赵崇军

 

                

赵崇军

姓名
赵崇军
性别
出生年月

职称
副教授
所属
教研室

无机非金属

材料教研室

办公室
地点

科辅二楼

C212

E-mail
chongjunzhao@ecust.edu.cn
联系电话
021-6425 0838
招生专业
材料科学与工程(能量转换、存储和应用及其功能材料;光电复合材料;纳米材料)、材料工程
                             
主要经历与简历:                          

   分别于1996、1999和2002年在哈尔滨工业大学、抚顺石油学院和复旦大学获得学士、硕士和博士学位。长期从事具有光电能功能材料(新能源材料、光催化材料、储能材料)方面的研究工作。2002.6-2006.6在中科院上海光机所工作,2006.7-至今在华东理工大学材料学院工作,期间于2012.1-2013.1在澳大利亚Wollongong大学ISEM研究所访问。从2002年至今,在国际刊物发表SCI论文120余篇,被引用3600余次,h系数35;作为第一发明人申请国际专利10项,授权7项;申请中国发明专利30项(第一申请人,20项)),其中已获授权25项(第一申请人,18项)。

   目前正在承担的项目包括:与波音公司合作项目2项、与华为公司合作项目1项、与高智公司合作项目1项、欧盟框架FP7项目--居里夫人行动计划1项(华东理工大学负责人)上海市自然科学基金1项;承担并完成国家自然科学基金1项、上海市纳米专项课题1项、技术服务项目4项、技术转移项目(专利实施许可)1项;主持并完成上海市外专局引智项目5项。参加并在研上海市纳米专项课题2项;参加并完成国家自然科学基金项目1项,上海市纳米专项课题2项,上海市国际合作项目1项,上海市光科技课题各1项。

       
主要研究方向:                          

 

材料体系

(1)石墨烯基复合材料的研究;金属氧(硫)化物及其复合材料的研究;

(2)功能碳

(3)导电高分子材料及其复合材料的合成和性能研究

(4)光、电功能性材料的研究及应用

 

技术领域

(1)储能材料、技术和器件(超级电容器、新型锂离子、锂硫、钠离子等高效能电池)

(2)碳纤维的高效回收和再利用技术

(3)光(电)功能材料的应用,包括光效应、光催化、以及分解水制氢材料和技术;

(4)石墨烯防腐;

(5)碳制造、碳转移和碳消减

  
主要社会兼职:                          

协会会员:上海市创新基金评审验收专家、上海市“科技奖”评审专家、上海市知识产权专家、张江专项发展资金评审验收专家、张江自主创新示范区专家、上海市技术转移咨询专家、美国化学协会会员、中国材料学会会员、上海市纳米专家库成员、上海市硅酸盐学会会员;

论文评审:(1) Molecule期刊编委

      (2)Green Chem.、Chem. Commun.、J. Mater. Chem.A、ACS Appl. Mater. Interfaces、J. Mater. Res.、

       Electrochim. Acta、J. Alloys Compd等国际刊物和武汉理工大学学报、上海师范大学学报等中文期刊的审稿人

       



 

 

 

 

 

 

 

 

发表论文、专著、专利、获奖情况

代表性论文

 

2020

(1)    Kefu Zhang, Zhaoqiang Zhu, Jiahao Lin, Ruizhi Zhang, Chongjun Zhao*,One-step simultaneously heteroatom doping and phosphating to construct 3D FeP/C nanocomposite for lithium storage, Applied Surface Science.500 (2020) 144055.

(2)    Quan Jiang, Gangqiang Qin, Qianyi Cui, Shaohua Xu, Aijun Du, Chongjun Zhao*, Qiao Sun*, The importance of atomic charge distributions of solid boron material in N2 electrochemical reduction, Appl. Surf. Sci. 526 (2020) 146606.

(3)    Changqiu Ma, Hanghang Liu, Feng Ren, Zheng Liu, Qiao Sun, Chongjun Zhao*, Zhen Li*, The second near-infared persistent luminescence for anti-counterfeiting application, Crystal Growth & Design 20 (2020) 1859-1867.

