JQHe Research Group

Publications+

  • 262

    262. Lin Xie, and  Jiaqing He*, Dynamics and Lifetimes of Resonant Phonons in Quasiparticle and Non-Quasiparticle RegimesPhys. Rev. B 106 (2022) 174110  (PDF) 

  • 261

    261.  M. Wang, M. He, L. Zhu, B. Ma, F. Zhang, P. Liang, X. Chao, Z. Yang*, J.Q. He, and D. Wu*, Boosting the thermoelectric performance of zinc blende-like Cu2SnSe3 through phase structure and band structure regulationsJournal of Materials Chemistry A, 10 (2022) 12946  (PDF) 

  • 260

    260. Y. Li, B. Ma, L. Zhu, S. Liu, F. Zhang, X. Li, P. Liang, X. Chao, Z. Yang*,  J.Q. He,  and D. Wu*Identifying polymorphic lattice positioning of copper and the effects on the thermoelectric performance of δ-LAST, Materials Today Physics, 27 (2022) 100833  (PDF)

  • 259

    259.  Y. Yu, Lin Xie, Stephen J.Pennycook, Michel. Bosman* and Jiaqing He*, Strain-induced van der Waals gaps in GeTe revealed by in-situ nano-beam diffraction, Science Advances, 8(2022)eadd7690(PDF)

  • 258

    258.  Y. Yu, X. Xu, Y. Wang, B.H.  Jia, S. Huang, X.B. Qiang, B. Zhu, P.J. Lin, B.B. Jiang, S.X. Liu, X. Qi, K.F. Pan, D. Wu, H.Z. Lu, M. Bosman, S. J. Pennycook, L. Xie* and J.Q. He*, Tunable quantum gaps to decouple carrier and phonon transport leading to high-performance thermoelectricsNature Communications, 13(2022)5612, (PDF

  • 257

    257. Xiao Xu, Yi Huang, Xixi Liu, Baohai Jia, Juan Cui, Ran He, Jinghan Wang, Yiyuan Luo, Kornelius Nielsch and Jiaqing He*, Highly Tailored Gap-like Structure for Excellent Thermoelectric Performance, Energy and Environmental Science, 15(2022)4058 (PDF

  • 256

    256.  S.H. Wang, D. Wang, W. Wang, J. Zhong, K. Feng, Z. Wu,  B. Du,  J.Q. He, Z. Li, L. He*, W. Sun*, D. Yang*,  and G.A. Ozin* , Grave-to-Cradle Upcycling of Ni from Electroplating Wastewater to Photothermal CO2 Catalysis, Nature Communications, 13(2022)5305, (PDF

  • 255

    255.  Qianqian Wang, Wu Wang, Min Cao, Sha Li, Pengfei Wang, Jiaqing He, Ruifeng Li, Xiaoliang Yan* , Effect of interstitial carbon atoms in core-shell Ni3ZnC0.7/Al2O3 catalyst for high-performance dry reforming of methaneApplied Catalysis B: Environmetal , 317(2022)121806, (PDF   

  • 254

    254. L.Lou, J. Yang, Y. Zhu, H. Liang, Y. Zhang,J. Feng,  J.Q. He,  Z.-H. Ge* and  L.D. Zhao* Tunable Electrical Conductivity and Simultaneously Enhanced Thermoelectric and Mechanical Properties in n-type Bi2Te3,  Advanced Science24(2022) 2203250(PDF   

  • 253

    253. Pengfei Xu, Wei Zhao, Baohai Jia, Xixi Liu, Jiaqing He* Liangwei Fu*, and Biao Xu*,  Dramatic enhancement of thermoelectric performance in PbTe by unconventional grain shrinking in sintering process,  Advanced Materials, 34(2022)2202949   (PDF  

  • 252

    252.  B.B. Jiang, W. Wang, S. Liu, Y. Wang, C. Wang, Y. Chen, L. Xie, M. Huang and  J.Q. He*, High figure-of-merit and power generation in high-entropy GeTe-based thermoelectrics,  Science, 377(2022) 208-213 (PDF  


  • 250

    251. Bingbing Yang, Yang Zhang, Hao Pan, Wenlong Si, Qinghua Zhang, Zhonghui Shen, Yong Yu, Shun Lan, Fanqi Meng, Yiqian Liu, Houbing Huang, Jiaqing He, Lin Gu, Shujun Zhang, Longqing Chen, Jin Zhu*, Cewen Nan*, and Yuan-Hua Lin*, High-entropy enhanced capacitive energy storageNature Materials, 21(2022)1074-1080 (PDF

  • 249

    250. Songbai Hu, Wenqiao Han, Xiaowen Li, Mao Ye, Yao Lu, Cai Jin, Qi Liu, Junling Wang, Jiaqing He, Claudio Cazorla, Yuamin Zhu*, and Lang Chen*, Converting Brownmillerite to Alternate Layers of Oxygen-Deficient and Conductive Nano-Sheets with Enhanced Thermoelectric Properties, Advanced Energy Materials, 12(2022)2201469 (PDF) 

  • 248

    249. Baohai Jia, Yi Huang, Yan Wang, Yeshiyuan Zhou, Xiaodie Zhao, Suiting Ning, Xiao Xu, Peijian Lin, Zhiquan Chen, Binbin Jiang*,  and Jiaqing He*,  Realizing High Thermoelectric Performance in Non-nanostructured n-type PbTe Energy and Environmental Science15(2022)1920-1929(PDF

  • 248

    248. Yixin Zhang, Qing Lou, Zhne-hua Ge*, Shiwei Gu, Junxuan Yang, Jun Guo, Yuke Zhu, Ying Zhou, Xiaohua Yu, Jing Feng*,  and Jiaqing He*, Excellent thermoelectric properties and stability realized in copper sulfides based composites via complex nanostructuring Acta Materialia, 233(2022)117972 (PDF

  • 247

    247. Fudong Zhang, Di Wu* and Jiaqing He*, The roles of grain boundaries in thermoelectric transports, Materials Lab, 1(2022)220012 (PDF)

  • 246

    246. Mengyue Wu, Lujun Zhu*, Shixuan Liu, Mingzhen Song, Fudong Zhang, Pengfei Liang, Xiaolian Chao, Zupei Yang*, Jiaqing He and Di Wu*, Significantly Enhanced Thermoelectric Performance Achieved in CuGaTe2 through Dual-Element Permutations at Cation Sites, ACS Applied Materials & Interfaces, 14(2022)30046-30055 (PDF

  • 245

    245.  D. S. He, Y. Huang, B. D. Myers, D. Isheim, X. Fan, Y. Deng, L.Xie, S. Han, Y. Qiu, L. Huang, V.P. Dravid,  J.Q. He*,  Single-element amorphous palladium nanoparticles formed via phase separation, Nano Research, (2022)12274(PDF

  • 244

    244. Z. Sun,  H. Dong, Q. Yuan, Y. Tan, W. Wang, Y. Jiang, J. Wan, J. Yang, J. Wen, J. Yang*,  J.Q. He,  T. Cheng, L.M. Huang*, Self-supported hierarchical crystalline carbon nitride arrays with triazine-heptazine heterojunctions for highly efficient photoredox catalysis, Submitted,  Chemical Engineering Journal , 435(2022) 134865 (PDF)

Copyright Nanostructures and energy physics | 17099926-1