17. 整体式双梯度空气电极的原位构筑及锌空电池三维界面催化机制，国家自然科学基金面上项目（22379056），2024.01-2027.12。（主持，在研）

16. 江苏省产学研合作项目，BY20230347，2023-2024，50万元，在研，主持。

15. 具有伸缩界面的硅/碳纤维锂离子电池负极材料的关键技术研发，镇江市碳达峰碳中和专项产业前瞻与共性关键技术攻关项目 （CG2023003），2023.07~2026.06。 （主持，在研）

14. 阻燃型PEO/MOFs基电解质膜的构筑及其全固态锂离子电池的安全性能，镇江市重点研发计划（社会发展），2019.06-2021.05。 （主持，已结题）

13. 江苏科技大学‘深蓝人才工程’第一层次人才培养对象，2018.09～2022.08. （主持，在研）

12. "锂硫电池阻燃型MOFs基聚合物固态电解质膜的构筑和性能研究" （BK20181469）, 江苏省自然科学基金面上项目，2018.07～2021.06. （主持，已结题）

11. "异原子掺杂多孔碳包覆硅团簇的构筑及其协同储锂性能", 中国博士后基金(no. 2017M611747),  2017.07～2018.12. （主持，已结题）

10. "混合动力船舶锂离子电池硅基负极材料的制备及其储锂性能研究", 江苏高校协同创新中心资助项目,  2016.01～2017.12。（主持，已结题）

9.  “新一代高效阻燃聚烯烃纳米复合材料及其可持续循环：设计、制备、构效关系和机理”. AMAROUT-II EUROPE (291803)，2014.10～2016.10（主持，已结题）

8. “资源再生型磁性多孔碳纳米材料的宏量可控制备及吸附性能研究”，江苏省自然科学基金面上项目(BK20141293), 2015.1～2017.12（主持，已结题）

7. “聚烯烃/功能化蒙脱土体系的成炭行为及阻燃机理研究”，火灾国家重点实验室开放基金(HZ2015-KF03), 2015.1～2016.12（主持，在研）

6.  “磁性多孔碳材料的废塑料转化制备及重金属离子吸附性能研究”，江苏省高校自然科学面上基金(13KJB430012) , 2014.1～2015.12（主持，已结题）

5.  “磁性多孔碳的可控合成及其吸附性能研究”，中科院能源转换重点实验室开放基金(KF 2014006), 2013.09～2014.09（主持，已结题）

4.  “新型铁氧化物石墨夹层化合物的合成及电化学性能研究”，中国博士后基金(20110491569), 2011.06～2012.12（主持，已结题）；

3.  “低温液相合成特殊形貌和结构的碳纳米材料及其性能研究”，江苏省高校自然科学基础研究基金(10KJB430016) , 2010.1～2010.12（主持，已结题）；

2. “磁性材料与碳包覆磁性复合材料的合成、表征及性能研究”，江苏科技大学博士启动基金(35060810), 2008.10～2011.10（主持，已结题）；

1. “《无机与分析化学》网络教学平台开发及应用研究”，省现代教育研究所教改项目(2010-R-17091), 2010.01～2012.12（主持，已结题）。

               课题组导师介绍

   张俊豪            郭兴梅          刘元君          郑祥俊

  凡倩倩       段中尧

2012-2025级研究生介绍

博士研究生

硕士研究生

(46) 2025年中国研究生“双碳”创新与创意大赛优秀指导教师。

(45) 2025年 第四届中国研究生“双碳”创新与创业大赛一等奖（指导教师）。

(44) 入选2025年全球前2%顶尖科学家榜单，包括终身科学影响力榜单和2025年度科学影响力榜单。

(43) 2025年获得全国大学生生命科学竞赛第二等次（指导教师）。

(42) 2024年江苏科技大学教学优秀奖(A+)。

(41) 2024年 第三届中国研究生“双碳”创新与创业大赛三等奖（指导教师）。

(40) 入选2024年全球前2%顶尖科学家榜单（world's Top 2% Scientists 2022）.

(39) 2024年 全国大学生生命科学创新创业大赛三等奖。

(38) 2023年校教学考核优秀奖(A+)。

(37) 2023年中国研究生“双碳”创新与创意大赛优秀指导教师。

(36) 2023年 第二届中国研究生“双碳”创新与创业大赛一等奖（指导教师）。

(35) 2023年 全国大学生生命科学创新创业大赛一等奖（指导教师）。

(34) 2023年 全国大学生生命科学创新创业大赛三等奖（指导教师）。

(33) 江苏省“科技副总”， 2023.

(32) 面向高效电化学储能 的MOFs及其衍生纳米 多孔材料的可控构筑 及应用, 中国石油和化学工业联合会科学技术三等奖，4/5， 2022.

(31) 江苏科技大学优秀硕士论文 （学生：高明月，指导老师：张俊豪），2022.

(30) 入选2022年版全球前2%顶尖科学家（world's Top 2% Scientists 2022）.

(29) 2022年 全国大学生生命科学创新创业大赛三等奖

(28) 受聘为International Journal of Minerals, Metallurgy and Materials青年编委，2022.

(27) 全国大学生生命科学创新创业大赛特等奖（学生：童祥芝，周东成，牛桂玲，王敬敬；指导老师：郭兴梅，张俊豪），2021.

(26) 江苏科技大学优秀硕士论文 （学生：薛艳春，指导老师：张俊豪），2021.

(25) 江苏科技大学优秀硕士论文 （学生：陈家乐，指导老师：张俊豪），2021.

(24) 镇江市优秀科技论文（1/8），2021.

(23）江苏省研究生新能源材料与器件科研创新实践大赛优胜奖 （学生：薛艳春，高明月，吴梦荣，指导老师：张俊豪），2020.

(22) 江苏科技大学优秀党务工作者，2020.

(21)江苏科技大学优秀本科毕业论文（学生：杨丹丹、张帝、乔苏钰、钱龚敏，指导老师：张俊豪、郭兴梅、朱佳）， 2020.

(20)江苏科技大学教学优秀奖（A+），2019

(19)江苏科技大学优秀硕士论文(学生：苏冬芹，指导老师：张俊豪), 2019。 

(18)江苏科技大学青年学者第一层次, 2018。

(17)江苏科技大学第二届“悦读•起航”“数字资源利用之星”荣誉称号, 2018.

(16)江苏科技大学优秀本科毕业论文（学生：陈家乐，指导老师：张俊豪）， 2018.

(15) 第十届全国大学生节能减排社会实践与科技竞赛（三等奖）（学生：于婷婷、黄曼、刘慧丽、苏冬芹、唐泽华、陈家乐。指导老师：张俊豪）

(14) 江苏科技大学优秀硕士论文(学生：黄曼，指导老师：张俊豪), 2017。

(13)  镇江市“师德先进个人”，2017。

(12) 江苏科技大学"优秀教师", 2017。

(11) 江苏省"青蓝工程"优秀青年骨干教师培养对象, 2016.

(10) 镇江市优秀科技论文三等奖（1/6）, 2016.

(9)  江苏科技大学优秀硕士论文(学生：闫博，指导老师：张俊豪), 2015。

(8) 欧盟委员会“居里学者”, 2014。

(7) 江苏安全生产科技项目成果奖励（江苏安全生产技术奖）三等奖(2/5), 2010。

(6) 镇江市优秀科技论文三等奖（1/5），2010。

(5) 江苏科技大学“三育人”先进个人, 2012。

(4) 江苏科技大学“优秀班主任”, 2012。

(3) 江苏科技大学“优秀教师”,2010。

(2) 江苏科技大学“优秀班主任”, 2010。

(1) 江苏科技大学“优秀标兵班主任”, 2010。

2026

[170] Zhao Yafei, Guo Xingmei*, Li Hanzhen, He Weidong, Fan Qianqian, Duan Zhongyao, Xiong Shenglin, Kong Qinghong, Zhang Junhao*. Janus carbonaceous assembly of biomimetic wettability-gradient air electrode for optimizing zinc-air battery kinetics. Science Bulletin, 2026, 71: 785-794.

[169] Yu Yang, Zong Yijing, Li Tao, Guo Xingzhou, Yi Wencai, Yin Meng, Li Junfang, Zhang Junhao*, Kong Qinghong*, Xi Guangcheng*. Single-crystalline-mesoporous TiN nanosheets free of intrinsic Raman scattering for highly sensitive surface-enhanced Raman spectroscopy. Analytical Chemistry, 2026, 98(1):934-943.

[168] Wang Huan, Lu Jiajie, Wang Peinan, Zhang Wenhui, Fan Qianqian, Yuan Saisai, Xiong Weiwei*, Zhang Junhao*, Zheng Fenfen*. Three-dimensional covalent organic framework with 8-connected cubic nodes for high-performance lithium-ion batteries. Chemical Engineering Journal, 2026, 528: 172372.

[167] Wang Jiahui, Shi Wenhua, Zheng Xiangjun*, Cui Yaman, Zhao Jiayu, Guo Xingmei, Fan Qianqian, Duan Zhongyao, Zeng Kai*, Zhang Junhao*. A multifunctional bridged-carbon scaffold: a universal electrodeposition platform for bifunctional catalysts toward flexible zinc-air batteris. Chemical Communications, 2026, 62(4): 1233-1237.

