夏威课题组

Fiaz Hussain

Mon, 01 Jan 0001 00:00:00 +0000

背景介绍

Fiaz Hussain博士是University of Jhang物理系的助理教授（休假）。现为宁波东方高等研究院外籍专家、高层次博士后研究员。他拥有中国科学技术大学合肥分校的博士学位。研究方向包括使用密度泛函理论和AIMD模拟对用于电化学储能和转换的Li/Na离子电解质和正极材料进行的第一性原理研究。他在The Journal of Physical Chemistry C, npj computational materials, Advanced Theory and Simulations, Advanced Materials, JACS, Physical Review Materials, ACS Applied Energy Materials, Chemistry of Materials and Journal of Power Sources 等国际著名期刊上发表了12多篇论文。

教育背景

2015-2019:博士，凝聚态物理学专业，中国科学技术大学微尺度物质科学国家重点实验室；
2011-2013：硕士，高能物理学专业，University of the Punjab, Pakistan；
2004-2008：本科，计算物理学专业，University of the Punjab, Pakistan；
2001-2003：预科，Govt. M.A.O College Lahore, Pakistan

工作经历

2023-至今: 宁波东方理工高等研究院，博士后
2021-2022: University of Jhang, Pakistan ，助理教授
2019-2021 南京航天航空大学，博士后
2013-2015: The University of Lahore, Pakistan ，讲师
2010-2011: University of the Punjab，客座讲师
2008-2010: Paradigm College Arts and Science Lahore, Pakistan，讲师

学术经历

超过15年的教学和研究经历

学术兼职（部分）

2010.5 – 2013 (Part-Time)Managing Director of Dux Academy (Institute of Sciences) at Johar Town Lahore
2008.1 – 2010.4Vise principal and administrator at Rana science academy Johar Town Lahore
2006-2008: Senior Science teacher of Physics and Mathematics at Rana Science Academy Faisal Town Lahore

获奖情况及荣誉

Awarded LAPTOP from prime minister in 2012 during MS
Awarded CSC scholarship by Chinese Government for PhD at University of Science and Technology of China during 2015-2019
Awarded Best Poster Award in Nature Materials, Nature Conferences, January 13-15, 2018 Electrochemistry: Fundamentals and Applications, Southern University of Science and Technology (SUSTech), Shenzhen, China

