白茂輝�,1990 年生,工學(xué)博士���,湖南省優(yōu)秀博士后創(chuàng)新人才�,中南大學(xué)升華博士后��,于2019年畢業(yè)于中南大學(xué)��,于2021年在中南大學(xué)材料科學(xué)與工程專業(yè)完成博士后工作��,于2022年入職長(zhǎng)沙理工大學(xué)材料科學(xué)與工程學(xué)院�����。長(zhǎng)期從事鋰電池材料與器件相關(guān)研究���,具有豐富的鋰電池材料及電化學(xué)相關(guān)研究經(jīng)驗(yàn)�����,主要從事新型二維材料�����,包括石墨烯����、氮化碳、過(guò)渡金屬磷硫化物等的制備���、高性能離子傳輸薄膜等應(yīng)用研究���;鋰離子電池和固態(tài)電池領(lǐng)域,且在金屬鋰負(fù)極界面保護(hù)研究方面��,通過(guò)構(gòu)建可持續(xù)原位石墨烯和氮化碳SEI來(lái)調(diào)控金屬鋰的沉積行為��,取得了巨大的研究成果����。近五年內(nèi)�,在Advanced Materials、Chemical Engineering Journal等國(guó)際權(quán)威期刊上已發(fā)表SCI期刊論文34余篇����,獲授權(quán)國(guó)家發(fā)明專利1項(xiàng)����。擔(dān)任Frontiers in Materials客座主編�,Chemical Engineering Journal、Energy Storage Materials等期刊審稿人�����。主持了中國(guó)博士后科學(xué)基金面上項(xiàng)目1項(xiàng)(8萬(wàn))��、2020年湖南省優(yōu)秀博士后創(chuàng)新人才項(xiàng)目1項(xiàng)(40萬(wàn))����、中國(guó)博士后科學(xué)基金第14批特別資助(站中)1項(xiàng)(18萬(wàn)),并負(fù)責(zé)完成華為公司電池可靠性研究項(xiàng)目(97萬(wàn)元)和廣東微電公司高比能電池項(xiàng)目(80萬(wàn))等橫向課題多項(xiàng)�����。
一�����、主要研究方向:
1.鋰��、鈉離子電池電極材料的設(shè)計(jì)、制備與體表調(diào)控研究
2.固態(tài)鋰電池及其關(guān)鍵材料的設(shè)計(jì)與研制
3.新型金屬鋰負(fù)極材料的設(shè)計(jì)與應(yīng)用
4.鋰硫電池的設(shè)計(jì)與研制
二�����、主持代表性科研項(xiàng)目:
1.The National Basic Research Program of China (973 Program, 2014CB643406)�����。
2.2020湖南省優(yōu)秀博士后創(chuàng)新人才項(xiàng)目����,2020RC2006,40萬(wàn)�����,主持�����。
3.中國(guó)博士后科學(xué)基金第14批特別資助(站中),2021T140745, 18萬(wàn)���,主持����。
4.國(guó)家重點(diǎn)研發(fā)計(jì)劃項(xiàng)目����,2018YFB0104200,“高安全長(zhǎng)壽命高比能鋰/硫動(dòng)力電池關(guān)鍵技術(shù)研發(fā)與裝車示范”�,2018/05-2021/04,2261萬(wàn)�,高安全電解液子課題參與人。
5.中國(guó)博士后科學(xué)基金面上項(xiàng)目���,2020M672514���,高比能三元電池高壓適配電解液的研究,2020/07-2021/07���,8萬(wàn)元����,主持����。
6.華為電池可靠性項(xiàng)目,2020/06-2021/06,100萬(wàn)元����,參與。
7.廣東微電電池合作項(xiàng)目����,2020/08-2022/08,300萬(wàn)���,參與����。
8.國(guó)家重點(diǎn)研發(fā)計(jì)劃項(xiàng)目子課題�����,復(fù)雜多變物料中稀貴金屬檢測(cè)關(guān)鍵技術(shù)��,2019YFF0217102����,2019/12-2021/11,20萬(wàn)��,參與。
三�����、近五年代表性成果:
1.Bai, M.H., Xie, K.Y.*, Yuan, K., Zhang, K., Li, N., Lai, Y.Q.*, Vajtai, R., Ajayan, P. M., Wei, B.Q.* A scalable approach to dendrite-free lithium anodes via spontaneous reduction of spray-coated graphene oxide layers. Advanced Materials, 1801213 (2018).
