一、基本情況
姓名:陳召勇
性別:男
學歷學位:研究生、博士
職稱:教授、博士生導師
職務:新能源動力電池研究所所長
學術兼職:國家重點研發計劃評審專家,國家自然科學基金通訊評審專家,中國儀器儀表學會儀表功能材料分會理事,中國化學與物理電源行業協會專家委員會委員,長沙市“先進儲能材料”產業鏈工業科技特派員。
研究方向:鋰離子電池、固態鋰電池、固體電解質、儲能材料、廢舊鋰電池資源化回收
電子郵箱:[email protected]
二、專業教學及教學成果
主要承擔《粉體工程》、《材料科學概論》、《新能源材料導論》、《專業綜合實驗》課程教學;
主要教學成果:
1. 主持“新能源材料與器件”專業建設,2017-2021;
2. 主持湖南省普通高等學校教學改革研究項目“無機非金屬材料工程專業創新創業教育的探索和實踐”,2010-2012;
3. 徐明,富鋰層狀氧化物正極材料的表面包覆改性研究,湖南省優秀碩士論文,2016,指導教師:陳召勇;
4. 嚴小艷,富鋰錳基正極材料的制備與銻摻雜研究,湖南省優秀碩士論文,2019,指導教師:陳召勇;
5. 陳召勇,朱華麗,廖紅衛,曾愛香,大學生創新創業精神培養方法探索,中國科教創新導刊,2011,20,27。
6. 長安固鋰——高安全高容量固態鋰電池,朱海鵬、黃鑫、楊飛凡、陳云潔、閆心凝,國家級大學生創新創業訓練計劃,2020,指導教師:陳召勇;
7. 王航,熊禮俊 王成武 張磊,動力電池正極材料磷酸鐵鋰制備的低碳工藝研究,國家級大學生研究性學習與創新實驗計劃,2010,指導教師:陳召勇;
8. 李儉,羅艾英,劉平禮,汪天杰,徐志輝,鋰離子電池用尖晶石錳酸鋰與電解液界面組成、形成機理與穩定性研究,國家級大學生研究性學習與創新實驗計劃,2009,指導教師:陳召勇。
三、研究方向及研究團隊
主要從事“新能源材料與器件”學科領域科研工作;
所在研究團隊介紹:針對化石能源的日益枯竭及其使用帶來的環境污染,先進電池與材料科研團隊致力于推進可持續清潔能源的大規模應用,圍繞“新型儲能材料與器件”關鍵材料與技術進行研發,通過對材料表面雙重包覆、體相與表面協同改性及結構精修,在儲能電池關鍵材料的結構設計與可控制備、表界面調控及儲能機制方面取得創新性成果,與省內外新能源龍頭企業開展緊密產學研合作,為實現高安全高能量密度長壽命儲能材料的規模化應用提供了新材料和新工藝,促進了儲能電池在新能源汽車、智能電網和風光電站大規模應用。主要研究方向為:① 鋰、鈉離子電池電極材料的設計、制備與體表調控研究;② 固態鋰電池及其關鍵材料的設計與研制;③ 廢舊鋰離子電池的資源化回收利用。
團隊負責人陳召勇教授長期以來從事鋰離子電池與材料、固態鋰電池、廢舊電池回收資源化利用方面的研究,在鋰離子電池材料的設計、制備、結構分析表征、性能調控與廢舊電池回收新工藝方面積累了豐富的經驗。主持國家自然科學基金面上項目,湖南省重點研發計劃,省部級等項目20余項,獲湖南省科技進步獎,授權國家發明專利20余件,在Advanced Functional Materials,Nano Energy等國內外學術期刊上共發表學術論文60余篇,其中SCI收錄40余篇,高被引論文3篇,熱點論文1篇。
團隊長期以來從事儲能材料的研究,具有良好的分工協作精神,近年來主持國家自然科學基金7項、面上項目2項,省部級項目10余項、省重點研發計劃1項,獲省部級獎勵3項,授權國家發明專利20余件,在國內外學術期刊上共發表學術論文120余篇,其中SCI收錄110余篇。
團隊主要成員如下:
1. 陳召勇,博士,教授,博導,團隊負責人,主持國家自然科學基金面上項目,湖南省重點研發計劃,省部級等項目20余項,發表學術論文60余篇,獲國家發明專利20余件。
2. 段軍飛,博士,副教授,碩導,骨干成員,主持國家自然科學基金青年基金,湖南省自然科學基金等科研項目4項,發表學術論文30余篇,獲國家授權發明專利8件;
3. 曾光,博士,講師,碩導,骨干成員,主持國家自然科學基金青年基金項目,福建省自然科學基金青年基金項目等科研項目2項,發表學術論文10余篇,獲國家發明專利1件;
4. 顧巖嶺,博士,講師,碩導,骨干成員,主持國家自然科學基金青年基金項目,湖南省自然科學基金青年基金項目等科研項目3項,發表學術論文30余篇,獲國家發明專利5件;
