孙靖宇
时间:2024-01-07作者:浏览次数:25540

孙靖宇教授,www.优德88.cpm 能源学院副院长。牛津大学博士。国家高层次青年人才,江苏省杰出青年基金获得者,英国皇家化学会会士。江苏省先进碳材料与可穿戴能源技术重点实验室主任。www.优德88.cpm ——北京石墨烯研究院产学研协同创新中心主任。国家工程重点项目首席科学家;国家重点研发计划课题负责人。物理化学学报/J. Energy Chem./Chin. Chem. Lett./InfoMat/Battery Energy(青年)编委。2008年本科毕业于浙江大学,2013年于英国牛津大学获博士学位。2013-2015年、2015-2017年分别在北京大学和英国剑桥大学开展研究工作。2017年2月入职www.优德88.cpm 。主要从事新型石墨烯材料、碳基能源材料研究。发展了低维碳材料无转移生长的Direct-CVD技术,研究成果被Nature Mater.等亮点述评。在国内外学术期刊上发表研究论文逾240篇,其中通讯作者论文包括Sci. Adv.,Nature Commun.,Natl. Sci. Rev.,Adv. Mater., Energy Environ. Sci.,Angew. Chem. Int. Ed., Adv. Funct. Mater., ACS Nano等,总引用19000余次,h因子为80。

电子邮箱:sunjy86@suda.edu.cn


课题组网站:http://jysunlab.energy.suda.edu.cn

个人简历:

2019-至今 特聘研究员、PI,北京石墨烯研究院

2017-至今 特聘教授、博士生导师、PI,www.优德88.cpm 能源学院

2015-2017 博士后,剑桥大学 剑桥石墨烯中心,合作导师:Prof. Andrea C. Ferrari

2013-2015 博士后,北京大学 纳米化学研究中心,合作导师:刘忠范院士,张艳锋教授

2008-2013 博士,牛津大学 材料系,导师:Prof. Martin R. Castell, Prof. Nicole Grobert

2004-2008 学士,浙江大学 竺可桢学院,导师:杨德仁院士

研究方向:

1、新型石墨烯材料

2、碳基能源材料

个人荣誉及人才项目:

2024年Battery Energy期刊优秀青年编委

2024年 首届2DMYoung Scientist Award

2023年 首届ACS NanoImpact Award

2023年英国皇家化学会会士 (FRSC)

2023年 江苏省优秀硕士论文指导教师

2023年 www.优德88.cpm 优秀博士/硕士论文指导教师

2023年 "科睿唯安"全球高被引科学家

2022/2023年全球前2%顶尖科学家榜单

2022年 www.优德88.cpm 招商银行青年英才奖

2021年江苏省杰出青年基金

2020年 苏州市"最美侨界之星"

2020年 《科学通报》期刊优秀编委

2020年 www.优德88.cpm 五四青年奖

2019年 江苏省双创人才

2018年 江苏省“六大人才高峰”

2017年 国家四青人才:海外高层次青年人才

2016年 剑桥大学Wolfson College特别资助

2015年 北京大学优秀博士后奖

2011年 牛津大学Varsity Award

其他 (乒乒乓乓):

曾为浙江大学、牛津大学乒乓球校队成员,现为www.优德88.cpm 教职工乒乓球队成员。

个人赛:获得2023年首届“徐竞杯”全国教授乒乓球邀请赛单打冠军/双打亚军、2018年全国首届教授杯乒乓球赛男子青年组单打冠军/双打冠军、2019年全国第二届教授杯乒乓球赛男子青年组单打冠军、2015年全英华人乒乓球公开赛单打冠军、2017年www.优德88.cpm 阳光体育节乒乓球高校邀请赛单打冠军、2019年中国联通乒乓球挑战赛苏州赛区亚军(男子31-45岁年龄组)、2018年苏州市“海信·日立杯”乒乓球单打公开赛亚军.

团体赛:获得2022年江苏省第二十届运动会职工组男子团体冠军(苏州市代表队)、2017-2024年在苏高校教职工乒乓球赛团体冠军 (www.优德88.cpm )、2022年第三届"兆家杯"俱乐部邀请赛团体冠军、2019-2021年苏州工业园区"慧湖杯"乒乓球邀请赛团体冠军、2019年苏州爱动俱乐部四周年邀请赛团体冠军、2015年北京大学"北大杯"团体冠军 (化学与分子工程学院)、2020年上海"悦隆·蝴蝶杯"乙级赛团体亚军、2020年苏州首届"美凯龙杯"乒乓球团体赛亚军、2022年苏州首届"苏米杯"乒乓球团体赛亚军。


常年招收有志于从事石墨烯可控制备及先进能源材料研究的博士后、博士研究生及硕士研究生.


代表性论文 (*通讯作者):

Upon arriving in SUDA:

2024

(1) X.Z. Yang, Y. Lv, Z.T. Liu, H.Q. Ji, Z.Y. Chen, J. Peng, Y.W. Su, Y.H. Zou, C. Wu, S.X. Dou, P. Gao*, Z.P. Guo*,J.Y. Sun*. Facet-governed Zn homoepitaxy via lattice potential regulation,Energy Environ. Sci.2024,17, 5563.

