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黄烁,中国地质大学(武汉)教授,博士生导师,入选湖北省高层次人才计划。主要研究领域为计算材料科学,目前重点针对高熵材料(包括高熵合金和高熵陶瓷)的微结构以及力学、热学、磁学等方面的基础科学问题开展研究。迄今为止,已在Nature Communications,Acta Materialia,Scripta Materialia,Physical Review Applied,Applied Physics Letters等国际学术期刊发表SCI论文50余篇,相关研究成果共计被引用1400余次。
本课题组长期招收硕士研究生(含调剂),博士研究生和博士后,欢迎各位青年才俊的加盟!
欢迎本科生加入课题组!
感兴趣的同学请发送简历至邮箱:huangshuo@cug.edu.cn。
[1] Sagar Ghorai*, Johan Cedervall, Rebecca Clulow, Shuo Huang, Tore Ericsson, Lennart Häggström, Vitalii Shtender, Erna K Delczeg-Czirjak, Levente Vitos, Olle Eriksson, Martin Sahlberg, Peter Svedlindh. "Site-specific atomic substitution in a giant magnetocaloric Fe2P-type system." Physical Review B 107 (2023): 104409.
[2] Esmat Dastanpour*, Shuo Huang, Zhihua Dong, Stephan Schönecker, Valter Ström, Olle Eriksson, Lajos Károly Varga, Levente Vitos. "Investigation of the metastable spinodally decomposed magnetic CrFe-rich phase in Al doped CrFeCoNi alloy." Journal of Alloys and Compounds 939 (2023): 168794.
[3] Xuewei Luo, Shuo Huang, Chunhui Xu, Shuen Hou, Hongyun Jin*. "Rare-earth high-entropy aluminate-toughened-zirconate dual-phase composite ceramics for advanced thermal barrier coatings." Ceramics International 49 (2023): 766-772.
[4] Esmat Dastanpour*, Shuo Huang*, Stephan Schönecker*, Huahai Mao, Valter Ström, Olle Eriksson, Lajos Károly Varga, Levente Vitos. "On the structural and magnetic properties of Al-rich high entropy alloys: a joint experimental-theoretical study." Journal of Physics D: Applied Physics 56 (2022): 015003.
[5] Xuewei Luo, Ruiqi Huang, Chunhui Xu, Shuo Huang, Shuen Hou, and Hongyun Jin*. "Designing high-entropy rare-earth zirconates with tunable thermophysical properties for thermal barrier coatings." Journal of Alloys and Compounds 926 (2022): 166714.
[6] Dexuan Pei, Ziying Liu, Rui Ma, Shuo Huang, Shuen Hou, Min Liu, Guozhong Cao, and Hongyun Jin*. "In-situ constructing slow-release Li-Al-O interface layer for lithium metal batteries to enhance interface stability and suppress lithium dendrite growth." Chemical Engineering Journal 446 (2022): 136827.
[7] Shuo Huang*, Jie Cheng, Lei Liu, Wei Li, Hongyun Jin*, and Levente Vitos*. "Thermo-elastic behavior of hexagonal Sc–Ti–Zr–Hf high-entropy alloys." Journal of Physics D: Applied Physics 55 (2022): 235302.
[8] Can Huang, Shuo Huang, Aolai Wang, Ziying Liu, Dexuan Pei, Jianhe Hong, Shuen Hou, Levente Vitos, Hongyun Jin*. "Stabilizing the Li1.4Al0.4Ti1.6(PO4)3/Li interface with an in situ constructed multifunctional interlayer for high energy density batteries." Journal of Materials Chemistry A 10 (2022): 25500-25508.
[9] Shuo Huang*, Zhihua Dong*, Wangzhong Mu, Valter Ström, Guocai Chai, Lajos Károly Varga, Olle Eriksson, and Levente Vitos*. "Magnetocaloric properties of melt-spun MnFe-rich high-entropy alloy." Applied Physics Letters 119 (2021): 141909.
[10] Shuo Huang*, Zhihua Dong*, Esmat Dastanpour, Valter Ström, Guocai Chai, Lajos Károly Varga, Olle Eriksson, and Levente Vitos*. " Vibrational entropy-enhanced magnetocaloric effect in Mn-rich high-entropy alloys." Applied Physics Letters 119 (2021): 084102.