5. 王艷霞,博士,講師,碩導,骨干成員,發表學術論文8篇。
四、科研成果
1. 科技獎勵
(1) 湖南省科技進步三等獎,鋰離子動力電池正極材料關鍵技術及應用,排名第一,2014;
(2) 湖南省第14屆自然科學優秀學術論文二等獎,排名第一,2012;
(3) 鋰電池正極材料-磷酸鐵鋰,焦作市科學技術進步獎三等獎(201163),排名第一,2011;
2. 科研項目
(1) 國家自然科學基金面上項目“磷酸鐵鋰/聚吡咯雙層包覆銻摻雜富鋰錳正極材料的可控制備與結構增強機制研究”(51874048),60萬,2019-2022,主持,在研;
(2) 長沙市科技重大專項“新一代高鎳低鈷化鋰電池正極材料關鍵技術研發與產業化”,400萬,2020-2023,首席專家,在研;
(3) 湖南省教育廳重點科學研究項目“富鋰錳正極材料的電壓衰減調控研究(19A003)”,10萬,2019-2022,主持,在研;
(4) 長沙市科技計劃項目“高電導率鋰離子電池固體電解質鋯酸鑭鋰的制備與應用研發(kq1901100)”,15萬,2019.1-2020.8,主持,結題;
(5) 湖南省重點研發計劃“富鋰錳基高能量密度正極材料關鍵技術研發(2016GK2012)”,20萬,2016-2017,主持,結題;
(6) 湖南省教育廳重點科學研究項目“富鋰錳正極材料的相變與過 (超)氧離子的關聯及穩定性調控研究(16A001)”,10萬,2016-2018,主持,結題;
(7) 教育部優秀留學回國人員科研啟動基金“熔鹽體系中硅酸錳鋰納米線的生長機理與儲鋰性能研究([2011]1139)”,主持,結題;
(8) 湖南省自然科學基金“納米結構磷酸鐵鋰的電化學合成及其性能研究(09JJ3092,結題優)”,主持,結題;
(9) 湖南省科技廳科技計劃“CVD法現場制備鋰離子動力電池用磷酸鐵鋰-納米碳復合正極材料的研究(2008FJ3008,結題)”,主持,結題;
(10) 湖南省教育廳青年基金項目“提高磷酸鐵鋰大電流充放電性能的研究(06B002,結題)”,主持,結題;
(11) 長沙市科技計劃項目“鋰電池用高電壓高鎳正極材料的研究和產業化(kq1701076)”,5萬元,2017.9-2018.12,主持,結題;
(12) “鋰離子電池正極材料磷酸鐵鋰產業化與磷酸鐵鋰電池制造技術”項目,160萬,2009-2011,主持,結題;
(13) “年產200噸鋰離子電池正極材料磷酸鐵鋰的生產技術”,120萬;2009-2012,主持,結題;
(14) “石墨基特殊殼層結構負極復合材料關鍵技術的研發” 項目,20萬,2012-2014,主持,結題;
(15) “石墨烯的應用研究”橫向項目,60萬,2016-2017,主持,結題;
(16) “622三元材料的研發”橫向項目,15萬,2017-2019,主持,結題;
(17) 國家科技部重大項目“鋰離子電池電極材料(錳酸鋰)的制備及研究”(98-D102),參與,結題;
(18) 國家自然科學基金項目“快離子導體鑲嵌LiNi0.8Co0.1Mn0.1O2正極材料的研究”,排名第二(51304031),排名第二,結題;
(19) 國土資源部公益性行業科研專項“隱晶質石墨深加工技術及應用研究(201011031-5)”;排名第三,結題;
(20) 湖南省創新創業技術投資項目“高安全、長壽命動力電池用NCM622三元材料的研發及產業化(2017GK5008)”,350萬,2017.11-2019.10,排名7/8,結題;
3. 學術論文
(1) Zhuolin Tang, Mengming Yuan, Huali Zhu, Guang Zeng, Jun Liu, Junfei Duan, Zhaoyong Chen*,Promoting the Performance of Li–CO2 Batteries via Constructing Three-Dimensional Interconnected K+ Doped MnO2 Nanowires Networks, Frontiers in Chemistry,2021,9,670612.