[166] Wang Yuanyuan, Yuan Lei, Yuan Zhicheng, Jiang Qiming, Zhu Fangyan, Zhang Junhao*, Zheng Xiangjun, Liu Yuanjun, Fan Qianqian, Duan Zhongyao, Cao Fu, Kong Qinghong, Guo Xingmei*. Fesign and in-situ growth of tightly coupled Ni(OH)2/C3N4 hetero-nanosheets as robust bifunctional catalyst for enhanced water electrolysis, Journal of Colloid and Interface Science, 2026, 715: 140302.

[165] Xu Zhao, Jiang Qiming, Duan Zhongyao*, Zhang Junhao*, He Weidong, Wang Qing, Long Huixia, Liu Yuanjun, Zheng Xiangjun, Fan Qianqian, Guo Xingmei*. Electrostatic repulsion and interface engineering in the low-crystalline/crystalline Ni3N@NiFeHPOx heterostructure toward enhanced alkaline water and seawater splitting. Journal of Colloid and Interface Science, 2026, 701: 138662.

[164] Hu Ben, Zhang Shuya, Zhu Zhenpeng, Guo Xingmei, Liu Yuanjun, Zheng Xiangjun, Fan Qianqian, Duan Zhongyao, Kong Qinghong, Zhang Junhao*. Double-carbon layer protection strategy for enhancing the sodium storage of Bi@C@CNFs composites with three-dimensional structure. Journal of Alloys and Compounds, 2026, 1056: 186672.

[163] Yang Ruize, Liu Juan, Zhang Xiaohui, Wang Peinan, Lu Jiajie, Xiong Weiwei*, Yuan Saisai*, Zheng Fenfen, Zhang Junhao, Zhu Wenlei*. Elucidating the distinct roles of metal ion doping and alloying in MOF reconstruction toward enhanced oxygen evolution reaction. 2026, accepted.

2025

[162] Wang Yuanyuan, Yin Rui, Yuan Lei, Guo Xingmei*, Zheng Xiangjun, Fan Qianqian, Duan Zhongyao, Liu Yuanjun, Zhang Junhao*, Xiong Shenglin*. Uniform sub-5 nm crystalline nickel-based heterojunctions for overall water splitting electrocatalysis. ACS Energy Letters, 2025, 10(2): 837-844.

[161] Wang Yuanyuan, Guo Xingmei*, Zhao Yafei, Xu Zhao, Fan Siying, Long Huixia, Fan Qianqian, Duan Zhongyao, Zhang Junhao*, Jin Zhong*.  The anodic chlorine ion repelling mechanisms of Fe/Co/Ni-based nanocatalysts for seawater electrolytic hydrogen production. Nano Energy, 2025, 135: 110662.

[160] Fan Siying, Li Ming, Chen Yuqi, Fan Qianqian*, Zhang Junhao*, Zheng Xiangjun, Liu Yuanjun, Duan Zhongyao, Guo Xingmei. Confined complexation induced size control of Fe/Fe2O3/Fe5C2 muti-component nanoparticles embedded in Fe, N doped mesoporous carbon toward efficient oxygen electrocatalysis. ACS Sustainable Chemistry & Engineering, 2025, 13(6): 2345-2354.

[158] Fan Qianqian, Wang Jing, Gao Zhiyuan, Zhu Zhenpeng, Guo Xingmei, Liu Yuanjun, Zheng Xiangjun, Duan Zhongyao, Kong Qinghong, Zhang Junhao. Citric acid-modified silicon anode with dual carbon stress modulation for stable lithium storage. Chinese Journal of Chemical Engineering, 2025, 87:  229-238. 

[157] Liu Xinyu, Zhang Shuya, Duan Zhongyao, Guo Xingmei, Liu Yuanjun, Zheng Xiangjun, Fan Qianqian, Kong Qinghong, Zhang Junhao. Synergistic encapsulation engineering of N-doped carbon confined Bi2Se3 nanocomposites for stable sodium-ion storage. Journal of Power Source, 2025, 649: 237471.

[156] Shi Wenhua, Zheng Xiangjun*, Wang Jiahui, Wang Xiujie, Guo Xingmei, Liu Yuanjun, Zhang Junhao*, Cao Xuecheng*, Yang Ruizhi*. Heteroatom/flexibility-adaptive carbon electrode via shallow-etching strategy enables long-life zinc air batteries. Journal of Colloid And Interface Science, 2025, 698: 138064.

[155] Shen Kuan, Chen Yuqi, Li Ming, Guo Xingmei*, Fan Siying, Zhao Yafei, Xu Zhao, Wang Yuanyuan, Kong Qinghong, Zhang Junhao*. A straightforward polymerization-pyrolysis strategy to prepare N, P, S troply doped carbon nanosheets as efficient electrocatalyst for oxygen reduction reaction. Journal of Electroanalytical Chemistry, 2025, 992: 119296. 

[154] Gu Hui#, Zhu Zhenpeng#, Gao Zhiyuan, Zhang Junhao*, Guo Xingmei, Liu Yuanjun, Zheng Xiangjun, Fan Qianqian, Duan Zhongyao, Cao Fu, Li Chunsheng*, Kong Qinghong*. Ge-Si/C nanofiber composite with enhanced cyclic stability and rate capability for lithium-ion batteries. ACS Applied Nano Materials, 2025, 8(5): 2196-2204.

[153] Xie Chuan, Xue Kai, Guo Xingmei, Liu Yuanjun, Zheng Xiangjun, Fan Qianqian, Duan Zhongyao, Cao Fu, Zhang Junhao*. Uniformly dispersing Sb2Se3 nanoparticles in porous carbon as an anode material for enhancing sodium storage capacity. Chemical Communications, 2025, 61(7): 1423-1426.

[152] Zhang Tianli, Yu Pengfei, Guo Xingmei, Liu Yuanjun, Zheng Xiangjun, Duan Zhongyao, Fan Qianqian, Cao Fu, Li Chunsheng, Kong Qinghong, Zhang Junhao*.  Co2P/CoP embeded in N, P, S triply-doped hollow carbon towards enhanced oxygen electrocatalysis. Journal of Colloid And Interface Science, 2025, 679: 273-281.

[151] Wang Zhe#, Zhu Zhenpeng#, Xue Kai, Guo Xingmei, Liu Yuanjun, Zheng Xiangjun, Fan Qianqian, Duan Zhongyao, Kong Qinghong, Zhang Junhao*. Fabrication of Sb-based alloys/carbon nanofibers with uniform dispersion as anode material for high efficiency sodium storage. Chinese Journal of Chemical Engineering, 2025.

[150] Zhu Zhenpeng, Zhang Shuya, Shen Kuan, Cao Fu*, Kong Qinghong, Zhang Junhao*. Ion-replacement strategy in preparing Bi-based MOF and its dereved Bi/C composite for efficient sodium storage. Batteries, 2025, 11: 2.

2024

[149] Fan Qianqian, Zhang Junhao*, Fan Siying, Xi Baojuan, Gao Zhiyuan, Guo Xingmei, Duan Zhongyao, Zheng Xiangjun, Liu Yuanjun, Xiong Shenglin*. Advances in Functional Organosulfur-Based Mediators for Regulating Performance of Lithium Metal Batteries. Advanced Materials,  2024, 36(45): 2409521.

[148]Zhao Yafei, Xue Kai, Liu Xinyu, Gao Zhiyuan, Zhang Junhao, Liu Yuanjun, Zheng Xiangjun, Duan Zhongyao, Fan Qianqian, Guo Xingmei.Sb nanoparticles embedded uniformly on the surface of porous carbon fibres for high-efficiency sodium storage. Chemical Communications, 2024, 60(91): 13428-13431.

[147] Yu Haiwei#, Zhao Yafei#, Zhang Junhao*, Liu Yuanjun, Zheng Xiangjun, Fan Qianqian, Duan Zhongyao, Guo Xingmei. Coordination regulation strategy in fabricating Bi₂S₃@CNFs composites with uniform dispersion for robust sodium storage. Inorganic Chemistry, 2024, 63(45): 21441-21449.

[146] Guo Liuyang, Jiang Qiming, Liu Shanjing, Zeng Ziyi, Guo Xingmei*, Zheng Xiangjun, Liu Yuanjun, Fan Qianqian, Duan Zhongyao, Li Chuansheng*, Zhang Junhao*. Seaweed-like Co-MOF/Cu(OH)2/CF composite as an advanced pre-catalyst  for oxygen evolution reaction. International Journal of Hydrogen Energy, 2024, 94: 278-284.

[145] Shi Wenhua, Lu Shan, Chao Ming, Zheng Xiangjun*, Gong Hongyu, Qian Yuhang, Gao Fei, Guo Xingmei, Liu Yuanjun, Zhang Junhao*, Yang Ruizhi*. A bottom-up puzzle strategy for P/B co-doped carbon nanosheets as efficient oxygen reaction electrocatalysts. Applied Surface Science,  2024, 649: 159172.