(2) Y.H. Zou, Y.Z. Wu, W.Z. Wei, C.P. Qiao, M.Y. Lu, Y.W. Su, W.Y. Guo, X.Z. Yang, Y.Q. Song*, M. Tian*, S.X. Dou, Z.F. Liu,J.Y. Sun*. Establishing pinhole deposition mode of Zn via scalable monolayer graphene film,Adv. Mater.2024,36, 2313775.

(3) X.Y. Lian, Z.J. Ju, L. Li, Y.Y. Yi, J.H. Zhou, Z. Chen, Y. Zhao, Z.N. Tian, Y.W. Su, Z.K. Xue, X.P. Chen, Y.F. Ding, X.Y. Tao*,J.Y. Sun*. Dendrite-free and high-rate potassium metal batteries sustained by an inorganic-rich SEI,Adv. Mater.2024,36, 2306992.

(4) W.Y. Guo, L. Xu, Y.W. Su, Z.N. Tian, C.P. Qiao, Y.H. Zou, Z.A. Chen, X.Z. Yang, T. Cheng*,J.Y. Sun*. Tailoring localized electrolyte via a dual-functional protein membrane toward stable Zn anodes,ACS Nano2024,18, 10642.

(5) D.D. Liang, B. Jiang, Z.T. Liu, Z.L. Chen, Y.Q. Gao, S.Y. Yang*, R. He, L.L. Wang, J.X. Ran, J.X. Wang, P. Gao, J.M. Li, Z.F. Liu,J.Y. Sun*, T.B. Wei*.Quasi van der Waals epitaxy of single crystalline GaN on amorphous SiO2/Si(100) for monolithic optoelectronic integration,Adv. Sci.2024,11, 2305576.

(6) M.Y. Lu, T.R. Yan, Y.F. Ding, S.Q. Chen, Z.A. Chen, J.X. Gu, X.P. Chen, L.Zhang*, M. Tian*,J.Y. Sun*. Theory-guided optimization of coordination sites via d-band modulation for efficient single-atomic Li–S catalysis,Energy Storage Mater.2024,70, 103458.

(7) W.Y. Guo, T.J. Hua, C.P. Qiao, Y.H. Zou, Y.Y. Wang,J.Y. Sun*. Biomass-based electrolyte design for aqueous zinc-ion batteries: Recent advances and future outlook,Energy Storage Mater.2024,66, 103244.

(8) Y.F. Ding, T.R. Yan, J.H. Wu, M. Tian, M.Y. Lu, C.L. Xu, J.X. Gu, H.R. Zhao, Y.F. Wang, X.Q. Pan, S.X. Dou, L. Zhang,J.Y. Sun*. Imparting selective polysulfide conversion via geminal-atom moieties in lithium-sulfur batteries,Appl. Catal. B2024,343, 123553.

(9) Y.H. Wu, Y.F. Wang, R.Y. Chen, J.Q. Xu, Y.F. Wang, H.Y. Zhang, Y.F. Ding, B.B. Li, S.Y. Dong, S.X. Dou, X. Zhang,J.Y. Sun*, J.H. Sun*. On-site catalytic wastewater remediation by sustainably produced H2O2 via scalable single-atomic Fe-incorporated Janus membrane,Appl. Catal. B2024,343, 123533.



2023

(1) Y.W. Su, B.H. Chen, Y.J. Sun, Z.K. Xue, Y.H. Zou, D.Z. Yang, L.Z. Sun*, X.Z. Yang, C. Li, Y.J. Yang, X.J. Song*, W.Y. Guo, S.X. Dou, D.L. Chao*, Z.F. Liu,J.Y. Sun*. Rationalized electroepitaxy toward scalable single-crystal Zn anodes,Adv. Mater.2023,35, 2301410.

(2) Y.H. Li, X.F. Dong, Z.W. Xu, M.L. Wang, J. Xie, Y.J. Ding, P.C. Su, C.Y. Jiang, X.M. Zhang, L.Y. Wei, J.-F. Li, Z.Q. Chu*,J.Y. Sun*, C. Huang*. Piezoelectric 1T phase MoSe2 nanoflowers and crystallographically textured electrodes for enhanced low-temperature zinc-ion storage,Adv. Mater.2023,35, 2208615.

(3) X.Z. Yang, W.P. Li, Z.Y. Chen, M. Tian, J. Peng, J.R. Luo, Y.W. Su, Y.H. Zou, G. Weng, Y.L. Shao, S.X. Dou,J.Y. Sun*. Synchronous dual electrolyte additive sustains Zn metal anode with 5600 h lifespan,Angew. Chem. Int. Ed.2023,62,e202218454.

(4) B.Z. Liu, Z.T. Sun, K.J. Cui, Z.K. Xue, Z. Li, W. Wang, W. Gu, K.Q. Zheng, R.J. Liu, Y. Zhao, M.H. Rümmeli, X. Gao,J.Y. Sun*, Z.F. Liu*. Self-aided batch growth of 12-inch transfer-free graphene under free molecular flow,Adv. Funct. Mater.2023,33, 2210771.

(5) M.L. Wang, Y.J. Zhu, Y.J. Sun*, Y. Zhao, X.Z. Yang, X.J. Wang, Y.Z. Song, H.N. Ci*,J.Y. Sun*. A universal graphene-selenide heterostructured reservoir with elevated polysulfide evolution efficiency for pragmatic lithium–sulfur battery,Adv. Funct. Mater.2023,33, 2211978.