2.Bai, M.H., Hong, B.*, Zhang K., Yuan, K., Xie, K.Y.*, Wei, W.F., Lai, Y.Q. Defect-rich carbon nitride as electrolyte additive for in-situ electrode interface modification in lithium metal battery, Chemical Engineering Journal, 127123,1385-8947 (2020).
3.Bai, M.H.*, Hong, B.*, Chen, Z.Y.*, et al. Designable ultra-stable electrode surface engineering by the electrophoretic deposition of modified graphene oxide for rechargeable batteries, Applied Surface Science, 605, 154704 (2022).
4.Gao, C.H., Hong, B.*, Bai, M.H.*, et al. Controllable lithium deposition behavior of N, O co-doped hollow carbon nanospheres for practical lithium metal batteries, Chemical Engineering Journal, 128721, 412 (2021).
5.Wang, Q.Y., Hong, B.*, Bai, M.H.*, et al. Molecular engineering of a gel polymer electrolyte via in-situ polymerization for high performance lithium metal batteries , Chemical Engineering Journal, 131331, 428(15) (2022).
6.Wu, C.J., Yuan, K., Bai, M.H.*. A universal graphene oxide protective umbrella to achieve electrode surface engineering via spraying technique. Ceramics International (2019).
7.Bai, M.H., Xie, K.Y.*, Hong, B., Zhang, K., Yuan, K., Zhao, J.K., Shen, C.*, Lai, Y.Q. * Surface modification via a nanosized nitride material to stabilize lithium metal anode. Ceramics International, (2019).
8.Bai, M.H., Xie, K.Y.*, Hong, B., Yuan, K., Li, Z.H., Huang, Z.M., Shen, C.*, Lai, Y.Q.* An artificial Li3PO4 solid electrolyte interphase layer to achieve Petal-shaped deposition of lithium. Solid State Ionics, (2019).
9.Shen, C., Gu, J., Li, X., Bai, M.H.*, Shao, D. L., Xie, K.Y. Formation of stable mixed LiF and Li-Al-Alloy reinforced interface film for lithium metal anodes. ChemistrySelect, 4(26), 7673-7678 (2019).
10.Bai, M.H., Wang, Z.X.*, Li, X.H., Guo, H.J., He, Z.J., & Zhao, J.K. Enhanced electrochemical properties of Li[Li0.2Mn0.54Ni0.13Co0.13]O2, via lithium boron oxide glass surface treatment. Solid State Ionics, 292, 66-69 (2016).
11.Zhang, K., Xie, K.Y. *, Bai, M.H., Yuan, K., Lu, W., Hu, S., Wei, W.Q. & Shen, C. Enabling effective polysulfide trapping and high sulfur loading via a pyrrole modified graphene foam host for advanced lithium-sulfur batteries. J. Mater. Chem. A, 5, 7309-7315 (2017).
12.Shen, C., Yuan, K., Tian, T., Bai, M. H., Wang, J.G., Li, X.F., Xie, K.Y., Fu, Q.G., Wei, B.Q*. Flexible sub-micro carbon Fiber@CNTs as anodes for potassium-ion batteries. ACS Applied Materials & Interfaces, (2019).
13.Yu, J., Dang, Y., Bai, M.H., Peng, J., Zheng, D., Zhao, J., Fang, Z. Graphene-modified 3D copper foam current collector for dendrite-free lithium deposition. Frontiers in Chemistry, 7, 748 (2019).
14.Yuan, K., Ning, R., Bai, M.H., Hu, N., Zhang, K., Gu, J., Xie, K. Pre-potassiated V2O5 as the cathode material for high-voltage potassium-ion batteries. Energy Technology (2019).
15.王志興�����,白茂輝�����,郭華軍����,李新海��,彭文杰����,胡啟陽(yáng)。一種改性鋰離子電池富鋰錳基正極材料及其制備方法���。CN105932248A����,20160907。
歡迎熱愛科研的有志青年加入�!
聯(lián)系方式:baimaohui@csust.edu.cn
辦公地址:新能源大樓1棟304室
通訊地址:(郵編410114)湖南省長(zhǎng)沙市雨花區(qū)萬(wàn)家麗南路二段960號(hào)。