[144] Yixuan Bai, Peixue Fu, Yuan Gan, Qin Cheng, Jiacheng Wang, Xingmei Guo, Weiwei Xiong* Xiaofang Cheng*, Fenfen Zheng and Junhao Zhang*. Iron-nickel synergistic catalysis growth of (Fe,Ni)₉S₈/Ni₃S₂@N,S codoped carbon bridged nanowires enhanced oxygen evolution reaction performance. Journal of Colloid and Interface Science, 2024, 670: 364-372.

[143] Hui Gu#, Mingyue Gao#, Tianli Zhang, Junhao Zhang*, XiangjunZheng, Xingmei Guo, YuanjunLiu, FuCao, Qinghong Kong, ShenglinXiong*. F127 assisted fabrication of Ge/rGO/CNTs nanocomposites with three-dimensional network structure for efficient lithium storage. Chinese Chemical Letters, 2024, 35: 109273.

[142] Bingrong Xu, Mengting Duan, Kuan Shen, Xingmei Guo*, Xinran Yang, Mingming Zhang, Bincheng Yue, Mengjia Zhang, Junhao Zhang*, Zhong Jin*. Hydrothermal hydrolyzation-driven topological transformation of Ni-Co bimetallic compounds with hollow nanoflower structure for optimizing hydrogen evolution catalysis. ACS Applied Materials & Interfaces, 2024, 16(13): 16399-16407. 

[141] Yuhang Qian, Xinye Liu, Xiangjun Zheng,* Zilong Yang, Yanjie Yu, Fei Gao, Xingmei Guo, Yuanjun Liu, Xuecheng Cao, Junhao Zhang*. N/S-doped hierarchical porous bamboo carbon fibers with ultra-large surface area and highly exposed active sites for flexible zinc-air battery. Chinese Journal of Chemistry, 2024, 42: 2647-2655.

[140] Ming Li, Jing Shi, Bingrong Xu, Xinran Yang, Fei Gao*, Xiangjun Zheng, Yuanjun Liu, Fu Cao, Xingmei Guo*, Junhao Zhang*. Size-controlled Co/CoO heterogeneous nanoparticles confined in N-doped mesoporous carbon for efficient oxygen reduction in zinc-air batteries. Journal of Colloid and Interface Science,  2024, 653, 1317-1325.

[139] Ming Zhou#, Mengrong Wu#, Xiangjun Zheng*, Xingmei Guo, Yuanjun Liu, Fu Cao, Qinghong Kong, Junhao Zhang*. Controllable fabrication of FeCoS4 nanoparticles/S-doped bowl-shaped hollow carbon as efficient lithium storage anode. Chinese Journal of Chemical Engineering, 2024, 67:78-88. 

[138] Peixue Fu, Haixing Song, Chuanqi Song, Ruize Yin, Jiacheng Wang, Yaoyao Liao, Yuchang Yan, Weiwei Xiong*, Fenfen Zheng*, Aihua Yuan, Junhao Zhang*. NixSy/N, S-codoped carbon (NSC) hollow microspheres derived from a novel metal organic porous polymer for high performance lithium ion batteries. Electrochimica Acta, 2024, 478: 143823.

[137] Zhang Mingming, Shen kuan, Gao Mingyue, Guo xingmei*, Zhang Junhao*, Gu Hongxing*, Kong Qinghong, Jin Zhong*. Triblock polymer/acetylene black dual-assisted preparation of Ge/C nanocomposites with superior lithium storage performance. Batteries & Supercaps, 2024, 7(9): e202400139.

2023

[136] Xingmei Guo, Jing Shi, Ming Li, Junhao Zhang*, Xiangjun Zheng, Yuanjun Liu,  Baojuan Xi, Xugang An, Zhongyao Duan, Qianqian Fan, Fei Gao, Shenglin Xiong.Modulating coordination of iron atom clusters on N, P, S triply-doped hollow carbon support towards enhanced electrocatalytic oxygen reduction. Angewandte Chemie International Edition, 2023, 62(49), e202314124

[135] Xingmei Guo, Junhao Zhang*, Lei Yuan, Baojuan Xi, Fei Gao, Xiangjun Zheng, Ruiyu Pan, Liuyang Guo, Xuguang An, Tongxiang Fan, Shenglin Xiong*. Biologically assisted construction of advanced electrode materials for electrochemical energy storage and conversion. Advanced Energy Materials, 2023, 13(24): 202204376.

[134] Haiwei Yu#, Mingyue Gao#, Ming Zhou, Hui Gu, Xiangjun Zheng,* Xingmei Guo, Yuanjun Liu, Fu Cao, Qinghong Kong, Junhao Zhang*. F127/PDA dual-assisted fabricating high dispersed Ge nanoparticles /N-doped porous carbon composites with efficient lithium storage. Journal of Materials Research and Technology, 2023, 26: 5055-5064. 

[133] Tianli Zhang#, Mengrong Wu#, Hui Gu, Haiwei Yu, Ming Zhou, Xingmei Guo, Yuanjun Liu, Xiangjun Zheng, Qinghong Kong, Junhao Zhang*. Double carbon modified CoS2/NiS2 as anode material for efficient lithium storage performance. Journal of Energy Storage, 2023, 73: 108981.

[132] Xingwei Cai, Jinfeng Xie, Xingmei Guo, Xiangjun Zheng, Yuanjun Liu, Fu Cao*, Xiaohong Dong, Qinghong Kong, Junhao Zhang*. Suppressing polysulfide shuttle in lithium-sulfur batteries using CNTs/C3N4/S cathodes. Materials Today Communications, 2023, 35: 106138.

[131] Kai Xue^#, Yanchun Xue^#, Jing Wang, Shuya Zhang, Xingmei Guo*, Xiangjun Zheng, Fu Cao*, Qinghong Kong, Junhao Zhang*, Zhong Jin*. KOH-assisted aqueous synthesis of ZIF-67 with high-yield and its derived cobalt selenide/carbon composites for high-performance Li-ion batteries. Chinese Journal of Chemical Engineering, 2023, 57:214-223.

[130] Jing Wang, Jiale Chen, Shuya Zhang, Kai Xue, Junhao Zhang*, Fu Cao*, Qinghong Kong, Xingmei Guo*. Si nanoparticles confined in N, P- doped double carbon as efficient anode materials for lithium ion batteries. Journal of Alloys and Compounds, 2023, 935(1): 167850.

[129] Yue Sun#,Shiqi Li#,Xinran Yang#,Yutang Zhang,Bangzheng Liao,Chengxing Zhu,Jiajun Yang,Bingrong Xu, Fu Cao*,Xingmei Guo*,Junhao Zhang*. Bacteria-assisted synthesis of Fe-Co-Ni-S/hollow carbon spheres as high-performance supercapacitor electrode materials.Chemistryselect, 2023, 8:e202203439.

[128] Shuya Zhang, Yanchun Xue, Yutang Zhang, Chengxing Zhu, Xingmei Guo*, Fu Cao, Xiangjun Zheng, Qinghong Kong, Junhao Zhang, Tongxiang Fan*. KOH-assisted aqueous synthesis of bimetallic metal-organic frameworks and their derived selenide composites for efficient lithium storage. International Journal of Minerals, Metallurgy and Materials, 2023,30(4): 601-610.

2022年

[127] Xingmei Guo, Mengting Duan, Junhao Zhang*, Baojuan Xi, Ming Li, Rui Yin, Xiangjun Zheng, Yuanjun Liu, Fu Cao, Xuguang An, and Shenglin Xiong*. A General Self-Assembly Induced Strategy for Synthesizing 2D Ultrathin Cobalt-Based Compounds Toward Optimizing Hydrogen Evolution Catalysis. Advanced Functional Materials, 2022, 32(51): 2209397.

[126] Xiangjun Zheng, Yuhang Qian, Hongyu Gong, Wenhua Shi, Jin Yan, Wentao Wang, Xingmei Guo, Junhao Zhang*, Xuecheng Cao*, Ruizhi Yang*, Bridge-linking interfacial engineering of triple carbons for highly efficient and binder-free electrodes toward flexible Zn-air batteries, Applied. Catalysis B: Environmental, 2022, 319, 121937. (一区，IF= 24.319)

[125] Xingmei Guo, Shanjing Liu,Xiaohan Wan, Junhao Zhang*, Yuanjun Liu, Xiangjun Zheng, Qinghong Kong,. Zhong Jin^*. Controllable solid-phase fabrication of an Fe₂O₃/Fe₅C₂/Fe-N-C electrocatalyst toward optimizing the oxygen reduction reaction in zinc-air batteries. Nano Letters, 2022, 22(12): 4879-4887. 

[124] Mingyue Gao^#, Yanchun Xue^#, Yutang Zhang, Chengxing Zhu, Haiwei Yu, Xingmei Guo^*, Shasha Sun, Shenglin Xiong^*, Qinghong Kong, Junhao Zhang^*. Growing Co-Ni-Se nanosheets on 3D carbon frameworks as advanced dualfunctional electrodes for supercapacitors and sodium ion batteries. Inorganic Chemistry Frontier, 2022, 9(15): 3933-3942.