(4)    Ruizhi Zhang, Zhaoqiang Zhu, Jiahao Lin, Kefu Zhang, Nan Li, Chongjun Zhao*, Hydrolysis assisted in-

       situ  growth of 3D hierarchical FeS/NiS/nickel foam electrode  for overall water splitting, Electrochim. Acta             332 (2020) 135534

(5)  Zhaoqiang Zhu, Jiahao Lin, Nan Li, Ruizhi Zhang, Kefu Zhang, Chunhua Zhao, Guorong Chen, Chongjun  

      Zhao, J. Phys. Chem. C 124 (2020) 89-91.


2019

(1)   Zhaoqiang Zhu, Kefu Zhang, Ruizhi Zhang, Jiahao Lin, Chunhua Zhao, Guorong Chen, Chongjun Zhao*, A general strategy to inner tuned hydrothermal preparation of MxOy@M electrodes and improved electrochemical performances. Electrochimica Acta. 310 (2019) 162-172.

(2)   Zhaoqiang Zhu, Ruizhi Zhang, Jiahao Lin, Kefu Zhang, Nan Li, Chunhua Zhao, Guorong Chen, Chongjun Zhao*, Ni,Zn-codoped MgCo2O4 electrodes for aqueous asymmetric supercapacitor and rechargeable Zn battery, Journal of Power Sources. 437 (2019) 226941.

(3)    Yanan Zhou, Zhaoqiang Zhu, Chunhua Zhao*, Kefu Zhang, Bailing Wang, Chongjun Zhao*, Guorong Chen, Reclaimed carbon fiber-based 2.4 V aqueous symmetric supercapacitor, ACS Sustainable Chem. Eng. 7 (2019) 5095-5102.

(4)    Shengqi Wang, Yaping Song, Yue Ma, Zhaoqiang Zhu, Chunhua Zhao, Chongjun Zhao*, Attaining a high energy density of 106 Wh kg−1 for aqueous supercapacitor based on VS4/rGO/CoS2@Co electrode, Chem. Eng. J. 365 (2019) 88-98.

(5)    Danmin Shao, Pengwei Li, Ruizhi Zhang, Chunhua Zhao*, Deqiang Wang, Chongjun Zhao*, One-step preparation of Fe-doped Ni3S2/rGO@NF electrode and its superior OER performances, Int. J. Hydrogen Energy 44 (2019) 2664-2674.

(6)    Chongjun Zhao*, Pengwei Li, Danmin Shao, Ruizhi Zhang, Shengqi Wang, Zhaoqiang Zhu, Chunhua Zhao, Phytic acid-derived Co2-xP2O7-C/RGO and its superior OER electrocatalytic performance, Int. J. Hydrogen Energy 44 (2019) 844-452.

(7)    Yifan Xu, Feng Ren, Hanghang Liu, Hao Zhang, Yaobao Han, Zheng Liu, Wenliang Wang, Qiao Sun, Chongjun Zhao*, Zhen Li*, Cholesterol-modified black phosphorus nanospheres for the first NIR-II fluorescence bioimage, ACS Appl. Mater. Interface 11 (2019) 21399-21407.


(8)  Danmin Shao, Pengwei Li, Deqiang Wang, Chongjun Zhao*, Chunhua Zhao, High 

       OER performance Ni(OH)2 with hierarchical structure, J. Solid State Electrochem. 23 

       (2019) 2051-2060





2018 年

(1)Chongjun Zhao*, Yaoxuan Huang, Chunhua Zhao, Xiaoxiao Shao, Zhaoqiang Zhu, Rose-derived 3D carbon nanosheets for high cyclability and extended voltage supercapacitor, Electrochim. Acta 291 (2018) 287-296.

(2)Shengqi Wang, Zhaoqiang Zhu, Pengwei Li, Chunhua Zhao, Chongjun Zhao*, Hui Xia, In situ conversion of sub-4nm Co(OH)2 nanosheet arrays from phytic acid-derived Co3(HPO4)2(OH)2 for superior high loading supercapacitors, J. Mater. Chem. A. Accepted.

(3)Xiaoxiao Shao, Zhaoqiang Zhu, Chongjun Zhao*, Chunhua Zhao, Xiuzhen Qian, Hierarchical FeS/RGO/FeS@Fe foil as high-performance negative electrode for asymmetric supercapacitors, Inorg. Chem. Frontiers 5 (2018) 1912-1922.