(2) Huali Zhu, Rui Shen, Yiwei Tang, Xiaoyan Yan, Jun Liu, Liubin Song, Zhiqiang Fan, Shilin Zheng, Zhaoyong Chen ?. Sn-doping and Li2SnO3 nano-coating layer co-modified LiNi0.5Co0.2Mn0.3O2 with improved cycle stability at 4.6 V cut-off voltage, Nanomaterials, 2020, 10, 868.
(3) Ji, Y.; Zhou, C.; Lin, F.; Li, B.; Yang, F.; Zhu, H.; Duan, J.; Chen, Z. ? Submicron-Sized Nb-Doped Lithium Garnet for High Ionic Conductivity Solid Electrolyte and Performance of Quasi-Solid-State Lithium Battery. Materials 2020, 13, 560.
(4) Junfei Duan, Yongkang Wang, Hongxing Li, Donghai Wei, Fang Wen, Guanhua Zhang, Piao Liu, Lingjun Li, Wei-bing Zhang, and Zhaoyong Chen?, Bimetal-organic Framework-derived Co9S8/ZnS@NC Heterostructures for Superior Lithium-ion Storage, Chem. An Asian J, 2020, 15, 1-9.
(5) Liu, J.; Liu, Q.; Zhu, H.; Lin, F.; Ji, Y.; Li, B.; Duan, J.; Li, L.; Chen, Z. ? Effect of Different Composition on Voltage Attenuation of Li-Rich Cathode Material for Lithium-Ion Batteries. Materials 2020, 13, 40.
(6) Liu, Q.; Zhu, H.; Liu, J.; Liao, X.; Tang, Z.; Zhou, C.; Yuan, M.; Duan, J.; Li, L.; Chen, Z. ? High-Performance Lithium-Rich Layered Oxide Material: Effects of Preparation Methods on Microstructure and Electrochemical Properties. Materials 2020, 13, 334.
(7) Ming Xu, Zhaoyong Chen*, Huali Zhu, Xiaoyan Yan, Lingjun Li, Qunfang Zhao, Mitigating Capacity Fade by Constructing Highly-Ordered Mesoporous Al2O3/Polyacene Double-Shelled Architecture in Li-Rich Cathode Materials,J. Mater. Chem. A, 2015, 3,13933-13945.
(8) Lingjun Li, Zhao yong Chen?, Qiao bao Zhang, Ming Xu, Xiang Zhou, Huali Zhu and Kaili Zhang?,A Hydrolysis-Hydrothermal Route to Synthesis of Ultrathin LiAlO2-inlayed LiNi0.5Co0.2Mn0.3O2 as High Performance Cathode Material for Lithium Ion Batteries, J. Mater. Chem. A, 2015, 3, 894-904.