[123] Shanjing Liu^#, Xiaohan Wan^#, Yue Sun, Shiqi Li, Xingmei Guo^*, Ming Li, Rui Yin, Qinghong Kong, Jing Kong, Junhao Zhang^*. Cobalt-based multicomponent nanoparticles supported on N-doped graphene as advanced cathodic catalyst for zinc-air batteries. International Journal of Minerals, Metallurgy and Materials, 2022, 29(12): 2212-2220. 

[122] Xingmei Guo^#, Jinfeng Xie^#, Jing Wang, ShangqingSun, Feng Zhang, Fu Cao, Yuanjun Liu, Xiangjun Zheng, Junhao Zhang^*, Qinghong Kong. Fabricating TiO₂/N-doped carbon nanofibers as advanced interlayer for improving cycling reversibility of lithium-sulfur batteries. Chinese Journal of Chemical Engineering, 2022, 52, 88-94.

[121] Xingmei Guo, Wei Zhang, Jing Shi, Mengting Duan, Shanjing Liu, Junhao Zhang*, Yuanjun Liu, Shenglin Xiong*, Qinghong Kong. A channel-confined strategy for synthesizing CoN-CoOx/C as efficient oxygen reduction electrocatalyst for advanced zinc-air batteries. Nano Research, 2022, 15(3): 2092-2103.

[120] Gao Mingyue, Chen Yongming, Wang Jing, Yang Ru, Guo Xingmei, Cao Fu, Sun Shasha, Zhang Junhao*, Kong Qinghong. In situ carbon-coated Ni0.85Se@C composite with high performance for sodium-ion batteries. Chemistry Letters, 2022, 51: 221-223.

[119] Shi Jing, Guo Xingmei*, Liu Shanjing, Zhang Junhao*, Liu Yuanjun, Zheng Xiangjun, Kong Qinghong. An altered nanoemulsion assembly strategy for in-situ synthesis of Co2P/NP-C nanospheres as advanced oxygen reduction electrocatalyst for zinc-air batteries. Composites Part B: Engineering, 2022, 231: 109589.

[118] Duan Mengting, Liu Shanjing, Jiang Qiming, Guo Xingmei*, Zhang Junhao*, Xiong Shenglin. Recently progress on preparation and applications of layered double hydroxides. Chinese Chemical Letters, 2022, 33(10): 4428-4436. 

[117] Duan Mengting, Qiu Mingjun, Sun Shangqing, Guo Xingmei*, Liu Yuanjun, Zheng Xiangjun, Cao Fu, Kong Qinghong, Zhang Junhao*. Intercalating assembly of NiFe LDH nanosheets/CNTs composites as high-performance electrocatalyst for oxygen evolution reaction. Applied Clay Science, 2022, 216:106360. 

[116] Kong Qinghong, Zhu Haojie, Huang Shuai, Wu Ting, Zhu Fang, Zhang Yunlong, Wang Yuan, Zhang Junhao*. Influence of multiply modified FeCu-montmorillonite on fire safety and mechanical performances of epoxy resin nanocomposites. Thermochimica Acta, 2022, 707:179112.

[115] Chen Yongming^#, Huang Shuai^#, Zhao Han, Yang Ru, He Yining, Zhao Tianyu, Zhang Yunlong, Kong Qinghong^*, Sun Shasha^*, Zhang Junhao. Influence of beta-cyclodextrin functionalized tin phenylphosphonate on the thermal stability and flame retardancy of epoxy composites. Journal of Renewable Materials, 2022, 10(12): 3121-3130.

2021年

[114] Jiale Chen^†, Xingmei Guo^†, Mingyue Gao, Jing Wang, Shangqing Sun, Kai Xue, Shuya Zhang, Yuanjun Liu, Junhao Zhang*. Self-supporting dual-confined porous Si@c-ZIF@carbon nanofibers for high-performance lithium-ion batteries. Chemical Communications, 2021, 57(81):10580-10583.

[113] Xiaohan Wan, Xingmei Guo*, Mengting Duan, Jing Shi, Shanjing Liu, Junhao Zhang*, Yuanjun Liu, Xiangjun Zheng, Qinghong Kong. Ultrafine CoO nanoparticles and Co-N-C lamellae supported on mesoporous carbon for efficient electrocatalysis of oxygen reduction in zinc-air batteries. Electrochimica Acta. 2021, 394: 139135.

(112) Yanchun Xue, Xingmei Guo, Mengrong Wu, Jiale Chen, Mengting Duan, Jing Shi, Junhao Zhang*, Fu Cao, Yuanjun Liu, Qinghong Kong. Zephyranthes-like Co2NiSe4 arrays grown on 3D porous carbon frame-work as electrodes for advanced supercapacitors and sodium-ion batteries. Nano Research, 2021, 14(10): 3598-3607.

(111) Wu Mengrong, Gao Mingyue, Zhang Shuya, Yang Ru, Chen Yongming, Sun Shangqing, Xie Jinfeng, Guo Xingmei*, Cao Fu, Zhang Junhao*. High-performance lithium-sulfur battery based on porous N-rich g-C3N4 nanotubes via a self-template method. International Journal of Minerals Metallurgy and Materials, 2021, 28(10):1656-1665.

(110) Duan Mengting, Wu Mengrong, Xue Kai, Bian Zhengxu, Shi Jing, Guo Xingmei*, Cao Fu, Zhang Junhao*, Kong Qinghong, Zhang Feng. Preparation of Co/SnO2@NC/S composites as high-stability cathode material for lithium-sulfur batteries. International Journal of Minerals Metallurgy and Materials, 2021, 28(10): 1647-1655.

(109) Zhang Chunyang, Tan Pengfei, Cheng Zhijie, Song Jinbo, Zhao Yuyuan, Chen Lei*, Cai Xingwei*, Zhang Junhao*, Yuan Aihua*. CoS2 nanoparticles embedded in two-dimensional sheet-shaped N-doped carbon for sodium storage. European Journal of Inorganic Chemistrty, 2021, 16:1536-1543.

(108) Gao Mingyue, Tang Zehua, Wu Mengrong, Chen Jiale, Xue Yanchun, Guo Xingmei, Liu Yuanjun, Kong Qinghong, Zhang Junhao*. Self-supporting N, P doped Si/CNTs/CNFs composites with fiber network for high-performance lithium-ion batteries. Journal of Alloys and Compounds, 2021, 857: 157554.   

(107) Shi Jing, Zhang Shuya, Wang Jing, Bian Zhengxu, Duan Mengting, Guo Xingmei*, Liu Yuanjun, Zhang Junhao*, Kong Qinghong. CoSnO3 nanocubes wrapped by carbon nanofibers for improving lithium-sulfur battery performances. Chemistryselect, 2021, 6(5): 9453-9457.

(106) Kong Qinghong, Zhu Haojie, Fan Jinsong, Zheng Guolin, Zhang Caijiao, Wang Yuan, Zhang Junhao*. Boosting flame retardancy of epoxy resin composites through incorporating ultrathin nickel phenylphosphate nanosheets. Journal of Applied Polymer Science, 2021, 138(16): e50265.

(105) Haojie Zhu, Yongming Chen, Shuai Huang, Yuan Wang, Ru Yang, Huiyu Chai, Fang Zhu, Qinghong Kong, Yunlong Zhang, Junhao Zhang. Suppressing fire hazard of poly(vinyl alcohol) based on (NH₄)₂[VO(HPO₄)]₂(C₂O₄)·5H₂O with layered structure. Journal of Applied Polymer Science, 2021, 138: e51345.

(102) Tong Xiangzhi, Zhou Dongcheng, Qiu Mingjun, Zhou Yisong, Ai Yanli, Guo Xingmei*, Zhang Junhao, Cai Yibing, Kong Qinghong. Biomorphic NiO/Ni with a regular pore-array structure as a supercapacitor electrode material.  European Journal of Inorganic Chemistrty, 2021, 2021(6): 562-566.

2020年

(101) Su Dongqin, Huang Man, Zhang Junhao*, Guo Xingmei, Chen Jialei, Xue Yanchun, Yuan Aihua,* Kong Qinghong. High N-doped hierarchical porous carbon networks with expanded interlayers for efficient sodium storage. Nano Research, 2020, 13(10): 2862-2868. (一区, ESI高被引论文)

(100) Chen Jiale, Bian Zhengxu, Wu Mengrong, Gao Mingyue, Shi Jing, Duan Mengting, Guo Xingmei, Liu Yuanjun, Zhang Junhao*, Kong Qinghong. Preparation of CoSnO3/CNTs/S and its electrochemical performance as cathode material for lithium-sulfur batteries. ChemElectroChem, 2020, 7(20): 4209-4217.

(99) Xue Yanchun, Gao Mingyue, Wu Mengrong, Su Dongqin, Guo Xingmei, Shi Jing, Duan Mengting, Chen Jiale, Zhang Junhao*, Kong Qinghong. A promising hard carbon-soft carbon composite anode with boosting sodium storage performances. ChemElectroChem, 2020, 7(19): 4010-4015. 