代表性论著

总体情况

发表了 12 SCI论文，引用次数超过164次，H-index= 6, i-10 index=5

论著信息及引用数据

Google Scholar：

https://scholar.google.com/citations?user=t9uhav4AAAAJ&hl=en

Web of Knowledge：

http://www.researcherid.com/rid/XXXXXXX

10篇代表作（*表示通讯作者）

Fiaz Hussain, Jinlong Zhu*, Yusheng Zhao, Wei Xia,* Exploring Superionic Conduction in Lithium Oxyhalide Solid Electrolytes: Composition and Structural Factors; npj Computational Materials, 2024, accepted.
Fiaz Hussain, Feng Zan*, and Hui Xia*; Theoretical Investigation on the Role of Na and O for High Conductivity in Na-Doped SrSiO3. J. Phys. Chem. C 2023, 127, 24001-24009.
Fiaz, Hussain; Maqbool, Hamza; Han, Songbai; Wang, Liping; Zhu, Jinlong; Zhao, Yusheng; Xia, Wei*, Na2FeS2 Cathode for Sodium-Ion Batteries: A Theoretical Study, ACS Applied Energy Materials, 2023, 6(14), 7563-7570.
Fiaz Hussain; Jinlong Zhu; Yusheng Zhao, Xia, Wei*, Vacancy Mediated Fast Sodium-Conduction in Halide Sodalites: A Theoretical Study, Materials Today Chemistry, 2023, 33, p.101746.
Fiaz Hussain, Pengcheng Yu, Jinlong Zhu, Hui Xia, Yusheng Zhao and Wei Xia*. Theoretical Prediction of spinel Na2InxSc0.666-xCl4 and rock-salt Na3In1-xScxCl6 Superionic Conductors for all-solid-state sodium-ion batteries, Advanced Theory and Simulations 2022, 2200569.
Fiaz Hussain, Jinlong Zhu, Hui Xia, Yusheng Zhao and Wei Xia*. “Theoretical Insights on the Comparison of Li-Ion Conductivity in Halide Superionic Conductors Li3MCl6, Li2M2/3Cl4, and LiMCl4 (M = Y, Sc, Al, and Sm).” The Journal of Physical Chemistry C 126, no. 31 (2022): 13105-13113.
Fiaz Hussain, Pai Li, and Zhenyu Li*. Theoretical Insights into Li-Ion Transport in LiTa2PO8, The Journal of Physical Chemistry C
2019, 123, 19282-19287.
Fiaz Hussain, Pai Li, Zhenyu Li*, & Yang, J. Ion Conductivity Enhancement in Anti-Spinel Li3OBr with Intrinsic Vacancies. Advanced Theory and Simulation 2018, 2, 1800138.
Pai Li, Fiaz Hussain, Ping Cui, Zhenyu Li*, and Jinlong Yang. Boost Ionic Conductivity in Anti-Perovskite Li3OCl via Defect Engineering: Interstitial versus Vacancy Physical Review Materials 3, 115402 (2019).
Pengcheng Yu, Haochang Zhang, Fiaz Hussain, Jing Luo, Wen Tang, Jiuwei Lei, Lei Gao, Denys Butenko, Changhong Wang, Jinlong Zhu, Wen Yin, Hao Zhang, Songbai Han,* Ruqiang Zou,Wei Chen, Yusheng Zhao, Wei Xia, and Xueliang Sun*; Lithium Metal-Compatible Antifluorite Electrolytes for Solid-State Batteries. J. Am. Chem. Soc. 2024, 146, 12681-12690.
Wen Tang, Wei Xia*, Fiaz Hussain, Jinlong Zhu, Songbai Han, Wen Yin, Pengcheng Yu, Jiuwei Lei, Denys S Butenko, Liping Wang, Yusheng Zhao; A dual-halogen electrolyte for protective-layer-free all-solid-state lithium batteries. Journal of Power Sources. 2023; 568: 232992.
Qiuying Xia, Qinghua Zhang, Shuo Sun, Fiaz Hussain, Chunchen Zhang, Xiaohui Zhu, Fanqi Meng, Kaiming Liu, Hao Geng, Jing Xu, Feng Zan, Peng Wang, Lin Gu, Hui Xia*. Tunnel Intergrowth LixMnO2 Nanosheet Arrays as 3D Cathode for High-Performance All-Solid-State Thin Film Lithium Microbatteries. Advanced Materials 2020,2003524.

International Conferences (Poster present)

Fiaz Hussain, Pai Li, Zhenyu Li*, and Jinlong Yang, First Principles Study of Lithium Rich Anti-Spinel Electrolyte Material, Nature Conferences, Electrochemistry: Fundamentals and Applications, Southern University of 1. Science and Technology (SUSTech), Nature Communications, Nature, Nature Nanotechnology, Nature Energy, and Nature Materials: January 13-15, 2018
Faryal Idrees, Manzoor Sultan, Fiaz Hussain, Harse Sattar, Muhammad Imran, Cao ChuanBao, Scalable Synthesis of Nb2O5 by using Facile Hydrothermal Route: Time Dependent Growth Mechanism, Complete Conversion from Hexagonal Sheets to Sharp-tipped nano Wires).