(9) Zhaoyong Chen*, Xiaoyan Yan, Ming Xu, Kaifeng Cao, Huali Zhu, Lingjun Li, and Junfei Duan,Building Honeycomb-Like Hollow Microsphere Architecture in a Bubble Template Reaction for High-Performance Lithium-Rich Layered Oxide Cathode Materials,ACS Appl. Mater. Interfaces, 2017, 9 (36), pp 30617–30625.
(10) Zhao yong Chen?, K. Cao, H. Zhu, X. Gong, Q. Liu, J. Duan, L. Li, Improved Electrochemical Performance of Surface Coated LiNi0.80Co0.15Al0.05O2 With Polypyrrole, Frontiers in chemistry 6 (2019) 648.
(11) Chao Zhu, Donghai Wei, Yinglong Wu, Zeng Zhang, Guanhua Zhang, Junfei Duan,* Lingjun Li, Huali Zhu, Zhiying Zhu, Zhaoyong Chen*, Controllable construction of interconnected SnOx/N-doped carbon/carbon composite for enhanced-performance lithium-ion batteries anodes, J. Alloys Compd., 2019, 778, 731-740.
(12) Zhao yong Chen?, X. Gong, H. Zhu, K. Cao, Q. Liu, J. Liu, L. Li, J. Duan, High Performance and Structural Stability of K and Cl Co-Doped LiNi0.5Co0.2Mn0.3O2 Cathode Materials in 4.6 Voltage, Frontiers in chemistry 6 (2019) 643.
(13) Z. Chen, Z. Zhang, Q. Zhao, J. Duan, H. Zhu, Understanding the Impact of K-Doping on the Structure and Performance of LiFePO4/C Cathode Materials, Journal of nanoscience and nanotechnology 19 (2019) 119-124.
(14) H. Zhu, Q. Li, X. Gong, K. Cao, Zhao yong Chen?, Enhanced High Voltage Performance of Chlorine/Bromine Co-Doped Lithium Nickel Manganese Cobalt Oxide, Crystals 8 (2018) 425.
(15) Ming Xu, Linfeng Fei, Wei Lu, Zhaoyong Chen, Tao Li, Yan Liu, Guanyin Gao, Yanqing Lai, Zhian Zhang, Peng Wang, Haitao Huang, Engineering hetero-epitaxial nanostructures with aligned Li-ion channels in Li-rich layered oxides for high-performance cathode application,Nano Energy, 35, 2017, 271–280.
(16) Junfei Duan, Chao Zhu, Yuhui Du, Yinglong Wu, Zhaoyong Chen*, Lingjun Li, Huali Zhu, Zhiying Zhu, “Synthesis of N-doped carbon-coated Zn–Sn mixed oxide cubes/graphene composite with enhanced lithium storage properties”, Journal of Materials Science, 2017, 52, 10470-10479.
(17) Ming Xu, Zhaoyong Chen?, Ling jun Li, Huali Zhu, Qunfang Zhao, Lian Xu, Nanfa Peng, Li Gong, Highly crystalline alumina surface coating from hydrolysis of aluminum isopropoxide on lithium-rich layered oxide. Journal of Power Sources, 2015, 281, 444-454.
(18) Zhaoyong Chen?, Ming Xu, Binglin Du, Huali Zhu, Tian Xie, Wenhua Wang, Morphology Control of Lithium Iron Phosphate Nanoparticles By Soluble Starch-assisted Hydrothermal Synthesis,Journal of Power Sources,2014,272,837-844.
(19) Zhaoyong Chen*, Qunfang Zhao, Ming Xu, Lingjun Li, Junfei Duan, Huali Zhu, Electrochemical properties of self-assembled porous micro-spherical LiFePO4/PAS composite prepared by spray-drying method, Electrochimica Acta, 186, 2015, 117-124.
(20) Lingjun Li, Ming Xu, Zhaoyong Chen*, Xiang Zhou, Qiaobao Zhang, Huali Zhu, Chun Wu, Kaili Zhang*,High-performance lithium-rich layered oxide materials: Effects of chelating agents on microstructure and electrochemical properties,Electrochimica Acta,2015,174,446–455.