(6)Y.H. Zou, Y.W. Su, C.P. Qiao, W.P. Li, Z.K. Xue, X.Z. Yang, M.Y. Lu, W.Y. Guo,J.Y. Sun*. A generic "engraving in aprotic medium" strategy toward stabilized Zn anodes,Adv. Energy Mater.2023,13, 2300932.

(7)Y.H. Zou, C.P. Qiao,J.Y. Sun*. Printable energy storage: Stay or go?ACS Nano2023,17, 17624.

(8)Y.Y. Liu, H. Wang, H.Y. Yang, Z.X. Wang, Z.X. Huang, D.H. Pan, Z.F. Zhang*, Z.Y. Duan, T.T. Xu, D.Z. Kong, X.J. Li, Y. Wang*,J.Y. Sun*. Longevous sodium metal anodes with high areal capacity enabled by 3D-printed sodiophilic monoliths,ACS Nano2023,17, 10844.

(9) Y.F. Ding, Z.X. Shi, Y.J. Sun, J.H. Wu, X.Q. Pan,J.Y. Sun*. Steering bidirectional sulfur redox via geometric/electronic mediator comodulation for Li−S batteries,ACS Nano2023,17, 6002.

(10) X.Z. Yang, J.Z. Lv, C. Cheng, Z.X. Shi, J. Peng, Z.Y. Chen, X.Y. Lian, W.P. Li, Y.H. Zou, Y. Zhao,M.H. Rümmeli, S.X. Dou,J.Y. Sun*. Mosaic nanocrystalline graphene skin empowers highly reversible Zn metal anodes,Adv. Sci.2023,10, 2206077.|Highlighted by MaterialsViews

(11)Y.F. Ding, Z.T. Sun, J.H. Wu, T.R. Yan, L. Shen, Z.X. Shi, Y.H. Wu, X.Q. Pan, L. Zhang, Q. Zhang*,J.Y. Sun*. Tuning dual-atom mediator toward high-rate bidirectional polysulfide conversion in Li–S batteries,J. Energy Chem.2023,87, 462.|Front Cover

(12)R.J. Liu, Z. Peng, X.L. Sun, Z.L. Chen, Z. Li, H.N. Ci, B.Z. Liu, Y. Cheng, B. Jiang, J.X. Hu, W.J. Yin*,J.Y. Sun*, Z.F. Liu*. CO2-promoted transfer-free growth of conformal graphene,Nano Res.2023,16, 6334.



2022

(1) J.Y. Shan, S.M. Sun, W.D. Wang, W. Zhao, R. Zhang, B.Z. Liu, L. Lin, B. Jiang, H.N. Ci, R.J. Liu, W. Wang, X.Q. Yang, W.Y. Guo, M.H. Rümmeli, W.L. Guo*,J.Y. Sun*, Z.F. Liu*. Copper acetate-facilitated transfer-free growth of high-quality graphene for hydrovoltaic generators,Natl. Sci. Rev.2022,9, nwab169.|Highlighted by EurekAlert!

(2) Y.H. Zou, X.Z. Yang, L. Shen, Y.W. Su, Z.Y. Chen, X. Gao, J. Zhou*,J.Y. Sun*. Emerging strategies for steering orientational deposition toward high-performance Zn metal anodes,Energy Environ. Sci.2022,15, 5017.

(3) H.N. Ci, J.T. Chen, H. Ma, X.L. Sun, X.Y. Jiang, K.C. Liu, J.Y. Shan, X.Y. Lian, B. Jiang, R.J. Liu, B.Z. Liu, G.Q. Yang, W.J. Yin, W. Zhao*, L.Z. Huang*, T Gao*,J.Y. Sun*, Z.F. Liu*. Transfer-free quasi-suspended graphene grown on a Si wafer,Adv. Mater.2022,34, 2206389.

(4) Y. Zhao, B.Z. Liu, Y.Y. Yi, X.Y. Lian, M.L. Wang, S. Li,X.Z. Yang,J.Y. Sun*. Anode-free potassium metal battery enabled by directly grown graphene modulated aluminum current collector,Adv. Mater.2022,34, 2202902.

(5)Y.F. Ding, Q.S. Cheng, J.H. Wu, T.R. Yan, Z.X. Shi,M.L. Wang, D.Z. Yang, P. Wang, L. Zhang,J.Y. Sun*. Enhanced dual-directional sulfur redox via biotemplated single-atomic Fe-N2 mediator promises durable Li−S batteries,Adv. Mater.2022,34, 2202256.

(6)Y.Y. Yi, J.Q. Li, Z.X. Gao, W.F. Liu, Y. Zhao, M.L. Wang, W. Zhao, Y. Han,J.Y. Sun*, J.Zhang*.Highly potassiophilic graphdiyne skeletons decorated with Cu quantum dots enable dendrite-free potassium metal anodes,Adv. Mater.2022,34, 2202685.