(98) Guo Xingmei, Qian Cheng, Wan Xiaohan, Zhang Wei, Zhu Haowei, Zhang Junhao*, Yang Hongxun, Lin Shenglin, Kong Qinghong, Fan Tongxiang*. Facile in situ fabrication of biomorphic Co2P-Co3O4/rGO/C as efficient electrocatalyst for oxygen reduction reaction. Nanoscale, 2020, 12, 4374-4382. （二区，ESI高被引论文）

(97) Zhang Kailong, Zhang Feng, Pan Honglin, Yu Jia, Wang Li, Wang Di, Wang Liangbiao, Hu Guang, Zhang Junhao*, Qian Yitai. Dual taming of polysufides by phosphorus-doped carbon for improving eletrochemical performances of lithium-sulfur battery. Electrochimica Acta, 2020， 354， 136648. （二区）

(96) Zhang Di(本科生), Guo Xingmei*, Tong Xiangzhi, Chen Yifan, Duan Mengting, Shi Jing, Jiang Chengwei, Hu Leilei, Kong Qinghong, Zhang Junhao*. High-performance battery-type supercapacitor based on porous biocarbon and biocarbon supported Ni-Co layered double hydroxide. Journal of Alloys and Compounds. 2020, 837, 155529. （二区，ESI高被引论文）

(95) Xie Jingfeng, Gao Mingyue, Wu Mengrong, Guo Xingmei, Xiong Weiwei, Kong Qinghong, Zhang Feng, Zhang Junhao*. Hollow N-doped carbon/metal phosphate structure as sulfur host for an advanced cathode of lithium-sulfur battery. Chemistry Letters, 2020, 49(6): 677-680.

(94) Sang Lei, Cheng Yongming, Yang Ru*, Li Jing, Kong Qinghong*, Zhang Junhao*. Polyphosphazene-wrapped Fe-MOF for improving flame retardancy and smoke suppression of epoxy resins. Journal of Thermal Analysis and Calorimetry, doi: 10.1007/s10973-020-09481-6.

(93) Xue Yanchun, Yu Tingting, Chen Jiale, Wan Xiaohan, Cai Xingwei*, Guo Xingmei, Zhang Feng*, Xiong Weiwei, Liu Yuanjun, Kong Qinghong, Yuan Aihua, Zhang Junhao*. Fabrication of GeO2  microspheres/hierarchical porous N-doped carbon with superior cyclic stability for Li-ion batteries. Journal of Solid State Chemistry, 2020, 286: 121303. （热点论文，ESI高被引论文）

(92) Bian Zhengxu, Tang Zehua, Xie Jinfeng, Zhang Junhao*, Guo Xingmei, Liu Yuanjun, Yuan Aihua, Zhang Feng, Kong Qinghong. Preparation and lithium storage performances of g-C3N4/Si nanocomposites as anode materials for lithium-ion battery. Frontier in Energy, 2020, 14: 759-766.

(91) Tang Zehua, Xie Jinfeng, Bian Zhengxu, Zhang Junhao*, Liu Yuanjun, Guo Xingmei, Kong Qinghong,Yuan Aihua*. Fabrication of Si nanoparticles encapsulated into porous N-doped carbon for superior lithium storage performances. Journal of Nanoscience and Nanotechnology, 2020, 20(2):  946-956.

(90) Zhang Di (本科生), Xue Yanchun, Chen Jiale, Guo Xingmei*, Yang Dandan, Wang Jingcheng, Zhang Junhao*, Zhang Feng, Yuan Aihua*. N, S,O self-doped porous carbon nanoarchitectonics derived from pinecone with outstanding supercapacitance performances. Journal of Nanoscience and Nanotechnology, 2020, 20(5): 2728-2735.

(89) Ding Jiemin, Zhang Yi, Zhang Xi, Kong Qinghong*, Zhang Junhao*, Liu Hong*, Zhang Feng. Improving the flame-retardant efficiency of layered double hydroxide with disodium phenylphosphate for epoxy resin. Journal of Thermal Analysis and Calorimetry, 2020, 140(1): 149-156.

(88) Wang Junli, Jin Lei, Wang Tingting, Zhao Lijun, Guan Fan, Li Shaopeng, Wang Dan, Zhang Junhao. Length and composition tunable Sb-Bi-S nanowires for optoelectronic devices prepared via an isostructure-favored solvothermal synthesis. Journal of Alloys and Compounds, 2020, 831: 154886.

(87) Wang Liangbiao, Mei Tao, Zhang Kailong, Zhang Junhao, Lou Shiyi, Yang Tinghuai. One-step chemical synthesis of superconducting MgCNi3 microparticles at low temperature. Chemistry Letters, 2020, 49(4): 354-356.

(86) Yan Peng, Ye Huaibo, Han Yang, Wang Jingjing, Zheng Fenfen, Xiongweiwei, Yang Hongxun, Zhang Junhao, Yuan Aihua, Wu Xingcai. Dual-templating approaches to soybeans milk-derived hierarchically porous heteroatom-doped carbon materials for lithium-ion batteries. Chemistryopen, 2020, 9(5): 582-587.

2019年

(85) Kong QH, Sun YL, Zhang CJ, Guan HM,Zhang JH*, Wang DY, Zhang F. Ultrathin iron phenyl phosphonate nanosheets with appropriate thermal stability for improving fire safety in epoxy. Composites Science and Technology, 2019, 182: 107748.(IF＝5.160, 二区)

(84) Su DQ, Tang ZH, Xie JF, Bian ZX,Zhang JH*, Yang DD, Zhang D, Wang JC, Liu Y, Yuan AH, Kong QH. Co, Mn-LDH nanoneedle arrays grown on Ni foam for high performance supercapacitors. Applied Surface Science, 2019, 469: 487-494. (IF=4.439, 二区，ESI 高被引, 热点论文)

(83) Xingmei Guo*, Cheng Qian, Ruhua Shi, Wei Zhang, Fei Xu, Silu Qian, Junhao Zhang, Hongxun Yang, Aihua Yuan, Tongxiang Fan*, Biomorphic Co-N-C/CoOx composite derived from natural chloroplasts as efficient electrocatalyst for oxygen reduction reaction. Small, 2019, 15, 1804855. (一区，高被引论文)

(82)Chen JL, Liu HL, Wan XH, Xue YC,Zhang JH*, Liu YJ, Guo XM, Kong QH, Yuan AH*. Constructing Cu2O@Ni-Al LDH core-shell structure for high supercapacitor electrode material. Journal of Nanoparticles Research,  2019, 21(10)： 215.

(81) Guo XM, Liu HL, Xue YC, Chen JL, Wan XH,Zhang JH*, Liu YJ, Yuan AH*, Kong QH, Fan H. NiAl layered double hydroxide flowers with ultrothin structure grown on 3D graphene for high-performance supercapacitors. Eurpean Journal of Inorganic Chemistry,  2019, 32: 3719–3723.

(80) Wan XH, Tang ZH, Chen JL, Xue YC, Zhang JH*, Guo XM, Liu YJ, Kong QH, Yuan AH, Fan H. Molten salt-assisted magnesiothermic reduction synthesis of spherical Si hollow structure as promising anode Materials of lithium ion batteries. Chemistry Letters, 2019, 48(12): 1547-1550.

(79) Zhang Feng, Liu Tianyu, Zhang Junhao, Cui Entian, Yue Lu, Jiang Ruiyu, Hou Guihua. The potassium hydroxide-urea synergy in improving the capacitive energy-storage performance of agar-derived carbon aerogels. Carbon, 2019, 147: 451-459.

(78) de Juan Sergio, Zhang Junhao, Acuna Pablo, Nie Shibin, Liu Zhiqi, Zhang Wen, Luisa Puertas  Maria, Esteban-Cubillo Antonion, Santaren Julio, Wang De-Yi. An efficient approach to improving fire retardancy and smoke suppression for intumescent flame-retardant polypropylene composites via incorporating organo-modified sepiolite. Fire and Materials, 2019, 43(8): 961-970.