(4)Xian Wu, Fenglei Li, Chongjun Zhao*, Xiuzhen Qian, One-step construction of hierarchical Ni(OH)2/RGO/Cu2O on Cu foil for Ultra-Sensitive Non-enzymatic Glucose and Hydrogen peroxide Detection, Sensors Actuators B 274 (2018) 163-171.

(5)Zhaoqiang Zhu, Yanan Zhou, Shengqi Wang, Chunhua Zhao, Zhen Li*, Guorong Chen, Chongjun Zhao*, Ni counterpart-assisted synthesis of nanoarchitectured Co3O4/CoS/Ni(OH)2@Co electrode for superior supercapacitor, Electrochim. Acta 284 (2018) 444-453.

(6)Lijuan Deng, Yifan Xu, Caixia Sun, Baofeng Sun, Qiao Sun, Chongjun Zhao*, Zhen Li*, Functionalization of small black phosphorus nanoparticles for targeted imaging and photothermal therapy of cancer, Sci. Bull 63(14) (2018) 917-924.

(7)Xian Wu, Xiaojuan Zhang, Chongjun Zhao*, Xiuzhen Qian, One-pot hydrothermal synthesis of ZnO/RGO/ZnO sensor for sunset yellow in soft drinks, Talanta 179 (2018) 836-844.

(8) Chunhua Zhao, Yanan Zhou, Zhengxiang Ge, Chongjun Zhao*, Xiuzhen Qian, Facile construction of MoS2/RCF electrode for high-performance supercapacitor, Carbon 127 (2018) 699-706.


2017 年

(1)  Peiwen Ju, Zhaoqiang Zhu, Xiaoxiao Shao, Shengqi Wang, Chunhua Zhao, Xiuzhen Qian, Chongjun Zhao*, 3D  

       walnut-shaped TiO2/RGO/MoO2@Mo electrode exhibiting extraordinary supercapacitor performance, J Mater.

        Chem. A 5 (2017) 18777-18785

(2) Chongjun Zhao*, Shengqi Wang, Zhaoqiang Zhu, Peiwen Ju, Chunhua Zhao and Xiuzhen Qian, Roe-

       shaped Ni3(PO4)2/RGO/Co3(PO4)2 (NRC) nanocomposite grown in situ on Co foam for superior 

       supercapacitors, J Mater. Chem. A 5 (2017)18594-18602.

(3)Chongjun Zhao*, Zhengxiang Ge, Yanan Zhou, Youfu Huang, Gefei Wang, Xiuzhen Qian, Solar-assisting 

       pyrolytically reclaimed carbon fiber and their hybrids of MnO2/RCF for supercapacitor electrodes, Carbon 114

       (2017) 230-241.

(4)Chongjun Zhao*, Xian Wu, Xiaojuan Zhang, Pengwei Li, Xiuzhen Qian, Facile synthesis of layered

       CuS/RGO/CuS nanocomposite on Cu foam for ultrasensitive nonenzymatic detection of glucose, Journal of

       Electroanalytical Chemistry 785 (2017) 172-179.

(5) Chongjun Zhao*, Xian Wu, Xiaojuan Zhang, Pengwei Li, Xiuzhen Qian, one-pot hydrothermal synthesis of

      CuO/RGO/Cu2O on Cu foil for ultra-sensitive non-enzymatic glucose and hydrogen peroxide, Microchimica Acta  

     184 (2017) 2341-2348.

(6) Chongjun Zhao, Xiaoxiao Shao, Zhaoqiang Zhu, Chunhua Zhao, Xiuzhen Qian, One-pot hydrothermal synthesis

     of RGO/FeS composite on Fe foil for high performance supercapacitors, Electrochim. Acta 246 (2017) 497-506.

     .

2016 年

(1)   Caixia Sun, Ling Wen, Jianfeng Zeng, Yong Wang, Qiao Sun, Lijuan Deng, Chongjun Zhao*, Zhen Li*, One-pot solventless preparation of PEGylated black phosphorus nanoparticles for photoacoustic imaging and photothermal therapy of cancer, Biomaterials 91 (2016) 81-89. 