(7) B. Jiang, D.D. Liang, Z.T. Sun, H.N. Ci, B.Z. Liu, Y.Q. Gao, J.Y. Shan, X.Q. Yang,M.H. Rümmeli, J.X. Wang, T.B. Wei*,J.Y. Sun*, Z.F. Liu*. Toward direct growth of ultra-flat graphene,Adv. Funct. Mater.2022,32, 2200428.|Inside Back Cover

(8) X.Y. Lian, J.H. Zhou, Y.Z. You, Z.N. Tian, Y.Y. Yi, J.-H. Choi*,M.H. Rümmeli*,J.Y. Sun*. Boosting K+ capacitive storage in dual-doped carbon crumples with B–N moiety via a general protic-salt synthetic strategy,Adv. Funct. Mater.2022,32, 2109969.

(9) Y.W. Su, B.Z. Liu, Q.H. Zhang, J. Peng, C.H. Wei, S. Li, W.P. Li, Z.K. Xue, X.Z. Yang,J.Y. Sun*. Printing-scalable Ti3C2Tx MXene-decorated Janus separator with expedited Zn2+ flux toward stabilized Zn anodes,Adv. Funct. Mater.2022,32, 2204306.

(10) T. Huang, Y.J. Sun, J.H. Wu, Z.X. Shi, Y.F. Ding, M.L. Wang, C.L. Su, Y.Y. Li*,J.Y. Sun*. Altering local chemistry of single-atom coordination boosts bidirectional polysulfide conversion of Li–S batteries,Adv. Funct. Mater.2022,32, 2203902.

(11) Z.X. Shi, Y.F. Ding, Q. Zhang*,J.Y. Sun*. Electrocatalyst modulation toward bi-directional sulfur redox in Li–S batteries: From strategic probing to mechanistic understanding,Adv. Energy Mater.2022,12, 2201056.|Inside Back Cover

(12) Y.H. Li, M.L. Wang,J.Y. Sun*. Molecular engineering strategies toward molybdenum diselenide design for energy storage and conversion,Adv. Energy Mater.2022,12, 2202600.

(13) P. Xue, K.P. Zhu, W.B. Gong, J. Pu, X.Y. Li, C. Guo, L.Y. Wu, R. Wang, H.P. Li,J.Y. Sun*, G. Hong, Q. Zhang*, Y.G. Yao*. One stone two birds design for dual-functional TiO2-TiN heterostructures enabled dendrite-free and kinetics-enhanced lithium–sulfur batteries,Adv. Energy Mater.2022,12, 2200308.

(14) Z.X. Shi, H.N. Ci, X.Z. Yang, Z.F. Liu*,J.Y. Sun*. Direct-CVD-enabled graphene for emerging energy storage: Versatility, essentiality, and possibility,ACS Nano2022,16, 11646.|Highlighted by ACS材料X

(15)Y.F. Ding, J.S. Cai, Y.J. Sun, Z.X. Shi, Y.Y. Yi, B.Z. Liu*,J.Y. Sun*. Bimetallic selenide decorated nanoreactor synergizing confinement and electrocatalysis of Se species for 3D-printed high-loading K–Se batteries,ACS Nano2022,16, 3373.|Highlighted by Advances in ENGINEERING

(16) J.Q. Li, Y.Y. Yi, X.T. Zuo, B.B. Hu, Z.H. Xiao, R.Q. Lian, Y. Kong, L.M. Tong, R.W. Shao,J.Y. Sun*, J. Zhang*. A graphdiyne/graphene/graphdiyne sandwiched carbonaceous anode for potassium-ion batteries,ACS Nano2022,16,3163.

(17) Y.H. Wu, Y.F. Ding, X. Han, B.B. Li, Y.F. Wang, S.Y. Dong, Q.L. Li, S.X. Dou,J.Y. Sun*,J.H. Sun*. Modulating coordination environment of Fe single atoms for high-efficiency all-pH-tolerated H2O2 electrochemical production,Appl. Catal. B2022,315, 121578.

(18) Q.H. Zhang, Y.W. Su, Z.X. Shi, X.Z. Yang*,J.Y. Sun*. Artificial interphase layer for stabilized Zn anodes: Progress and prospects,Small2022,18, 2203583.

(19) Y.Y. Yi, Z.H. Zeng, X.Y. Lian, S.X. Dou,J.Y. Sun*. Homologous nitrogen-doped hierarchical carbon architectures enabling compatible anode and cathode for potassium-ion hybrid capacitors,Small2022,18, 2107139.

(20)X.Z. Yang, W.P. Li, J.Z. Lv, G.J. Sun, Z.X. Shi, Y.W. Su, X.Y. Lian, Y.Y. Shao, A.M. Zhi, X.Z. Tian, X.D. Bai, Z.F. Liu*,J.Y. Sun*. In-situ separator modification via CVD-derived N-doped carbon for highly reversible Zn metal anodes,Nano Res.2022,15, 9785.

(21)T. Huang, W.F. Liu, C.L. Su, Y.Y. Li*,J.Y. Sun*. Direct ink writing of conductive materials for emerging energy storage systems,Nano Res.2022,15, 6091.



2021

(1) Z.L. Chen, C.Y. Xie, W.D. Wang, J.P. Zhao, B.Z. Liu, J.Y. Shan, X.Y. Wang, M. Hong, L. Lin, L. Huang, X. Lin, S.Y. Yang*, X. Gao, Y.F. Zhang*, P. Gao*, K.S. Novoselov*,J.Y. Sun*, Z.F. Liu*. Direct growth of wafer-scale highly-oriented graphene on sapphire,Sci. Adv.2021,7, eabk0115.