王新利

Mon, 01 Jan 0001 00:00:00 +0000

背景介绍

2021年博士毕业于湘潭大学（导师：蔡灿英和周光文教授），2014年本科毕业于鲁东大学。博士期间，开展Al2O3材料原子尺度的生长机理研究，并取得了系列的科研成果，以合作作者身份发表研究类论文12篇，其中以第一作者/共同第一作者/共同通讯作者身份发表期刊论文10篇。

研究领域

研究兴趣包括卤化物固态电解质超离子态调控的理论研究，二维Al2O3基半导体器件的理论研究，氧化物材料微观原子结构的电镜表征和中子表征研究

教育背景

2015.09-2021.12：博士，材料物理与化学，湘潭大学
2010.09-2014.06：学士，应用物理，鲁东大学

工作经历

2022.02-2024.04：散裂中子源科学中心，博士后
2024.06-2026.06：宁波东方理工大学（暂名），理学部，研究助理教授

代表性论著

总体情况

2020至2024年，已合作发表12篇期刊论文，其中以第一作者/共同第一/共同通讯身份发表10篇期刊论文，总被引频次69次，H因子5。

论著信息及引用数据

ORCID ID:

0000-0003-3019-3045

Web of Knowledge：

*10篇代表作(表示通讯作者，#表示共同第一作者)

Xinli Wang, Zhentao Fu, Peng-Fei Liu, Bao-Tian Wang, Wen Yin*. The interfacial trapped charge of quintuple-layers Al2O3 induced by point defect. Appl. Phys. Lett. 126, 043504 (2025)
Xinli Wang, Xianbiao Shi, Peng-Fei Liu, Bao-Tian Wang, Wen Yin*. The coupling effect of polarization and lattice strain on charge transfer between quintuple-layer Al2X3 /Al2Y3 (X, Y = O, S, Se, Te; X≠Y) interfaces. Computational Materials Science 246 (2025) 113463

3.Xinli Wang, Juping Xu, Peng-Fei Liu, Bao-Tian Wang, Wen Yin*. Surface charge induced ferroelectric semiconductor-to-metal transition in quintuple-layer Al2S3. Physical Review B 107, 235307 (2023)

Xinli Wang, Juping Xu, Peng-Fei Liu, Bao-Tian Wang, Wen Yin*. The tunable interface charge transfer by polarization in two dimensional polar Al2O3 /MoSO heterostructures. J. Mater. Chem. A, 2023,11, 10628-10645
Xinli Wang, Juping Xu, Jianguo Si, Baotian Wang, Wen Yin*. Semiconductor-metal transition caused by increased surface charge in wo-dimensional quintuple-layers Al2O3 materials. Applied Surface Science 610 (2023) 155614
Xinli Wang, Canying Cai*, Guangwen Zhou*. First-principles study on the NiAl/Al2O3 interfacial segregation of Hf during the oxidation of Hf-modified NiAl. Applied Surface Science 578 (2022) 151917
Xinli Wang, Canying Cai*, Guangwen Zhou*. Effect of Water Vapor on Alumina Scale Growth Based on First-Principles Calculations. J. Phys. Chem. C 2021, 125, 9736−9746
Dingding Zhu#, Xinli Wang#, Peng Jia, Canying Cai*, Jianyu Huang*, Guangwen Zhou*. One-dimensional γ-Al2O3 growth from the oxidation of NiAl. Corrosion Science 216 (2023) 111069
Dingding Zhu#, Xinli Wang #, Jun Zhao, Jian Lu, Yichun Zhou, Canying Cai*, Jianyu Huang*, Guangwen Zhou*. Effect of water vapor on high-temperature oxidation of NiAl alloy. Corrosion Science 177 (2020) 108963
Hailing Zhang#, Xinli Wang #, Dingding Zhu, Jun Zhao, Tingting Yang, Yichun Zhou, Jian Lu, Canying Cai*, Jianyu Huang*, Guangwen Zhou*. Interfacial oxidation of hafnium modified NiAl alloys. Corrosion Science 189 (2021) 109604
Yanzhi Zhang, Shijiu Liu, Qian Zhang, Tianxiang Ning⁎, Xinli Wang⁎, Anxian Lu*. Effect of Nb5+ doping on the microstructure and conductivity of Li1.125Ta 0.875Zr 0.125SiO5 electrolyte. Journal of Alloys and Compounds 902 (2022) 163760