(2)  Shudi Min, Chongjun Zhao*, Peiwen Ju, Guorong Chen, Xiuzhen Qian, Zaiping Guo, Facile synthesis of nickel foam based nano-architectured composites as binder-free anodes for high capacity Li-ion batteries, J Power Sources 304 (2016) 311-318.

(3)   Chongjun Zhao*, Yuxiao Zhang, Xiuzhen Qian, MoS2/RGO/Ni3S2 nanocomposite in-situ grown on Ni foam substrate and its high electrochemical performance, Electrochimica Acta 198 (2016) 135-143.

(4)  Kun Wang, Chongjun Zhao*, Zhuomin Zhang, Shudi Min, Xiuzhen Qian, A facile one-step route to synthesize three-layer nanostructure of CuS/RGO/Ni3S2 and its high electrochemical performance, RSC Adv. 6 (2016) 16963-16971.

(5)  Shengqi Wang, Peiwen Ju, Zhaoqiang Zhu, Chongjun Zhao*, Co3O4/RGO/Co3O4 pseudocomposite grown in situ on a Co foil for high-performance supercapacitors, RSC Advances 6 (2016) 99640-99647.

(6) Yuxiao Zhang, Peiwen Ju, Chongjun Zhao*, Xiuzhen Qian, In-situ grown of MoS2/RGO/MoS2@Mo nanocomposite and its supercapacitor performance, Electrochimica Acta 219 (2016) 693-700.

(7) Chongjun Zhao*, Peiwen Ju, Shengqi Wang, Yuxiao Zhang, Shudi Min, Xiuzhen Qian, One-step hydrothermal preparation of TiO2/RGO/Ni(OH)2/NF electrode with high performance for supercapacitors, Electrochimica Acta 218 (2016) 216-227.

(8) Chongjun Zhao*, Qian Wang, Huang Zhang, Stefano Passerini, Xiuzhen Qian, Two-dimensional titanium carbide/RGO composite for high-performance supercapacitors, ACS Appl. Mater. Interfaces 8 (24) (2016) 15661-15667.

(9) Chongjun Zhao*, Xiaoxiao Shao, Yuxiao Zhang, Xiuzhen Qian, Fe2O3/reduced graphene oxide/Fe3O4 composite in situ grown on Fe foil for high-performance supercapacitors, ACS Appl. Mater. Interfaces 8 (24) (2016) 30133-30142.

2015 年

(1) Kun Wang, Chongjun Zhao*, Shudi Min, Xiuzhen Qian, Facile Synthesis of Cu2O/RGO/ Ni(OH)2 Nanocomposite and Its Double Synergistic Effect on Supercapacitor Performances, Electrochim. Acta 165 (2015) 314-322.     .

(2) Xiaojuan Zhang, Xiuzhen Qian, Junping Dong, Chongjun Zhao*, One-step synthesis of RGO/ZnO composite films on Zn foil for nonenzymatic sensingof xanthine, Sensor and Actuator B 221 (2015) 528-536.

(3) Shudi Min, Zhuomin Zhang, Chongjun Zhao*, Guorong Chen, Xiuzhen Qian, Zaiping Guo, Hydrothermal growth of MnO2/RGO/Ni(OH)2 on nickel foam with superior supercapacitors performance, RSC Adv. 5 (2015) 62571-62576.

(4) Chongjun Zhao*, Zhuomin Zhang, Qian Wang, Xiuzhen Qian, Vertically oriented Ni3S2/RGO/Ni3S2 nanosheets on Ni foam for superior supercapacitor 5 (2015) 63528-63536.

(5) Zhuomin Zhang, Qian Wang, Chongjun Zhao*, Shudi Min, Xiuzhen Qian, One-step Hydrothermal Synthesis of 3D Petal-like Co9S8/RGO/ Ni3S2 Composite on Nickel Foam for High-performance Supercapacitors, ACS Appl. Mater. Interface. 7 (2015) 4861-4868.

(6) Shudi Min, Chongjun Zhao*, Zhuomin Zhang, Guorong Chen, Xiuzhen Qian, Zaiping Guo*, One-step preparation of Ni(OH)2/RGO pesudocomposite on nickel foam for supercapacitor with superior performance, J. Mater. Chem. A. 5 (2015) 3641-3650.