2018年

(77) Wang LB, Zhang KL, Pan HL, Wang L, Wang D, Dai WC, Qin HF, Li GR*,Zhang JH*. 2D molybdenum nitride nanosheets as anode materials for improved lithium storage. Nanoscale,2018, 10(40): 18936-18941. (IF＝7.233, 一区)

(76)Zhang JH, Kong QH*, Wang DY*. Simultaneously improving fire safety and mechanical properties of epoxy resin by Fe-CNTs via large-scale preparation.J. Mater. Chem. A,2018, 6(15):  6376-6386. (IF＝9.931,一区，ESI 高被引)

(75) Zhang J H, Huang M, Xi B J, Mi K, Yuan A H, Xiong S L*. Systematic study of effect on enhancing specific capacity and electrochemical behaviors of lithium–sulfur batteries.Adv. Energy Mater.,2018, 8(2): 201701330. (IF＝21.875, 一区，ESI 高被引)

(74) Wu F F, Zhang S S, Xi B J, Feng Z Y, Sun D, Ma X J,Zhang J H, Feng J K, Xiong S L. Unusual Formation ofCoO@C Dandelions Derived from Two-Dimensional Kangome MOLs for Effecient Lithium Storage. Adv. Energy Mater.,2018, 8(13): 1703242.(IF＝21.875, 一区，ESI 高被引)

(73) Kong Q H, Wu T, Zhang J H*, Wang D Y*. Simultaneously improving flame retardancy and dynamic mechanical properties of epoxy resin nanocomposites through layered copper phenylphosphate. Compos. Sci. Technol.,2018, 154: 136-144. (IF＝5.160, 二区, ESI 高被引)

(72) Wang TT, Wang JL, Qiao YJ, Zhang JH, Tang H, Yang XF, Chen KM, Liu GW, Qiao GJ. Intrinsic lattice relationship of catalyst/nanowire interfaces by heating high-resolution transmission electron microscopy.  Crystal Growth & Design, 2018, 18(9): 4911-4919.(IF＝3.972, 一区)

(71)Zhang J H, Yu T T, Chen J L, Liu H L, Su D Q, Tang Z H, Xie J F, Chen L, Yuan A H, Kong Q H. Germanium-based complex derived porous GeO2 nanoparticles for building high performance Li-ion batteries. Ceram. Int.,2018, 44: 1127-1133. (IF＝3.057，二区)

(70) Han J M, Xi B J, Feng Z Y, Ma X J, Zhang J H, Xiong S L, Qian Y T.  Sulfur-hydrazine hydrate-based chemical synthesis of sulfur@graphene composite for lithium-sulfur batteries.Inorg. Chem. Front.,2018, 5(4): 785-792. (IF＝5.106，二区)

(69)  Zhang F, Liu TY, Hou GH, Guan R F,Zhang J H*. Preparation ofparafin@poly(styrene-co-acrylic acid) phase change nanocapsules via combined miniemulsion/emusion polymerization.J. Nanosc. Nanotechno.,2018, 18：4413-4417 . (IF＝1.354, 三区)

2017年

(68) Huang M, Mi K, Zhang J H*, Liu H L, Yu T T, Yuan A H*, Kong Q H, Xiong S L*. MOFs-derived bi-metal embedded N-doped carbon polyhedral nanocages with enhanced lithium storage.J. Mater. Chem. A,2017, 5: 266-274. (IF＝9.931, ESI高被引)  

(67) Yu T T, Liu H L,Huang M, Zhang J H*, Su D Q, Tang Z H, Xie J F, Liu Y J, Yuan A H*, Kong Q H. Zn2GeO4 nanorods grown on carbon cloth as high performance flexible lithium-ion battery anodes. RSC Adv.,2017, 7: 51807-51813. (IF＝2.936， 三区)  

(66) Liu H L, Yu T T, Su D Q, Tang Z H, Zhang J H*,  Liu Y J, Yuan A H*, Kong Q H.Ultrathin Ni-Al layered double hydroxide nanosheets with enhanced supercapacitor performance.Ceram. Int.,2017, 43(16): 14395-14400. (IF＝3.057， 二区)

(65)Bai J, Xi B J, Feng Z Y, Zhang J H, Feng J K, Xiong S L.Generalstrategy forintegrated SnO₂/metaloxides asbiactivelithium-ionbatteryanodes withultralongcyclinglife.ACS Omega,2017, 2: 6415-6423.

(64)Jiang Y, Guo Y B, Lu W J, Feng Z Y, Xi B J, Kai S S,Zhang J H, Feng J K, Xiong S L.Rationallyincorporated MoS₂/SnS₂nanoparticles ongraphenesheets forlithium-ion andsodium-ionbatteries.ACS Appl. Mater. Interfaces,2017, 9: 27697-27706.(IF＝8.097，一区)

(63) Zhang J, Yang Q, Cai Y B, Song X F, Qiao H, Zhang J H, Wei Q F. Fabrication and characterization of electrospun porous cellulos acetate nanofibrous mats incorporated with capric acid as form-stable pahse change materials for storing/retrieving thermal energy.Int. J. Green Energy,2017, 14: 1011-1019.  (IF＝1.171，四区)

(62) Kong Q H, Wu T, Tang Y Q, Xiong L M, Liu H, Zhang J H, Guo R H*, Zhang F*, Improving thermal and flame retardant properties of epoxy resin with organic NiFe-layered double hydroxide-carbon nanotubes hybrids.Chinese J. Chem.,2017, 6:1875-1880. (IF＝2.378，四区)

(61) Kong Q H, Wu T, Zhang H K, Zhang Y,  Zhang M M, Si T Y, Yang L, Zhang J H*. Improving flame retardancy of IFR/PP composites through the synergistic effect of organic montmorillonite intercalation cobalt hydroxides modified by acidified chitosan. Appl. Clay Sci., 2017, 146: 230-237. (IF＝3.641，二区)

(60) Zheng L, Wu T, Kong Q H*,Zhang J H, Liu H*. Improving flame retardancy of PP/MH/RP composites through synergistic effect of organic CoAl-layered double hydroxide.J. Therm. Anal. Calorim.,2017, 129: 1039-1046.  (IF＝2.209，四区)

(59) Kong Q H, Zhang H K, Zheng L, Wang D Y*, Zhang J H*. Effect on thermal and combustion behaviors of montmorillonite intercalation nickel compounds in polypropylene/IFR system.Polym. Advan. Technol.,2017, 28: 965-970. (IF＝2.137，三区)

(58) Wang L B, Shen Q L, Zhao D J, Lu J J, Liu W Q, Zhang J H, Bao K Y, Zhou Q F. Chemical synthesis of hexagonal indium nitride nanocrystallines at low temperature.J. Cryst. Growth,2017, 471: 62-65. (IF＝1.742，三区)

(57) Gao Y, Kong Q H, Zhang J H, Xi G C. General fabrication and enhanced VOC gas-sensing properties of hierarchically porous metal oxides. RSC Adv., 2017, 7: 35897-35904. (IF＝2.936，三区)

(56) Tong Y L, Ji D, Wang P, Zhou H, Akhtar Kazim, Shen X P,Zhang J H*, Yuan A H*. Nitrogen-doped carbon composites derived from 7,7,8,8-tetracyanoquiodimethane-based metal-organic frameworks for supercapacitors and lithium-ion batteries. RSC Adv.,2017, 7: 25182-25190. (IF＝2.936，三区)   1

(55) Wang L B, Cheng Q L, Qin H F, Li Z C, Lou Z S, Lu J J, Zhang J H, Zhou Q F. Synthesis of silicon carbide nanocrystals from waste polytetrafluoroethylene. Dalton Trans., 2017, 46: 2756-2759. (IF＝4.099，二区)

(54) Cai Y B, Hou X B, Wang W W, Liu M M, Zhang J H, Qiao H, Huang F L, Wei Q F. Effect of SiO2 nanoparticles on structure and property of form-stable phase change materials made of cellulose acetate phase inversion membrane absorbed with capric-myristic-stearic eutectic mixture.Thermochim. Acta,2017, 653: 49-58. (IF＝2.189，三区)  

2016年

(53)Zhang J H, Kong Q H, Yang L W, Wang D Y. Few layered Co(OH)₂ ultrathin nanosheet-based polyurethane nanocomposites with reduced fire hazard: from eco-friendly flame retardance to sustainable recycling.Green Chem.,2016, 18, 3066-3074. (IF＝8.586，一区)

(52) Jiang Y, Feng Y Z, Xi B J, Kai S S, Mi K, Fen J K,Zhang J H, Xiong S L. Ultrasmall SnS₂ nanoparticles anchored on well-distributed nitrogen-doped graphene sheets for Li-ion and Na-ion batteries.J. Mater. Chem. A,2016, 4(27), 10719-10726. (IF＝9.931，一区)

(51) Zhang L M,Zhang J H*, Liu Y J, Zhang L, Yuan A H*. Porous ZnO/NiO microspherical structures prepared by thermolysis of heterobimetallic MOF as supercapacitor electrodes.J. Nanosci. Nanotechnol,2016, 16, 1-7. (IF＝1.354，三区)

(50) Liu L, Zhang H K, Sun L, Kong Q H,Zhang J H*. Flame-retardant effect of montmorillonite intercalation iron compounds in polypropylene/aluminum hydroxide composites system.J. Therm. Anal.Calorim.,2016, 124(2), 807-814. (IF＝2.209，四区)   

(49) Zhang L M, Yan B,Zhang J H, Liu Y J, Yuan A H*, Yang. G. Design and self-assembly of metal-organic framework-derived porous Co₃O₄ hierarchical structures for lithium-ion batteries.Ceram. Int.,2016, 42, 5160-5170. (IF = 3.057，二区)

(48) Shen Y L, Liu Y J, Wang W, Xu F, Yan C,Zhang J H, Wang J, Yuan A H. Au nanocluster arrays on self-assembled block copolymer thin films as highly active SERS substrates with excellent reproducibility.RSC Adv.,2016, 6(45), 38716-38723. (IF＝2.936，三区)

(47) Wang L B, Pan Y X, Shen Q L,Zhang J H, Bao K Y, Lou Z S, Zhao D J, Zhou Q F^*. Sulfur-assisted synthesis of indium nitride nanoplates from indium oxide.RSC Adv.,2016, 6(20), 98153-98156. (IF＝2.936，三区)