[11] Zhihua Dong, Shuo Huang*, Valter Strӧm, Guocai Chai, Lajos Károly Varga, Olle Eriksson, and Levente Vitos. "Mn-rich high entropy alloys for magnetocaloric refrigeration near room temperature." Journal of Materials Science & Technology 79 (2021): 15-20.
[12] Alena Vishina*, Daniel Hedlund, Vitalii Shtender, Erna K. Delczeg-Czirjak, Simon R. Larsen, Olga Yu. Vekilovad, Shuo Huang, Levente Vitos, Peter Svedlindh, Martin Sahlberg, Olle Eriksson, and Heike C. Herper. " Data-driven design of a new class of rare-earth free permanent magnets." Acta Materialia 212 (2021): 116913.
[13] Bin Zhang, Yuping Duan*, Haifeng Zhang, Shuo Huang, Guojia Ma, Tongmin Wang*, Xinglong Dong, and Nan Jia. "Magnetic transformation of Mn from anti-ferromagnetism to ferromagnetism in FeCoNiZMnx (Z = Si, Al, Sn, Ge) high entropy alloys." Journal of Materials Science & Technology 68 (2021): 124-131.
[14] Shuo Huang, Zhihua Dong*, Wangzhong Mu, Valter Strӧm, Guocai Chai, and Levente Vitos. "Thermo-elastic properties of bcc Mn-rich high-entropy alloy." Applied Physics Letters 117 (2020): 164101.
[15] Shuo Huang*, Wei Li, Olle Eriksson, and Levente Vitos*. "Chemical ordering controlled thermo-elasticity of AlTiVCr1-xNbx high-entropy alloys." Acta Materialia 199 (2020): 53-62.
[16] Jie Cheng, Shuo Huang, Yang Li, Tongqing Wang, Lile Xie, and Xinchun Lu*. "RE (La, Nd and Yb) doped CeO2 abrasive particles for chemical mechanical polishing of dielectric materials: Experimental and computational analysis." Applied Surface Science 506 (2020): 144668.
[17] Shuo Huang*. "The chemical ordering and elasticity in FeCoNiAl1−xTix high-entropy alloys." Scripta Materialia 168 (2019): 5-9.
[18] Jenő Gubicza*, Anita Heczel, Megumi Kawasaki, Jae-Kyung Han, Yakai Zhao, Yunfei Xue, Shuo Huang, and János L. Lábár. "Evolution of microstructure and hardness in Hf25Nb25Ti25Zr25 high-entropy alloy during high-pressure torsion." Journal of Alloys and Compounds 788 (2019): 318-328.
[19] Dávid Molnár, Ádám Vida, Shuo Huang, and Nguyen Q. Chinh*. "The effect of cooling rate on the microstructure and mechanical properties of NiCoFeCrGa high-entropy alloy." Journal of Materials Science 54 (2019): 5074-5082.
[20] Shuo Huang*, Wei Li, Erik Holmström, Se Kyun Kwon, Olle Eriksson, and Levente Vitos*. "Plastic deformation transition in FeCrCoNiAlx high-entropy alloys." Materials Research Letters 7 (2019): 439-445.
[21] Lei Liu*, Shuo Huang, Levente Vitos, Minjie Dong, Elena Bykova, Dongzhou Zhang, Bjarne S.G. Almqvist, Sergey Ivanov, Jan-Erik Rubensson, Béla Varga, Lajos Károly Varga, and Peter Lazor*. "Pressure-induced magnetovolume effect in CoCrFeAl high-entropy alloy." Communications Physics 2 (2019): 42.
[22] Shuo Huang*, Wei Li, Erik Holmström, and Levente Vitos. "Strengthening induced by magnetochemical transition in Al-doped Fe-Cr-Co-Ni high-entropy alloys." Physical Review Applied 10 (2018): 064033.
[23] Shuo Huang*, Wei Li, Erik Holmström, and Levente Vitos*. "Phase-transition assisted mechanical behavior of TiZrHfTax high-entropy alloys." Scientific Reports 8 (2018): 12576.
[24] Shuo Huang*, He Huang, Wei Li, Dongyoo Kim, Song Lu, Xiaoqing Li, Erik Holmström, Se Kyun Kwon*, and Levente Vitos*. "Twinning in metastable high-entropy alloys." Nature Communications 9 (2018): 2381.