(7)  Kun Wang, Xiangmao Dong, Chongjun Zhao*, Xiuzhen Qian, Yunlong Xu, Facile synthesis of Cu2O/CuO/RGO nanocomposite and its superior supercapacitors, Electrochim. Acta. 152 (2015) 433-442.

(8)   Youfu Huang, Chongjun Zhao*, jianbo Dong, Muzi Shitian, Weifeng Ma, Xiuzhen Qian, Solvothermal Recovery of CFs from Thermoset polymer-based CFRPs, J. Reinforced Plastic Comp. 34 (2015) 1673-1683.

 

2014 年

(1)   Zhuomin Zhang, Chongjun Zhao*, Shudi Min, Xiuzhen Qian, A facile one-pot route to RGO/Ni3S2 for high-performance supercapacitor. Electrochim.Acta. 144 (2014) 100-110.

(2)  Xiangmao Dong, Kun Wang, Chongjun Zhao*, Xiuzhen Qian, Zhen Li, Direct synthesis of Cu2O/RGO composite film on Cu foil and its supercapacitor performance, J. Alloys Compd. 586 (2014) 745-753

(3)  Shudi Min, Chongjun Zhao*, Guorong Chen, Xiuzhen Qian, One-pot hydrothermal preparation of Ni(OH)2/RGO composite film for supercapacitor with high rate performance. Electrochim. Acta. 115 (2014) 155-163.

(4)  Shudi Min, Chongjun Zhao*, Guorong Chen, Zhuomin Zhang, Xiuzhen Qian, One-pot hydrothermal synthesis of 3D flower-like RGO/Co3O4/Ni(OH)2 composite film on nickel foam for high-performance supercapacitor, Electrochim. Acta 135 (2014) 336-344.

(5)  Xiangmao Dong, Li Li, Chongjun Zhao*, Hua-kun Liu, Zaiping Dou, Controlled synthesis of RGO/FexOy nanocomposites as a high-performance a node material for lithium ion batteries, J. Mater. Chem. 2 (2014) 9844-9850.

 

 

代表性专利

 国际发明专利   .  

(1)  Chongjun Zhao, Youfu Huang, Jianbo Dong, Xiuzhen Qian, Jinchao Zhang, A method of recovering carbon fiber from CFRP through self-heating, Appl. Number: PCT/CN2014/078983, Appl. Date: May 30, 2014.

(2)   Chongjun Zhao, Youfu Huang, Jianbo Dong, Jinchao Zhang, Xiuzhen Qian, Yunlong Xu, Method for recycling carbon fiber from large pieces of CFRP using a laser beam, Appl. Number: PCT/CN2014/078985, Appl. Date: May 30, 2014.

(3)   Chongjun Zhao, Jianbo Dong, Youfu Huang, Yunlong Xu, Xiuzhen Qian, Jinchao Zhang, Method for continuous preparation of graphene powder through high-power laser assisted CO2 conversion. Appl. Number: PCT/CN2014/078987, Appl. Date: May 30, 2014.

(4)   Chongjun Zhao, Shudi Min, Xiangmao Dong, Xiuzhen Qian, Methods and system for preparing graphene,  Application number: WO2013CN86328, Oct. 31, 2013.

(5)   Chongjun Zhao, Jianbo Dong, Xiangmao Dong, Xiuzhen Qian, Methods and apparatus for producing pattern graphene, WO2013CN86317, Oct. 31, 2013.

(6)   Chongjun Zhao, Jianbo Dong, Youfu Huang, Jingwei Ma, Xiuzhen Qian, Method and systems for producing carbon aerogel, WO2013CN86331, Application data: Oct. 31, 2013.

(7)   Chongjun Zhao, Muzi Shitian, Weifeng Ma, Xiuzhen Qian, Jinchao Zhang, Chemical solvothermal method for recovering carbon fiber from CFRP composites,WO2013CN75297, Appl. Date: May 8, 2013. Publication number: WO 2014179939 (A1), date: Nov. 13, 2014.

(8)   Chongjun Zhao, Xiangmao Dong, Shudi Min, Zhuomin Zhang, Kun Wang, Jianbo Dong, Xiuzhen Qian, Xin Chen, Preparation of metal oxide-graphene composite films, WO2013CN72182 20130505. Appl. Date: Mar. 5, 2013. Publication number: WO 2014134782 (A1), date: Sep. 5, 2014.

