Wang Shuangbao
Submitted by editor on Mon, 02/28/2022 - 00:41

 

1

Dr., Associate professor

sbwang0617@ynu.edu.cn

 

Education and Work Experience

Sep 09 – Oct 13, Hunan University, Ph.D.

Sep 07 – Jul 09, Hunan University, Material physics and chemistry, M.E.

Sep 03 – Jul 07, Hainan University, Materials Engineering, B.E.

Areas of Concern

1. Microalloying, microstructure and property optimization of light high-strength aluminum alloy

2. In-situ electron microscopic study of surface and interface reaction of alloy catalyst, etc.

3. Spherical aberration-corrected electron microscopy study of functional oxide thin film heterojunction

 

Research and Teaching

1.     Found

(1) National Natural Science Foundation of China (The Regional Joint Funds), U20A20274, Basic research on new material of high strength, toughness and weldable aluminum alloy strengthened by in situ nano rare earth precipitates, Jan 2021 – Dec 2024, ¥ 550,000, subproject leader.

(2) National Natural Science Foundation of China, 52061003, Aberration corrected in-situ TEM study of property modulation-related Al-Cu-Mg aviation aluminum alloy under the addition of rare earth Sc in Guangxi and heat treatment, Jan 2021 – Dec 2024, ¥ 350,000, project leader.

(3) National Natural Science Foundation of China, 11504162, In-situ high-resolution electron holography study of 2DEG at LAO/STO oxide heterointerface under external electric field modulated PZT ferroelectrics, Jan 2016 – Dec 2018, ¥ 246,000, project leader.

(4) Natural Science Foundation of Guangxi province, 2018GXNSFAA050012, Microstructure and property evolution of 2024 Al-Cu-Mg aviation aluminum alloy under the coupling effect of rare earth elements Sc, Zr and temperature field, Mar 2019 – Feb 2022, ¥ 120,000, project leader.

(5) Youth fund of Guangxi Key Laboratory of nonferrous metals and special materials processing, GXYSYF1803, Study on the property control and micro mechanism of high thermal conductivity Al-Mg Si-(Sc, Zr) alloy, Jau 2018 – Dec 2019, ¥ 100,000, project leader.

(6) Guangxi innovation derived development special subproject, AA17204036-1, Development of a new generation of superconducting radiator, Nov 2017 – Dec 2019, ¥ 150,000, project leader.

(7) School-enterprise cooperation, Application research and demonstration of high¬-power LED devices based on new superconducting heat sink, Jan 2020 – Dec 2020, ¥ 50,000, sub-project leader.

(8) School-enterprise cooperation, BB60500002, High-resolution Characterization and analysis of Cs-corrected environmental transmission electron microscopy for alloy materials, Dec 2016 – Dec 2017, ¥ 29,000, project leader.

(9) The key research and development project of Guangxi, GK AB16380030, Batch preparation and downstream application development of three-dimensional grapheme, Sep 2016 – Aug 2021, ¥ 10,890,000, project leader..

(10) Central University nursery project, 14340059, The formation mechanisms of secondary phase and clusters and their effects on the property of Cu2ZnSn(S,Se)4 thin film solar cells, Jan 2015 – Dec 2017, ¥ 50,000, project leader.

(11) School-enterprise cooperation,151044, Design and preparation of high-performance twin-jet electro- polisher, Jan 2014 – Dec 2014, ¥ 50,000, project leader.

 

 

2.     Teaching

Introduction to Material Science, Transmission Electron Microscopy, Material Chemistry, Material Surface Science and Engineering

 

3.     Honor/Awards

(1) Excellent report scholarship, Issued to the outstanding speakers in academic meeting. Title: In situ electron microscopy study of multi-mode oxide nucleation and growth in Ni Cr alloy during oxidation. Academic meeting: 2020 National Symposium on Electronic Microscopy of China, Dec 2020  

(2) Important technical standard projects of Guangxi province in 2017, The terms and definitions of graphene three-dimensional structural powder materials and other series of standards (ranking 3), DB 45 / T 1421-1425-2016, Awarding unit: General Office of the people's Government of Guangxi Zhuang Autonomous Region, Nov 14, 2017

 

Academic Achievements

1. paper

[1] Shuangbao Wang*, Yuying Liu, Yun Liu, Zhihao Shi, Jian Zhou, Jiajun Zhu, Wanbiao Hu*, Identifying the surface properties of Ti3C2Tx MXene through transmission electron microscopy, Cell Reports Physical Science, 2022, 3, 101151.