[25] He Huang*, Xiaoqing Li, Zhihua Dong, Wei Li, Shuo Huang, Daqiao Meng*, Xinchun Lai, Tianwei Liu, Shengfa Zhu, and Levente Vitos*. "Critical stress for twinning nucleation in CrCoNi-based medium and high entropy alloys." Acta Materialia 149 (2018): 388-396.
[26] Ádám Vida, Zsolt Maksa, Dávid Molnár, Shuo Huang, Jozef Kovac, Lajos K. Varga, Levente Vitos, and Nguyen Q. Chinh*. "Evolution of the phase structure after different heat treatments in NiCoFeCrGa high entropy alloy." Journal of Alloys and Compounds 743 (2018): 234-239.
[27] Shuo Huang*, Erik Holmström, Olle Eriksson, and Levente Vitos*. "Mapping the magnetic transition temperatures for medium-and high-entropy alloys." Intermetallics 95 (2018): 80-84.
[28] Shuo Huang*, Ádám Vida*, Wei Li, Dávid Molnár, Se Kyun Kwon, Erik Holmström, Béla Varga, Lajos Károly Varga, and Levente Vitos*. "Thermal expansion in FeCrCoNiGa high-entropy alloy from theory and experiment." Applied Physics Letters 110 (2017): 241902.
[29] Shuo Huang*, Wei Li, Xiaoqing Li, Stephan Schönecker, Lars Bergqvist, Erik Holmström, Lajos Károly Varga, and Levente Vitos*. "Mechanism of magnetic transition in FeCrCoNi-based high entropy alloys." Materials & Design 103 (2016): 71-74.
[30] Ádám Vida*, Lajos K. Varga, Nguyen Q. Chinh, Dávid Molnár, Shuo Huang, and Levente Vitos. "Effects of the sp element additions on the microstructure and mechanical properties of NiCoFeCr based high entropy alloys." Materials Science and Engineering A 669 (2016): 14-19.
[31] Shuo Huang*, Ádám Vida, Dávid Molnár, Krisztina Kádas, Lajos Károly Varga*, Erik Holmström, and Levente Vitos. "Phase stability and magnetic behavior of FeCrCoNiGe high-entropy alloy." Applied Physics Letters 107 (2015): 251906.
[32] Shuo Huang*, Wei Li, Song Lu, Fuyang Tian, Jiang Shen, Erik Holmström, and Levente Vitos*. "Temperature dependent stacking fault energy of FeCrCoNiMn high entropy alloy." Scripta Materialia 108 (2015): 44-47.
[33] Chuan-Hui Zhang*, Shuo Huang, Jiang Shen, and Nan-Xian Chen. "Structural and mechanical properties of Fe-Al compounds: An atomistic study by EAM simulation." Intermetallics 52 (2014): 86-91.
[34] Shuo Huang*, Chuan-Hui Zhang, Rui-Zi Li, Jiang Shen, and Nan-Xian Chen. "Site preference and alloying effect on elastic properties of ternary B2 RuAl-based alloys." Intermetallics 51 (2014): 24-29.
瑞典皇家工学院  材料科学与工程  Doctoral Degree in Education  Doctoral Degree in Philosophy
北京科技大学  凝聚态物理  硕士研究生毕业  Master's Degree in Science
北京科技大学  应用物理学  大学本科毕业  理学学士
中国地质大学(武汉) 材料与化学学院 教授
瑞典乌普萨拉大学 物理与天文学院 研究员
瑞典乌普萨拉大学 物理与天文学院 博士后
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负责人靳洪允教授,团队由3名教授(侯书恩、黄烁、袁硕果),1名副教授(洪建和),1名工程师(靳化才)组成,主要从事航空发动机热障涂层和固态能源器件两个方向开展工作,始终沿着材料设计-材料宏量制备-材料工程化-器件智能制造-应用工程验证这一主线展开工作,团队成员在Nat. Commun.等杂志上发表SCI论文90余篇。近5年来,主持国防等项目,到账经费1000余万元。目前实验室拥有自动等离子喷涂系统、SPS放电等离子烧结炉、离心喷雾造粒机、布劳恩手套箱、3D打印机、气流粉碎机、高能球磨机、各种高低温烧结炉、气氛炉等材料和器件制备设备以及原位X射线衍射仪、德国扎纳电化学工作站、高温热膨胀仪等测试设备,每年在功能材料、新能源材料、化学等方向招收硕士、博士研究生。联系方式:靳老师,jinhongyun@cug.edu.cn。