(46) Yao S S, Xue S K,Zhang J H, Shen X Q. Characterization and mechanism analysis of AgBr mixed cuboid WO₃ rods with enhanced photocatalytic activity. RSC Adv.,2016, 6: 93436-93444. (IF＝2.936，三区)

(45)Kong Q H, Wu H, Zhang H K, Zhang X G, Zhao W L,Zhang J H^*.Effect of Fe-montmorillonite onflammabilitybehavior inpolypropylene/magnesiumhydroxidecomposites.J. Nanosci. Nanotechno.,2016, 16(8): 8287-8293. （IF=1.354，三区）

2015年

(44)Zhang J H, Yanagisawa K*, Yao S S, Wong H, Qiu Y S, Zheng H J. Large-scale controllable preparation and performance of hierarchical nickel microstructures by a seed-mediated solution hydrogen reduction route.J.  Mater. Chem. A,2015, 48(15), 7877-7887. (IF＝9.931，一区)

(43)Zhang J H, Huang M, Yanagisawa K*, Yao S S, Qiu Y S, Zheng H J. Large scale preparation ofβ-CaSiO₃ nanostructures by solid state reaction in NaCl-H₂O(v) system at lower temperature.J. Am. Ceram. Soc.,2015, 98(7): 2264-2268. (IF＝2.956，二区)

(42)Zhang J H, Qiu Y S, Huang M, Zheng H J, Yanagisawa K*. Accelerated formation of strontium silicate by solid-state reaction in NaCl-H₂O (v) system at lower temperature.Appl. Surf. Sci.，2015, 347, 57-63. (IF＝4.439，二区)

(41)Zhang J H, Huang M, Yanagisawa K*, Yao S S. NaCl-H₂O-assisted preparation of SrTiO₃ nanoparticles by solid state reaction at low temperature.Ceram. Inter.,2015, 41(4), 5439-5444. (IF＝3.057，二区)

(40)Zhang J H, de Juan S, Esteban-Cubillo A, Santarén J, Wang D Y*. Effect of organo-modified nanosepiolite on fire behaviors and mechanical performance of polypropylene composites.Chin. J. Chem.,2015, 33(2), 285-291. (IF＝2.378，四区)

(39) Zhang X G, Li Y J, Yan S, Kong Q H*,Zhang J H*. Improved flame-retardantproperties of HIPS/ATH system by organo Fe-montmorillonite.Nanomaterials and Energy,2015，4(2):1-8.

2014年

(38)Zhang J H, Zhang L M, Yang H, Kong Q H*, Liu Y J, Yuan A H*. Sustainable processing of waste polypropylene to produce high yield valuable Fe/Carbon nanotube nanocomposities.CrystEngComm,2014, 16, 8832-8840. (IF＝3.304，二区)

(34)Zhang J H*， Yan B, Wu H, Kong Q H*. Self-assembled synthesis of carbon-coated Fe₃O₄ composites with firecracker-like structures from catalytic pyrolysis of polyamide.RSC Adv.,2014，4(14), 6991-6997. (IF＝2.936，三区)

(36) Liu H, Zhong Q, Kong Q H*, Zhang X G, Li Y J,Zhang J H*. Synergistic effect of organophilic Fe-montmorillonite on flammability in polypropylene/intumescent flame retardant system.J. Therm. Anal. Calorim.,2014, 117(2), 693-699. (IF＝2.209，四区)

2013年

(35)Zhang J H*, Yan B, Wan S, Kong Q H*. Converting polyethylene waste into large scale one-dimensional Fe₃O₄@C composites by a facile one-pot process.Ind. Eng. Chem. Res.,2013, 52(16), 5708-5712. (IF＝3.141，二区)

(34)Zhang J H*, Wan S, Yan B, Wang L B, Qian Y T. Graphene encapsulated Fe3O4 nanospindles as a superior anode material for lithium-ion batteries.J. Nanosci. Nanotechn.2013, 13(6), 4364-4369. (IF＝1.354，三区)

(33) Kong Q H, Wu H, Zhang X G, Yao S S*,Zhang J H*, Zhang X N. Shape-controlled synthesis of polyhedral CdS flowerlike architectures and their optical properties.Cent. Eur. J. Chem.,2013, 11(10), 1682-1688. (IF＝1.207，四区)

2012年

(32)Zhang J H*, Yan B, Zhang F. Synthesis of carbon-coated Fe₃O₄ composites with pine-tree-leaf structures from catalytic pyrolysis of polyethylene.CrystEngComm,2012, 14(10): 3451-3455. (IF＝3.304，二区)

(31) Kong Q H, Liu H, Zhang Y L,Zhang J H*, Zhang X N. Synthesis of one-dimensional Fe₃O₄@C composites from catalytic pyrolysis of waste polypropylene.J.  Nanosci. Nanotechno.,2012, 12(10), 8055-8060. (IF＝1.354，三区)

2011年

(30)Zhang J H*, Du J, Wang H L, Wang J L, Qu Z K. A novel mild route to hausmannite Mn₃O₄ nanocubes at room temperature and its catalytic performance.Mater. Lett.,2011, 65(17-18), 2565-2567. (IF＝2.687，二区)  

(29)Zhang J H*, Wang J L, Wang H L, Jia L, Qu Z K, Qian Y T. Synthesis and magnetic properties of Fe₃O₄/helical carbon nanofiber nanocomposites from the catalytic pyrolysis of ferrocene.Chin. Sci. Bull.,2011, 56(30), 3199-3203. (IF＝1.789，四区)  

(28) Wang L C,Zhang J H*, Xu L Q, Qian Y T. Honeycomb-like graphitic ordered macroporous carbon prepared by pyrolysis of ammonium bicarbonate.Mater. Res. Bull.,2011, 46(10), 1703-1707. (IF＝2.873，二区)  

(27)Zhang J H*, Wang J L, Wang H L, Jia L, Qu Z K, Kong Q H. Synthesis and photoluminescence properties of hierarchical bis(8-hydroxyquinoline) nickel flower-like structure.International Conference on Advanced Engineering Materials and Technology,2011，2153-2156，Sanya, PEOPLES R CHINA，2011.7.29-2011.7.31。  1

(26) Wang H L,Zhang J H*, Qu Z K, Jia L, Wang J L. Synthesis and photoluminescence property of tris(8-hydroxyquinoline) bismuth rod-like structures at room temperature.2nd International Conference on Advances in Materials and Manufacturing Processes,2011, 1382-1386, Guilin, PEOPLES R CHINA, 2011.12.16-2011.12.18.

2010年

(25)Zhang J H*, Du J, QianY T, Xiong S L. Synthesis,characterization and properties of carbon nanotubes microspheres from pyrolysisof polypropylene and maleated polypropylene.Mater. Res. Bull.,2010, 45(1), 15-20. (IF＝2.873，二区)

(24)Zhang J H*, Du J, QianY T, Yin Q H, Zhang D J. Shape-controlled synthesis and their magnetic properties of hexapod-like, flake-like and chain-like carbon-encapsulated Fe₃O₄ core/shellcomposites.Mater. Sci. Eng. B,2010, 170(1-3), 51-57. (IF＝3.316，三区)

(23)Zhang J H*, Wan J, Huang S X, Du J, Zhu J, Zhang D J, Yin Q H, Wu Y H. Solvothermal synthesis and magnetic property of magnetic chains self-assembled by Fe3O4 microoctahedrons.Chin. J. Chem.,2010, 28(9), 1607-1612. (IF＝2.378，四区)

(22)Zhang J H*, Yang L，Cheng X F, Zhang J M, Li F C. Fabrication and magnetic properties of hierarchical nickel microwires with nanothorns.Cent. Eur. J. Chem.,2010, 8(2), 434-439. (IF＝1.207，四区)

(21)Zhang J H*, Wu Y H, Zhu J, Huang S X, Zhang D J, Yin Q H. Synthesis and optical properties of self-assembled flower-like CdS architectures by mixed solvothermal process.Cent. Eur. J. Chem.,2010, 8(5), 1027-1033. (IF＝1.207，四区)

(20) Zhu J,Zhang, J H, Zhen J B, Chen C X, Lu J, Chen S. Controllable synthesis of water-soluble luminescent Cd_xZn_1-xS nanocrystals.Phys. B,2010, 405(16), 3452-3457. (IF＝1.352，三区)

2009年

(19) Li H B, Zhu Y C, Mao C H, Gu J,Zhang J H, Qian Y T. Synthesis and characterization of carbon fibrils formed by stacking graphite sheets of nanometer thickness.Carbon,2009, 47(1), 328-330. (IF＝6.198)

(18)Zhang J H*, Kong Q H, Lu W L, Liu H. Synthesis, characterization and magnetic properties of near monodisperse Fe3O4sub-microspheres.Chinese Sci. Bull.,2009, 54(14), 2434-2439. (IF＝1.789)

(17)Zhang J H*, Cheng X F, Liu H, Lu W L. Synthesis and properties of poly(vinyl alcohol)/synthetic F-montmorilloniteNanocomposites.Chin. J. Chem.,2009, 27(8), 1611-1616. (IF＝1.872)