(2) Z.N. Tian, Z.T. Sun, Y.Y. Shao, L. Gao, R. Huang, Y.L. Shao*, R.B. Kaner*,J.Y. Sun*. Ultrafast rechargeable Zn micro-batteries endowing a wearable solar charging system with high overall efficiency,Energy Environ. Sci.2021,14, 1602.

(3) X.Z. Yang, C. Li, Z.T. Sun, S. Yang, Z.X. Shi, R. Huang, B.Z. Liu, S. Li, Y.H. Wu, M.L. Wang, Y.W. Su, S.X. Dou,J.Y. Sun*. Interfacial manipulation via in situ grown ZnSe cultivator toward highly reversible Zn metal anodes,Adv. Mater.2021,33, 2105951.

(4) Z.X. Shi, Z.T. Sun, J.S. Cai, X.Z. Yang, C.H. Wei, M.L. Wang, Y.F. Ding,J.Y. Sun*. Manipulating electrocatalytic Li2S redox via selective dual‐defect engineering for Li–S batteries,Adv. Mater.2021,33, 2103050.

(5) M.L. Wang, Z.T. Sun, H.N. Ci, Z.X. Shi, L. Shen, C.H. Wei, Y.F. Ding, X.Z. Yang,J.Y. Sun*. Identifying the evolution of Se-vacancy-modulated MoSe2 pre-catalyst in Li–S chemistry,Angew. Chem. Int. Ed.2021,60, 24558.

(6) J.S. Cai, Z.T. Sun, W.L. Cai, N. Wei, Y.X. Fan, Z.F. Liu, Q. Zhang,J.Y. Sun*. A robust ternary heterostructured electrocatalyst with conformal graphene chainmail for expediting bi-directional sulfur redox in Li–S batteries,Adv. Funct. Mater.2021,31, 2100586.

(7) C. Lu, Z.X. Gao, B.Z. Liu, Z.X. Shi, Y.Y. Yi, W. Zhao, W.Y. Guo, Z.F. Liu,J.Y. Sun*. Synchronous promotion in sodiophilicity and conductivity of flexible host via vertical graphene cultivator for longevous sodium metal batteries,Adv. Funct. Mater.2021,31, 2101233. |Highlighted by MaterialsViews

(8) Z.X. Shi, Z.T. Sun, J.S. Cai, Z.D. Fan, J. Jin, M.L. Wang,J.Y. Sun*. Boosting dual-directional polysulfide electrocatalysis via bimetallic alloying for printable Li–S batteries,Adv. Funct. Mater.2021,31, 2006798. |Highlighted by MaterialsViews

(9) Y.Y. Shao, Z.T. Sun, Z.N. Tian, S. Li, G. Wu, M.L. Wang, X.L. Tong, F. Shen, Z. Xia, V. Tung,J.Y. Sun*, Y.L. Shao*. Regulating oxygen substituents with optimized redox activity in chemically reduced graphene oxide for aqueous Zn‐ion hybrid capacitor,Adv. Funct. Mater.2021,31, 2007843.

(10) J.H. Zhou, X.Y. Lian, Y.Z. You, Q.T. Shi, Y. Liu, X.Q. Yang, L.J. Liu, D. Wang, J.-H. Choi*,J.Y. Sun*, R.Z. Yang*, M.H. Rümmeli*. Revealing the various electrochemical behaviors of Sn4P3 binary alloy anodes in alkali metal ion batteries,Adv. Funct. Mater.2021,31, 2102047.

(11) Z.X. Shi, M. Li,J.Y. Sun*, Z.W. Chen*. Defect engineering for expediting Li–S chemistry: Strategies, mechanis and perspectives,Adv. Energy Mater.2021,11, 2100332.|Highlighted by MaterialsViews

(12)Y.X. Jiang, M. Tian, H.B. Wang, C.H. Wei*, Z.H. Sun, M.H. Rümmeli, P. Strasser,J.Y. Sun*, R.Z. Yang*. Mildly oxidized MXene (Ti3C2, Nb2C, and V2C) electrocatalyst via a generic strategy enables longevous Li-O2 battery under a high rate,ACS Nano2021,15, 19640.

(13) T. Huang, Y.J. Sun, J.H. Wu, J. Jin, C.H. Wei, Z.X. Shi, M.L. Wang, J.S. Cai, X.-T. An, P. Wang, C.L. Su, Y.Y. Li*,J.Y. Sun*. A dual-functional fibrous skeleton implanted with single-atomic Co-Nx dispersions for longevous Li–S full batteries,ACS Nano2021,15, 14105.

(14) Z.D. Fan, J. Jin, C. Li, J.S. Cai, C.H. Wei, Y.L. Shao, G.F. Zou*,J.Y. Sun*. 3D printed Zn-ion hybrid capacitor enabled by universal divalent cation-gelated additive-free Ti3C2 MXene ink,ACS Nano2021,15, 3098.

(15) X.L. Tong, Z.N. Tian,J.Y. Sun*, V. Tung, R.B. Kaner*, Y.L. Shao*. Self-healing flexible/stretchable energy storage devices,Mater. Today2021,44, 78.