(9)   Chongjun Zhao, Methods and compositions for making metal oxide-graphene composites, Application number: WO2012CN82464 20120929. Appl. Date:  Sep 29, 2012, Publication number: WO 2014047930 A1, Date: Apr. 3, 2014.

(10)Chongjun Zhao, Zhen Shao, Yang Xia, Yunlong Xu, Xiuzhen Qian, Photocatalytic composites and methods for their preparation and use, Application number: WO2012CN76919 20120614, Application date: Jun. 14 2012. Publication number: WO 2013185328 (A1), date: Dec. 19, 2013 

 

 中国发明专利

 1.   赵崇军,夏杨,徐云龙,钱秀珍,殷恺,感光材料废液的光催化处理方法,发明专利,专利号:ZL 201110190420.7,申请日:201178,授权日:20141217.

2.  赵崇军,张卓民,兰永焕,钱秀珍,徐云龙,张金朝,一种制备Ag3PO4@g-C3N4复合可见光催化材料的方法,发明专利,专利号:ZL 201310016018.6,申请日:2013116,授权日:2014910.

3.赵崇军,兰永焕,钱秀珍,徐云龙,张金朝,一种制备AgX@g-C3N4复合光催化材料的方法,发明专利,专利号:ZL 201210355687.1,申请日:2012920,授权日:2014910.

4.赵崇军,兰永焕,董建波,徐云龙,钱秀珍,一种制备卤化银光催化材料的电化学方法,发明专利,专利号: 201110190428. 3,申请日:201178,授权日:2013731.

5.赵崇军,谷淑娜,徐云龙,钱秀珍,一种微波法制备银/聚吡咯复合溶胶的方法,发明专利,专利号:ZL201010607616.7,申请日:20101223,授权日:201343.

6.赵崇军,王猛,徐云龙,钱秀珍,李兵,尚勤杰,均相水溶液中分离离子液体BMIM[FeCl4]的方法,发明专利,专利号:ZL 200910247335.2,申请日期:20091229,授权日期:201319.

7.赵崇军,夏杨,朱卡克,徐云龙,钱秀珍,高永龄,一种制备卤化银光催化材料的溶剂热方法,发明专利,专利号:201110100410.3,申请日:201178,授权日:201319.

8.赵崇军,兰永焕,刘东旭,徐云龙,钱秀珍,一种制备透明卤化银/高分子复合薄膜的方法,发明专利,专利号:ZL201010607606.3,申请日:20101223,授权日:2012725.

9.赵崇军,徐云龙,钱秀珍,彭延庆,马新胜,李兵,王猛,一种以Fe(III)离子液体为氧化剂制备聚吡咯的方法,发明专利,专利号:200810039585.2,申请日:2008626,授权日:2012314.

10.赵崇军,徐云龙,钱秀珍,李兵,一种制备AgCl/PPy纳米复合材料的方法,发明专利,专利号:ZL 200910197002.3,申请日:20091012,授权日;2011525.

11.赵崇军,李兵,万传云,一种快速制备Ag/PPy复合材料的方法,发明专利,专利号:ZL 200710170712.8,申请日:20071121,授权日:20101117.

12.赵崇军,徐云龙,钱秀珍,李兵,王猛,马新胜,一种从AgCl粉末出发制备氯化银溶胶和银溶胶的方法,发明专利,专利号:200910045008.9,申请日:200918,授权日:2010929.

13.赵崇军,张华,陈辰,全程疏水性聚吡咯膜的制备方法,发明专利,专利号:ZL 200710170712.8,申请日:200728,授权日:2010825.

 

 

专著

徐云龙,赵崇军,钱秀珍,纳米材料概论,华东理工大学出版社,2009年。

 




名称
来源
(1) Recovery of carbon fiber from CFRP-1(CFRP回收碳纤维:第1期:可行性研究;第2期:大件CFRP回收)

波音公司

(2) 非金属换热芯项目
华为公司
(3) 发明创新计划
美国IVIN公司创新项目
(4)飞秒激光诱导“三维”导电高分子微结构及其性能研究国家自然科学基金(已结题)
(5) 金属氧化物/石墨烯复合薄膜的一步法合成及其电化学传感性能研究
上海市自然科学基金