2008年

(16)Zhang J H, Li J, Cao J, QianYitai*. Synthesis and characterization of larger diameter carbon nanotubes from catalytic pyrolysis of polypropylene.Mater.Lett.,2008, 62(12-13): 1839-1842. (IF＝2.437)

(15) Li J,Zhang J H, QianY T. Surfactant-assisted synthesis ofbundle-like nanostructures with well-aligned Tenanorods.Solid State Sci.,2008, 10(11), 1549-1555. (IF＝2.041)

(14) Kong Q H*，Zhang J H，Ma J J，Yi C W，Li F C，Liu H，Liu W L. Flame retardant and smoke suppressant of Fe-organophilic montmorillonite in polyvinyl chloride nanocomposites.Chin. J. Chem.,2008，26(12), 2278-2284. (IF＝1.872)

(13) Ma D K，Zhou H Y，Zhang J H，QianY T*. Controlled synthesis and possible formation mechanism of leaf-shaped SnS2nanocrystals.Mater. Chem. Phys.,2008，111(2-3), 391-395. (IF＝2.101)  

(12) Kong Q H*,Zhang J H. Synthesis of carbon nanotubes, and the effect on thermal stability in hgh-ipact polystyrene.Aust. J. Chem.,2008, 61(1), 72-76. (IF＝1.427)  

(11) Li J, Zhu Y C, Du J,Zhang J H, Qian Y T. Synthesis and shape evolution of bismuth selenide hollow nanospheres.Solid State Commun.,2008, 147(1-2): 36-40.

2007年

(10)Zhang J H，Kong Q H，Du J，Ma D K，Xi G C，Qian Y T. Formation, characterization, and  magnetic properties of Fe₃O₄ microoctahedrons.J. Cryst. Growth,2007，308(1), 159-165. (IF＝1.462)

(9)Zhang J H，Du J，Ma D K，Xi G C，Hu X B，QianY T*. One-dimensional chain Fe₃O₄ nanoparticles encapsulated in worm-shaped carbon shell.Solid State Commun.,2007，144(3-4), 168-173. (IF＝1.458)  

(8) Kong Q H*,Zhang J H. Synthesis of straight and helical carbon nanotubes from catalytic pyrolysis of polyethylene.Polym. Degrad. Stabil.,2007, 92(11), 2005-2010. (IF＝3.12)

(7) Ma D K, Hu X K, Zhou H Y,Zhang J H, Qian Y T. Shape-controlled synthesis and formation mechanism of nanoparticles-assembled Ag2S nanorods and nanotubes.J. Cryst. Growth,2007, 304(1), 163-168. (IF＝1.462)

(6) Ni X M,Zhang J H, Zhang Y F, Zheng H G. Citrate-assisted synthesis of prickly nickel microwires and their surface modification with silver.J. Colloid Interf. Sci.,2007, 307(2), 554-558. (IF＝3.782)  23

(5) Ma D K,Zhang J H, Hu X K, Zhou H Y, Qian Y T. Surfactant-assisted hydrothermal route to organometallic tris(8-hydroxyquinoline) aluminum nanorod bundles.Chem. Lett.,2007, 36(5): 630-631.

2006年

(4)  Ma D K, Zhang M, Xi G C,Zhang J H, Qian Y T. Fabrication and characterization of ultralong Ag/C nanocables, carbonaceous nanotubes, and chainlikeβ-Ag₂Se nanorods inside carbonaceous nanotubes.Inorg. Chem.,2006，45(12): 4845-4849. (IF＝4.82)

(3) Liu Y, Zhang M,Zhang J H, Qian Y T. A simple method of fabricating large-areaα-MnO₂ nanowires and nanorods.J. Solid State Chem.,2006, 179(6), 1757-1761. (IF＝2.265)  

2005年

(2)Guo X K,Zhang J H, Han B C, Bao R Z.Structure and catalytic properties of mesoporous Ti-pillared montmorillonite solid acid catalysts.Chinese J. Inorg. Chem.,2005, 21(10):1483-1489.(IF＝0.489)

(1)Guo X K, Chen Q S,Zhang J H, Li Z G.Modification of Cu/Al₂O₃ catalyst and its catalytic performance for selective reduction of NO.Chinese J. Catal.,2005, 26(12):1104-1108.(IF＝2.813)

来源：知乎

所属专栏：研之成理新闻部

问题：  

近日在知乎上，有人提出这样一个问题：对于做科学的科研工作者，除了发文章之外，似乎没有其他的产出，假如，一辈子都是在灌水，那么这些科研工作者对社会有什么贡献？

     我本人也是一名在读博士生。现在有些迷茫，我本身是做理论工作的。这个困惑来源于一个老师，那位老师说，假如现在把我所有的文章都烧掉，对科学也没有任何影响。这句话对我和我的同学都带来很大的困惑，甚至想转行。我们讨论了很久，发现除了教书育人，传承知识之外，可能我们对这个社会的并没有直接贡献。而科研工作，假如你劳碌一生，并没有做出什么突破性的工作，在教科书上，连一个注脚的位置都没有，你所写的文章，除了让你毕业，评职称之外，似乎并没有推动科学的发展，甚至可有可无，对于做理论的科研工作者，极有可能面对这样的问题，正确的理论只有一个，绝大多数的理论文章可能是错误的。那么我们奋斗一生，我们的个人价值和社会价值体现在哪里？

回答：

很快，此贴得到了几百条回复。

狐狸先生：

    其实我觉得这个问题蛮好的，很多人可能都在科研路上想过。

    我的文章如果都烧了，确实对世界没有什么大影响。但我不知道我未来的文章是否烧了也没关系。自由探索路上充满了偶然性。当年加州理工聘请费曼做教授的时候，费曼有点担心自己不能对的起这个位置。但是雇他的人告诉他：我们招教授其实就好像投资，招一个不行大不了砸手里，多招几个总有一个能成事的。研究者学好了技艺，整装出发在科学世界探险。可能永远在迷宫里绕不出来，也可能发现了大宝藏。这些事情都无法逆料。有的人觉得获得大宝藏的机会太低，于是就退出了。而我看重探索宝藏的刺激性，所以留在这个游戏里。这些选择无所谓对错，只关乎人价值观。

    我的文章如果都烧掉了，确实对世界就没有什么太大的影响。但大多数的人文章烧掉了都没有什么影响。甚至那些最聪明的大脑，他们的工作也不是非其不可。换一个差不多聪明的人，或者几个稍微笨点的人就可以了。如果没有了哈勃，沙普利迟早也会发现河外星系的存在。如果没有了彭齐亚斯和威尔逊发现微波背景辐射，也许迪克和皮布斯就获得诺贝尔奖了。如果没有费曼，量子电动力学还有施温格，没了施温格，还有朝永振一郎，如果这三个都没了，戴森说不定也能行。抹掉爱因斯坦这样的人可能有点问题，但狭义相对论郎之万也能搞出来，广义相对论嘛，可能麻烦一点，地球人只好预备着晚用GPS 20年吧。

    我的文章如果都烧掉了，虽然对世界就没有什么太大的影响。但至少我通过我的研究活动，保存了我所学到的科研技巧和知识，并主动或被动的传给他人。想当年丐帮帮主汪剑通一生武艺平平，但要是没有他，萧峰如何能学会降龙十八掌呢？路易斯·威滕一生研究理论物理没有什么建树，但如果没有他又如何有他那个推动了弦论发展的儿子爱德华.威腾？

世界缺了谁都不会停止转动。我们并不是因为要寻求一个不可替代性的地位才来研究科研的。科研对大多数人来说并不是追求英雄史的道路。科学史和科学传播为了自身的故事性，往往过分夸大了科学家的英雄形象，而忽略了科学发展多人协作的本质，夸大了科学理论发展的逻辑关系，而忽略了科学发现的偶然性。但在现在科学研究高度分工的情形下，大多数人毕生的能力不过是只能推开科学大厦的一扇窗子。这一点和其他行业的情形并无不同。

    最后，我的建议是把科学研究当做一份正经职业去考虑它，如果有兴趣，有能力，觉得工资还可以，就研究，如果觉得没有了乐趣，待遇太低，就想办法离开。我们都已经过了中二病的年龄了。

少正卯：

    量变引发质变，没有突破是常态，正因为有那么多没有突破的人，才会堆积起一些有突破的。

     比如湖水表面的波纹，有波谷才有波峰，还有生物进化，那么巨大的基因海，才能产出足够多的变异，没有变异的是为了变异必须具备的基数，还有原子衰变，虽然单拎出来没有规律，但是有了大量统计之后就不一样了。尽自己的努力做好就可以了吧，科研也好，生活各方面也好。

宝来王：

    有次跟同事听完一个诺奖得主的报告，出来时问他，打算啥时候拿诺奖？

    他一脸惶恐的说，真的没想过。

    事实就是这样，那些有突出成就的就像发现第一个发现北美新大陆的人一样，但发现并不是所有，必须有后续大量的人来做很多枯燥繁琐的工作。

    当你看到元素周期表是这样的