(16) Y.H. Wu, Z.X. Gao, Y.R. Feng, Q.N. Cui, C.W. Du, C.F. Yu, L. Liang, W. Zhao*, J.L. Feng, J.H. Sun, R.Z. Yang*,J.Y. Sun*.Harnessing selective and durable electrosynthesis of H2O2 over dual-defective yolk-shell carbon nanosphere toward on-site pollutant degradation,Appl. Catal. B2021,298, 120572.

(17) C.H. Wei, M. Tian, Z.D. Fan, L.H. Yu, Y.Z. Song, X.Z. Yang, Z.X. Shi, M.L. Wang, R.Z. Yang*,J.Y. Sun*. Concurrent realization of dendrite-free anode and high-loading cathode via 3D printed N-Ti3C2 MXene framework toward advanced Li–S full batteries,Energy Storage Mater.2021,41, 141.

(18) B. Jiang, S.W. Wang,J.Y. Sun*, Z.F. Liu*. Controllable synthesis of wafer-scale graphene films: Challenges, status, and perspectives,Small2021,17, 2008017. |Highlighted by MaterialsViews

(19)Y.H. Li, M.L. Wang, Y.Y. Yi, C. Lu, S.X. Dou*,J.Y. Sun*. Metallic transition metal dichalcogenides of group VIB: Preparation, stabilization and energy applications,Small2021,17, 2005573.

(20)Y. Zhao, Z.T. Sun, Y.Y. Yi, C. Lu, M.L. Wang, Z. Xia, X.Y. Lian, Z.F. Liu*,J.Y. Sun*. Precise synthesis of N-doped graphitic carbon via chemical vapor deposition to unravel the dopant functions on potassium storage toward practical K-ion batteries,Nano Res.2021,14, 1413.

(21)B.Z. Liu, H.H. Wang, W. Gu, L. Zhou, Z.L. Chen, Y.F. Nie, C.W. Tan, H.N. Ci, N. Wei, L.Z. Cui, X. Gao,J.Y. Sun*, Y.F. Zhang*, Z.F. Liu*. Oxygen-assisted direct growth of large-domain and high-quality graphene on glass targeting advanced optical filter applications,Nano Res.2021,14, 260.



2020

(1) J.S. Cai, J. Jin, Z.D. Fan, C. Li, Z.X. Shi,J.Y. Sun*, Z.F. Liu*. 3D printing of V8C7-VO2 bifunctional scaffold as effective polysulfide immobilizer and lithium stabilizer for Li–S batteriess,Adv. Mater.2020,32, 2005967.

(2) C. Li, Z.T. Sun, T. Yang, L.H. Yu, N. Wei, Z.N. Tian, J.S. Cai, J.Z. Lv, Y.L. Shao, M.H. Rümmeli,J.Y. Sun*, Z.F. Liu. Directly grown vertical graphene carpets as Janus separators toward stabilized Zn metal anodes,Adv. Mater.2020,32,2003425.

(3) Y.Y. Yi, J.Q. Li, W. Zhao, Z.H. Zeng, C. Lu, H. Ren,J.Y. Sun*, J. Zhang*, Z.F. Liu*. Temperature-mediated engineering of graphdiyne framework enabling high-performance potassium storage,Adv. Funct. Mater.2020,30, 2003039.

(4) Y.Y. Yi, Z.T. Sun, C. Li, Z.N. Tian, C. Lu, Y.L. Shao, J. Li*,J.Y. Sun*, Z.F. Liu. Designing 3D biomorphic nitrogen-doped MoSe2/graphene composites toward high-performance potassium-ion capacitors,Adv. Funct. Mater.2020,30,1903878.

(5) C. Lu, Z.T. Sun, L.H. Yu, X.Y. Lian, Y.Y. Yi, J. Li, Z.F. Liu, S.X. Dou*,J.Y. Sun*. Enhanced kinetics harvested in heteroatom dual-doped graphitic hollow architectures toward high rate printable potassium-ion batteries,Adv. Energy Mater.2020,10, 2001161. |Highlighted by MaterialsViews

(6) Y.Z. Song, W.L. Cai, L. Kong, J.S. Cai, Q. Zhang*,J.Y. Sun*. Rationalizing electrocatalysis of Li–S chemistry by mediator design: Progress and prospects,Adv. Energy Mater.2020,10,1901075.

(7) C.H. Wei, M. Tian, M.L. Wang, Z.X. Shi, L.H. Yu, S. Li, Z.D. Fan, R.Z. Yang*,J.Y. Sun*. Universal in situ crafted MOx-MXene heterostructures as heavy and multifunctional hosts for 3D-printed Li–S batteries,ACS Nano2020,14, 16073.

(8) H.N. Ci, J.S. Cai, H. Ma, Z.X. Shi, G. Cui, M.L. Wang, J. Jin, N. Wei, C. Lu, W. Zhao*,J.Y. Sun*, Z.F. Liu. Defective VSe2-graphene heterostructures enabling in situ electrocatalyst evolution for lithium–sulfur batteries,ACS Nano2020,14,11929.

(9) Z.D. Fan, C.H. Wei, L.H. Yu, Z. Xia, J.S. Cai, Z.N. Tian, G.F. Zou*, S.X. Dou,J.Y. Sun*. 3D printing of porous nitrogen-doped Ti3C2 MXene scaffolds for high-performance sodium-ion hybrid capacitors,ACS Nano2020,14,867.