[2] Shuangbao Wang*, Yun Liu, Yuying Liu, Wanbiao Hu*, Effect of HF etching on titanium carbide (Ti3C2Tx) microstructure and its capacitive properties, Chemical Engineering Journal, 2023, 452, 139512.

[3] Shuangbao Wang*, Chengfu Pan, Bo Wei, Xiong Zheng, Yuxiang Lai*, Jianghua Chen*. Nano-phase transformation of composite precipitates in multicomponent Al-Mg-Si(-Sc) alloys. Journal of Materials Science & Technology, 110, 216-226, 2022.

[4] Shuangbao Wang, Zejian Dong, Lifeng Zhang, Panagiotis Tsiakaras*, Pei Kang Shen*, Langli Luo*. Atomic Scale Mechanisms of Multimode Oxide Growth on Nickel–Chromium Alloy: Direct in Situ Observation of the Initial Oxide Nucleation and Growth. ACS Applied Materials & Interfaces, 13(1), 1903–1913, 2021.

[5] Shuangbao Wang, Yuhang Bai, Lin Xie, Chen Li, Julian D. Key, Di Wu*, Peng Wang*, Xiaoqing Pan, Ferroelectric polarization-modulated interfacial fine structures involving two-dimensional electron gases in Pb(Zr,Ti)O3/LaAlO3/SrTiO3 heterostructures, ACS Applied Materials & Interfaces, 10, 1374-1382, 2018.

[6] Shuangbao Wang, Jianghua Chen*, Meijie Yin, Ziran Liu, Dingwang Yuan, Jizi Liu, Chunhui Liu, Cuilan Wu*, Double-atomic-wall-based dynamic precipitates of the early-stage S-phase in AlCuMg alloys, Acta Materialia, 60(19), 6573-6580, 2012.

[7] Shuangbao Wang, Jizi Liu, Qi Qi, Xiaofeng Chang, Si Gao, Wen Zhang, Peng Wang*, Precipitate formations with self-adaptive elemental diffusion and segregation in T92 steel, Journal of Alloys and Compounds, 40(2), 302-309, 2017.
[8] Shuangbao Wang, Ziran Liu, Xia, Shenlin Xia, Jools Key, Chen, Jianghua Chen*, Tetragonal-prism-like Guinier–Preston–Bagaryatsky zones in an AlCuMg alloy, Materials Characterization, 132, 139-144, 2017.
[9] Shuangbao Wang, Xiaofeng Chang, Jools Key, New Insight into High-temperature Creep Deformation and Fracture of T92 Steel Involving Precipitates, Dislocations and Nanovoids, Materials Characterization, 127, 1-11, 2017.

[10] Bo Wei, Shuai Pan, Guizhen Liao, Asad Ali, Shuangbao Wang*, Sc-containing hierarchical phase structures to improve the mechanical and corrosion resistant properties of Al-Mg-Si alloy. Materials & Design, 2022, 110699

[11] Guizhen Liao, Bo Wei, Shuai Pan, Shuangbao Wang*, Phase structure modification-based property improvement of Al-4.3Cu-1.6Mg-0.2Sc (wt%) alloy, Materials Characterization, 2023,196: 112664

[12] Shuai Pan, Xin-jian Chen, Gui-zhen Liao, Asad Ali, Shuang-bao Wang*, Developing a high-performance Al-Mg-Si-Sn-Sc alloy for essential room-temperature storage after quenching: aging regime design and micromechanisms, Rare Metals, 2023, Accept

[13] Xiangbin Han, Shuangbao Wang*, Bo Wei, Shuai Pan, Guizhen Liao, Weizhou Li*, Yuezhou Wei. Influence of Sc addition on precipitation behavior and properties of Al-Cu-Mg alloy. Acta Metallurgica Sinica (English Letters), 1-13, 2021.
[14] Zejian Dong, Lifeng Zhang, Shuangbao Wang*, Langli Luo*, Direct visualization of dynamic atomistic processes of Cu2O crystal growth through gas-solid reaction, Nano Energy. 70, 104527, 2020.