施哲朴

Mon, 01 Jan 0001 00:00:00 +0000

背景介绍

2023年获得宁波诺丁汉大学与中国科学院宁波材料技术与工程研究所联合培养博士项目博士学位，同年于宁波市东方理工高等研究院开展博士后研究工作；目前主要从事富锂正极材料相关的高比能固态电池开发。已发表SCI论文20篇，其中以第一作者(含共同)在Adv. Funct. Mater., Chem. Eng. J., J. Mater. Chem. A, Mater. Today Energy, ACS Appl. Mater. Interfaces, Batteries等国际期刊发表论文6篇。

研究领域

主要从事富锂正极材料相关的高比能固态电池开发，主要包含以下几个方向：

（1）高电压固态电解质开发；

（2）富锂锰基正极材料的开发；

（3）全固态电池正极界面与氧气释放研究。

教育背景

2019/09-2023/10：博士（专业：化学与环境工程），宁波诺丁汉大学&中国科学院宁波材料技术与工程研究所联合培养项目

2016/09-2018/12：硕士（专业：材料科学与工程），伊利诺伊斯理工大学

2012/09-2016/06：学士（专业：功能材料），河北工业大学

工作经历

2023-至今，宁波东方理工高等研究院，博士后

2018/08-2018/12，伊利诺伊理工大学，研究助理

获奖情况及荣誉

2023, 中科院宁波材料所“DT新材料”冠名奖学金

2022, 中科院宁波材料所优秀学生

2021, 第五届新能源青年学术论坛，博士组三等奖

2017, IPRO Day Track 9 Winner & Engineering Dean’s Choice Award

代表性论著

总体情况：20篇SCI论文;引用超过200次，H因子9，论著信息及引用数据Google Scholar：https://scholar.google.com/citations?user=guQG1u0AAAAJ&hl=zh-CN&oi=ao

5篇代表作(*表示通讯作者)

Z. Shi, Q. Gu, L. Yun, Z. Wei, D. Hu, B. Qiu*, G. Z. Chen* and Z. Liu*, A composite surface configuration towards improving cycling stability of Li-rich layered oxide materials. J. Mater. Chem. A, 2021, DOI: 10.1039/d1ta06971c.
Y. Li, Z. Shi, B. Qiu*, J. Zhao, X. Li, Y. Zhang, T. Li, Q. Gu, J. Gao* and Z. Liu*, Optimizing Both Bulk and Surface Structure of Li-Rich Layered Cathodes for Long-Life and Safe Li-Ion Batteries. Adv. Funct. Mater., 2023, DOI: 10.1002/adfm.202302236.
T. Li, Z. Shi, L. Li*, Y. Zhang, Y. Li, J. Zhao, Q. Gu, W. Wen*, B. Qiu* and Z. Liu*, Non-Eutectic-Salt Reaction Route towards Morphological and Structural Rearrangement of Li-Rich Layered Oxides for High-Volumetric Li-Ion Batteries. Chem. Eng. J., 2023, DOI: 10.1016/j.cej.2023.145728.
Z. Wei, Z. Shi, X. Wen, X. Li, B. Qiu*, Q. Gu, J. Sun, Y. Han, H. Luo, H. Guo, Y. Xia, C. Yin, P. Cai* and Z. Liu*, Eliminating oxygen releasing of Li-rich layered cathodes by tuning the distribution of superlattice domain. Mater. Today Energy, 2022, DOI: 10.1016/j.mtener.2022.101039.
Z. Shi, Z. Wang, L. L. Shaw* and M. Ashuri, On the Electrochemical Properties of Carbon-Coated NaCrO2 for Na-Ion Batteries. Batteries, 2023, DOI: 10.3390/batteries9090433.