(10) J.S. Cai, Z.D. Fan, J. Jin, Z.X. Shi, S.X. Dou,J.Y. Sun*, Z.F. Liu*. Expediting the electrochemical kinetics of 3D-printed sulfur cathodes for Li–S batteries with high rate capability and areal capacity,Nano Energy2020,75, 104970. |Highlighted by中国科学报

(11) Y.Z. Song, Z.T. Sun, Z.D. Fan, W.L. Cai, Y.L. Shao, G. Sheng, M.L. Wang, L.X. Song, Z.F. Liu, Q. Zhang*,J.Y. Sun*. Rational design of porous nitrogen-doped Ti3C2 MXene as a multifunctional electrocatalyst for Li–S chemistry,Nano Energy2020,70, 104555.

(12) Y.Y. Yi, W. Zhao, Z.H. Zeng, C.H. Wei, C. Lu, Y.L. Shao, W.Y. Guo, S.X. Dou,J.Y. Sun*. ZIF-8@ZIF-67-derived nitrogen-doped porous carbon confined CoP polyhedron targeting superior potassium-ion storage,Small2020,16, 1906566. |Highlighted by MaterialsViews

(13) B. Jiang, Q.Y. Zhao, Z.P. Zhang, B.Z. Liu, J.Y. Shan, L. Zhao, M.H. Rümmeli, X. Gao, Y.F. Zhang, T.J. Yu,J.Y. Sun*, Z.F. Liu*. Batch synthesis of transfer-free graphene with wafer-scale uniformity,Nano Res.2020,13, 1564.

(14)J. Jin, W.L. Cai, J.S. Cai, Y.L. Shao, Y.Z. Song, Z. Xia, Q. Zhang*,J.Y. Sun*. MOF-derived hierarchical CoP nanoflakes anchored on vertically-erected graphene scaffolds as self-supported and flexible hosts for lithium–sulfur batteries,J. Mater. Chem. A2020,8, 3027.|J. Mater. Chem. AHot Paper

(15)J.S. Cai, Y.Z. Song, X. Chen, Z.T. Sun, Y.Y. Yi,J.Y. Sun*, Q. Zhang*. MOF-derived conductive carbon nitrides for separator-modified Li–S batteries and flexible supercapacitors,J. Mater. Chem. A2020,8, 1757.|J. Mater. Chem. AHot Paper



2019

(1) Z.N. Tian, X.L. Tong, G. Sheng, Y.L. Shao*, L.H. Yu, V. Tung,J.Y. Sun*, R.B. Kaner*, Z.F. Liu. Printable magnesium ion quasi-solid-state asymmetric supercapacitors for flexible solar-charging integrated units,Nature Commun.2019,10, 4913.

(2) L.H. Yu, Z.D. Fan, Y.L. Shao*, Z.N. Tian,J.Y. Sun*, Z.F. Liu. Versatile N-doped MXene ink for printed electrochemical energy storage application,Adv. Energy Mater.2019,9, 1901839.

(3) M.L. Wang, Y.Z. Song, Z.T. Sun, Y.L. Shao, C.H. Wei, Z. Xia, Z.N. Tian, Z.F. Liu*,J.Y. Sun*. Conductive and catalytic VTe2@MgO heterostructure as effective polysulfide promotor for lithium−sulfur batteries,ACS Nano2019,13, 13235.

(4) N. Wei, L.H. Yu, Z.T. Sun, Y.Z. Song, M.L. Wang, Z.N. Tian, Y. Xia, Y.Y. Li*, L. Zhao, Q.C. Li, M.H. Rümmeli,J.Y. Sun*, Z.F. Liu*. Scalable salt-templated synthesis of nitrogen-doped graphene nanosheets toward printable energy storage,ACS Nano2019,13, 7517. |Highlighted by Phys.org

(5) N. Wei, J.S. Cai, R.C. Wang, M.L. Wang, W. Lv*, H.N. Ci,J.Y. Sun*, Z.F. Liu. Elevated polysulfide regulation by an ultralight all-CVD-built ReS2@N-Doped graphene heterostructure interlayer for lithium–sulfur batteries,Nano Energy2019,66, 104190.

(6) C. Li, S. Cong, Z.N. Tian, Y.Z. Song, L.H. Yu, C. Lu, Y.L. Shao, J. Li, G.F. Zou*, M.H. Rümmeli, S.X. Dou,J.Y. Sun*, Z.F. Liu*. Flexible perovskite solar cell-driven photo-rechargeable lithium-ion capacitor for self-powered wearable strain sensors,Nano Energy2019,60, 247.

(7) Z. Xia, H. Sun, X. He, Z.T. Sun, C. Lu, J. Li, Y. Peng*, S.X. Dou,J.Y. Sun*, Z.F. Liu. In situ construction of CoSe2@vertical-oriented graphene arrays as self-supporting electrodes for sodium-ion capacitors and electrocatalytic oxygen evolution,Nano Energy2019,60, 385.

(8)Z. Hu, Z.Z. Li, Z. Xia, T. Jiang, G. Wang,J.Y. Sun*, P.F. Sun, C.L. Yan*, L. Zhang*. PECVD-derived graphene nanowall/lithium composite anodes towards highly stable lithium metal batteries,Energy Storage Mater.2019,22, 29.