[15] Chengfu Pan, Yida Yang, Shuangbao Wang*, Yuying Liu, Shuqi Hu, Zhao Wang*, Peikang Shen, Atomistic building blocks of one-dimensional Guinier–Preston–Bagaryatsky zones in Al-Cu-Mg alloys, Materials & Design. 187C, 108393, 2020.

[16] Yuying Liu, Xiangbin Han, Shuangbao Wang*, Bo Wei, Weizhou Li*, Subtle atomistic processes of S-phase formation in Al-Cu-Mg alloys, Journal of Alloys and Compounds, 155677, 2020.

[17] Yun Liu, Fei Teng, Fuhua Cao, Zhixin Yin, Yong Jiang*, Shuangbao Wang*, Peikang Shen, Defective GP-zones and their evolution in an Al-Cu-Mg alloy during high-temperature aging, Journal of Alloys and Compounds, 774, 988-996, 2019.

[18] Cheng Zhang, Sihao Wang, Shaolong Tang*, Shuangbao Wang*, Yuliang Li, Youwei Du, Ni3S2 Nanorods and Three-Dimensional Reduced Graphene Oxide Electrodes-Based High-Performance All-Solid-State Flexible Asymmetric Supercapacitors. Applied Surface Science, 458, 656-664, 2018.
[19] Zhengping Ding, Yiming Feng, Ran Ji, Datong Zhang, Libao Chen, Shuangbao Wang*, Douglas G. Ivey, Weifeng Wei*, Improving the electrochemical cyclability of lithium manganese orthosilicate through the pillaring effects of gradient Na substitution, Journal of Power Sources, 349, 18-26, 2017.
[20] Guixian Liu, Shuangbao Wang*, M. A. Gondal,Kai Shen*, Qingyu Xu,Enhanced visible light photocatalytic performance of G-C3N4 photocatalysts Co-doped with gold and sulfur for degradation of persistent pollutant (rhodamine B), Journal of Nanoscience and Nanotechnology, 19(2), 713-720, 2019

 

2. patent

(1) Shuangbao Wang, Yun Liu, Peikang Shen, A method based on XRD to predict the characteristics of high specific capacity Ti3C2Tx electrode materials, Invention patent, April 2020, China, Patent Number: 201811004983.0 (Authorized)

(2) Shuangbao Wang, Peng Wang, Dianxiang Ji, Xiaofeng Chang, High precision transmission electron microscope sample grinder, Invention patent, Nov 2017, China, Patent Number: ZL201510289558.0 (Authorized)

(3) Shuangbao Wang, Yun Liu, Peikang Shen, Zhiqun Tian, Shibin Yin, A sample preparation method of TEM in-situ heating chips for nanomaterials, Invention patent, Oct 2019, China, Patent Number: 201710565917.X (Authorized)

(4) Shuangbao Wang, Peikang Shen, Zhiqun Tian, Shibin Yin, Julian Key, Zhiyi Pan, Preparation of in-situ TEM bias cross-sectional samples for heterojunction films, Invention patent, Aug 2019, China, Patent Number: CN201710245678.X (Authorized)

(5) Wang, P., Cai, S. H., Gu, C. Y., Shuangbao Wang, A type of in-situ TEM test chips for nano materials, as well as its preparation method and applications, Invention patent, Nov 2017, China, Patent Number: CN201510476900.8. (Authorized)

(6) Zhiqun Tian, Dandan Lv, Peikang Shen, Zong Liu, Xiaoran Zhang, Shuangbao Wang, Shibin Yin, A preparation method of non noble metal catalysts for hydroelectricity analysis, Invention patent, May 2017, China, Patent Number: CN201710400819.0 (Authorized)

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