Rezaei, Wade Aaron Jensen, Shaowei Song, Zhifeng Ren, Keivan Esfarjani, Mona Zebarjadi, and Jerrold Anthony Floro, “Improved Thermoelectric Performance of Eco-Friendly β-FeSi₂–SiGe Nanocomposite via Synergistic Hierarchical Structuring, Phase Percolation, and Selective Doping”, Adv. Funct. Mater., 1903157 (2019).

496. Linyan Wang, Fei Tian, Xiaowei Liang, Yuhao Fu, Xufeng Mu, Jingying Sun, Xiangfeng Zhou, Kun Luo, Yang Zhang, Zhisheng Zhao, Bo Xu, Zhifeng Ren, and Guoying Gao, “High-pressure phases of boron arsenide with potential high thermal conductivity”, Phys. Rev. B. 99, 174104 (2019).

495. Fei Tian, Kun Luo, Chenlong Xie, Bing Liu, Xiaowei Liang, Linyan Wang, Geethal Amila Gamage, Haoran Sun, Hamidreza Ziyaee, Jingying Sun, Zhisheng Zhao, Bo Xu, Guoying Gao, Xiang-Feng Zhou, and Zhifeng Ren, “Mechanical Properties of Boron Arsenide Single Crystal”, Appl. Phys. Lett. 114, 131903 (2019).

494. Hangtian Zhu, Jun Mao, Yuwei Li, Jifeng Sun, Yumei Wang, Qing Zhu, Guannan Li, Qichen Song, Jiawei Zhou, Yuhao Fu, Ran He, Tian Tong, Zihang Liu, Wuyang Ren, Li You, Zhiming Wang, Jun Luo, Andrei Sotnikov, Jiming Bao, Kornelius Nielsch, Gang Chen, David J. Singh, and Zhifeng Ren, “Discovery of TaFeSb-based half-Heuslers with high thermoelectric performance”, Nature Communications 10, 270 (2019).

493. Siya Huang, Yuan Liu, Yue Zhao, Zhifeng Ren, and Chuan Fei Guo, “Flexible Electronics: Stretchable Electrodes and Their Future”, Advanced Functional Materials 29, 1805924 (2019).

492. Chen Chen, Wenhua Xue, Shan Li, Zongwei Zhang, Xiaofang Li, Xinyu Wang, Yijie Liu, Jiehe Sui, Xingjun Liu, Zhifeng Ren, Feng Cao, Yumei Wang, and Qian Zhang, “Zintl Phase Eu₂ZnSb₂: A New Promising Thermoelectric Material with Ultralow Thermal Conductivity”, PNAS 116, 2831-2836 (2019).

491. Fei Tian and Zhifeng Ren, “High Thermal Conductivity in Boron Arsenide: from Prediction to Reality”, Angew. Chem. Int. Ed. 58, 5824-5831 (2019).

490. Jingying Sun, Muqing Ren, Luo Yu, Ze Yang, Lixin Xie, Fei Tian, Ying Yu, Zhifeng Ren, Shuo Chen, and Haiqing Zhou, “Highly efficient hydrogen evolution from a mesoporous hybrid of nickel phosphide nanoparticles anchored on cobalt phosphosulfide/phosphide nanosheet arrays”, Small 15, 1804272 (2019).

489. Lili Jiang, Youjian Li, Dan Luo, Qinyong Zhang, Fanggong Cai, Guojiang Wan, Lu Xiong, and Zhifeng Ren, “Free-standing RGO-Co₃O₄-Polypyrrole composite films as electrodes for supercapacitors”, Energy Technology 7, 1800606 (2019).

488. Shaowei Song, Jun Mao, Mitchell Bordelon, Ran He, Yumei Wang, Jing Shuai, Jingying Sun, Xiaobo Lei, Zhensong Ren, Shuo Chen, Stephen Wilson, Kornelius Nielsch, Qinyong Zhang, and Zhifeng Ren, “Joint Effect of Magnesium and Yttrium on Enhancing Thermoelectric Properties of n-type Zintl Mg_3+δY_0.02Sb_1.5Bi_0.5”, Materials Today Physics 8, 25-33 (2019).

487. Ran He, Wieland Heyn, Felix Thiel, Nicolás Pérez, Christine Damm, Darius Pohl, Bernd Rellinghaus, Christian Reimann, Maximilian Beier, Jochen Friedrich, Hangtian Zhu, Zhifeng Ren, Kornelius Nielsch, and Gabi Schierning, “Thermoelectric properties of silicon and recycled silicon sawing waste”, J Materiomics 5, 15-33 (2019).

486. Dan Luo, Fanghao Zhang, Haotian Zheng, and Zhifeng Ren, “Electrostatic-Attraction-Induced High Internal Phase Emulsion for Large-Scale Synthesis of Amphiphilic Janus Nanosheets”, Chem Comm 55, 1318-1321 (2019).

485. Weiwu Chen, Ishwar Kumar Mishra, Zhaojun Qin, Luo Yu, Haiqing Zhou, Jingying Sun, Fanghao Zhang, Shuo Chen, Gideon Evans Wenya, Ying Yu, Zhiming M. Wang, Hai-Zhi Song, and Zhifeng Ren, “Nickel phosphide based hydrogen producing catalyst with low overpotential and stability at high current density”, Electrochimica Acta 299, 756-761 (2019).

484. Qing Zhu, Shaowei Song, Hangtian Zhu, and Zhifeng Ren, “Realizing High Conversion Efficiency of Mg₃Sb₂-based Thermoelectric Materials”, Journal of Power Sources 414, 393-400 (2019).

483. Udara Saparamadu, Chunhua Li, Ran He, Hangtian Zhu, Zhensong Ren, Jun Mao, Shaowei Song, Jingyin Sun, Shuo Chen, Qinyong Zhang, Kornelius Nielsch, David Broido, and Zhifeng Ren, “Improved Thermoelectric Performance of Tellurium by Alloying with a Small Concentration of Selenium to Decrease Lattice Thermal Conductivity”,ACS Applied Materials & Interfaces 11, 511-516 (2019).

482. Ting Zhou, Jun Mao, Jing Jiang, Shaowei Song, Hangtian Zhu, Qing Zhu, Qinyong Zhang, Wuyang Ren, Zhiming Wang, Chao Wang, and Zhifeng Ren, “Large reduction of thermal conductivity leading to enhanced thermoelectric performance in p-type Mg₃Bi₂–YbMg₂Bi₂ solid solutions”, J. Materials Chemistry C 7, 434-440 (2019).