(9)C. Lu, Z.Z. Li, Z. Xia, H.N. Ci, J.S. Cai, Y.Z. Song, L.H. Yu, W.J. Yin, S.X. Dou,J.Y. Sun*, Z.F. Liu*. Confining MOF-derived SnSe nanoplatelets in nitrogen-doped graphene cages via direct CVD for durable sodium ion storage,Nano Res.2019,12, 3051.

(10)L.H. Yu, Y.Y. Yi, T. Yao, Y.Z. Song, Y.R. Chen, Q.C. Li, Z. Xia, N. Wei, Z.N. Tian, B.Q. Nie, L. Zhang, Z.F. Liu*,J.Y. Sun*. All VN-graphene architecture derived self-powered wearable sensors for ultrasensitive health monitoring,Nano Res.2019,12, 331.

(11)Y.Z. Song, Z.T. Sun, J.S. Cai, N. Wei, M.L. Wang, Y.L. Shao, Z.F. Liu*,J.Y. Sun*. Accelerated Li–S chemistry at a cooperative interface built in situ,J. Mater. Chem. A2019,7,20750.

(12)N. Wei, Q.C. Li, S. Cong, H.N. Ci, Y.Z. Song, Q.F. Yang, C. Lu, C. Li, G.F. Zou,J.Y. Sun*, Y.F. Zhang*, Z.F. Liu*. Direct synthesis of flexible graphene glass with macroscopic uniformity enabled by copper-foam-assisted PECVD,J. Mater. Chem. A2019,7, 4813.



2018

(1)J.Y. Sun*, C. Lu, Y.Z. Song, Q.Q. Ji, X.J. Song, Q.C. Li, Y.F. Zhang, L. Zhang*, J. Kong, Z.F. Liu*. Recent progress in tailored growth of two-dimensional hexagonal boron nitride via chemical vapour deposition,Chem. Soc. Rev.2018,47, 4242.

(2) Y.Z. Song, W. Zhao, L. Kong, L. Zhang*, X.Y. Zhu, Y.L. Shao, F. Ding, Q. Zhang*,J.Y. Sun*, Z.F. Liu. Synchronous immobilization and conversion of polysulfides on a VO2-VN binary host targeting high sulfur load Li–S batteries,Energy Environ. Sci.2018,11, 2620.

(3) X.G. Wang, Q.C. Li, L. Zhang*, Z.L. Hu, L.H. Yu, T. Jiang, C. Lu, C.L. Yan,J.Y. Sun*, Z.F. Liu. Caging Nb2O5 nanowires in PECVD-derived graphene capsules toward bendable sodium-ion hybrid supercapacitors,Adv. Mater.2018,30, 1800963.

(4) Y.Y. Yi, L.H. Yu, Z.N. Tian, Y.Z. Song, Y.L. Shao, L.J. Gao,J.Y. Sun*, Z.F. Liu*. Biotemplated synthesis of transition metal nitride architectures for flexible printed circuits and wearable energy storages,Adv. Funct. Mater.2018,28, 1805510.

(5) X.Y. Zhu, F. Zhang, L. Zhang*, L.Y. Zhang, Y.Z. Song, T. Jiang, S. Sayed, C. Lu, X.G. Wang,J.Y. Sun*, Z.F. Liu*. A highly stretchable cross-linked polyacrylamide hydrogel as an effective binder for silicon and sulfur electrodes toward durable Li-ion storage,Adv. Funct. Mater.2018,28,1705015.

(6) Z.L. Hu, S. Sayed, T. Jiang, X.Y. Zhu, C. Lu, G.L. Wang,J.Y. Sun*, A. Rashid, C.L. Yan, L. Zhang*, Z.F. Liu. Self‐assembled binary organic granules with multiple lithium uptake mechanis toward high‐energy flexible Li‐ion hybrid supercapacitors,Adv. Energy Mater.2018,8, 1802273.

(7) X.Y. Zhu, W. Zhao, Y.Z. Song, Q.C. Li, F. Ding,J.Y. Sun*, L. Zhang*, Z.F. Liu. In situ assembly of 2D conductive VS2 with graphene as a high-sulfur-loading host for lithium−sulfur batteries,Adv. Energy Mater.2018,8,1800201.

(8) Q.C. Li, Y.Z. Song, R.Z. Xu, L. Zhang*, J. Gao, Z. Xia, Z.N. Tian, N. Wei, M.H. Rümmeli, X.L. Zou,J.Y. Sun*, Z.F. Liu*. Bio-templating growth of nepenthes-like N-doped graphene as a bifunctional polysulfide scavenger for Li−S batteries,ACS Nano2018,12, 10240.

(9) Y.Z. Song, W. Zhao, N. Wei, L. Zhang, F. Ding, Z.F. Liu,J.Y. Sun*. In-situ PECVD-enabled graphene-V2O3 hybrid host for lithium–sulfur batteries,Nano Energy2018,53, 432.

(10) C Lu, ZZ Li, LH Yu, L Zhang*, Z Xia, T Jiang, WJ Yin, SX Dou, ZF Liu*,J.Y. Sun*. Nanostructured Bi2S3 encapsulated within three-dimensional N-doped graphene as active and flexible anodes for sodium-ion batteries,Nano Res.2018,11, 4614.