(21) Huali Zhu, Tian Xie, Zhaoyong Chen*, Lingjun Li, Ming Xu, Wenhua Wang, Yanqing Lai, Jie Li, The impact of vanadium substitution on the structure and electrochemical performance of LiNi0.5Co0.2Mn0.3O2, Electrochimica Acta, 2014, 135, 77-85.
(22) Zhaoyong Chen*, Binglin Du, Ming Xu, Huali Zhu, Lingjun Li, Wenhua Wang,Polyacene coated carbon/LiFePO4 cathode for Li ion batteries: Understanding the stabilized double coating structure and enhanced lithium ion diffusion kinetics,Electrochimica Acta, 2013, 109,262-268.
(23) Zhao-yong Chen*, Pan-Pan Lu, Hua-Li Zhu. AC impedance investigation and charge-discharge performance of NaOH surface-modified natural graphite. Electrochimica Acta, 2013,102, 44-50.
(24) Zhaoyong Chen*, Huali Zhu, Shan Ji, Vladimir. Linkov, Performance of LiNi0.5Mn1.5O4 Prepared by Solid State Reaction, Journal of Power Sources 189, 2009, 507-510.
(25) Lingjun Li, Zhaoyong Chen*, Liubin Song, Ming Xu, Huali Zhu, Li Gong, Kaili Zhang*, Characterization and electrochemical performance of lithium-active titanium dioxide inlaid LiNi0.5Co0.2Mn0.3O2 material prepared by lithium residue-assisted method, Journal of Alloys and Compounds, 638 (2015) 77-82.
(26) Lingjun Li, Ming Xu, Zhaoyong Chen*, Xiang Zhou, Qiaobao Zhang, Huali Zhu, Chun Wu, Kaili Zhang*, High-performance lithium-rich layered oxide materials: Effects of chelating agents on microstructure and electrochemical properties, Electrochimica Acta, 174 (2015) 446-455.
(27) Lingjun Li, Qi Yao, Zhaoyong Chen*, Liubin Song, Tian Xie, Huali Zhu, Junfei Duan, Kaili Zhang*, Effects of lithium-active manganese trioxide coating on the structural and electrochemical characteristics of LiNi0.5Co0.2Mn0.3O2 as cathode materials for lithium ion battery, Journal of Alloys and Compounds, 650 (2015) 684-691.
(28) Lingjun Li, Qi Yao, Huali Zhu, Zhaoyong Chen*, Liubin Song, Junfei Duan, Effect of Al substitution sites on Li1-xAlx(Ni0.5Co0.2Mn0.3)1-yAlyO2 cathode materials for lithium ion batteries, Journal of Alloys and Compounds, 686 (2016) 30-37.
(29) Lingjun Li, Ming Xu, Qi Yao, Zhaoyong Chen, Liubin Song, Zhian Zhang, Chunhui Gao, Peng Wang, Ziyang Yu, Yanqing Lai, Alleviating Surface Degradation of Nickel-Rich Layered Oxide Cathode Material by Encapsulating with Nanoscale Li-Ions/Electrons Superionic Conductors Hybrid Membrane for Advanced Li-Ion Batteries, ACS Appl. Mater. Interfaces 2016, 8, 30879?30889.
(30) Zhaoyong Chen*, Hua-li Zhu,Shan Ji, Rushanah. Fakir, Vladimir. Linkov,Influence of Carbon Sources on Electrochemical Performances of LiFePO4/C Composites,Solid State Ionics 179, 2008,1810-1815
(31) Zhaoyong Chen?, Ming Xu, Huali Zhu, Tian Xie, Wenhua Wang, Qunfang Zhao,Enhanced electrochemical performance of polyacene coated LiMn2O3.95F0.05 for lithium ion batteries,Applied Surface Science, 286 , 2013, 177-183.
(32) Lingjun Li, Zhaoyong Chen?, Liubin Song, Ming Xu, Huali Zhu, Li Gong, Kaili Zhang?, Characterization and electrochemical performance of Lithium-active titanium dioxide inlaid LiNi0.5Co0.2Mn0.3O2 material prepared by Lithium residue-assisted method,Journal of Alloys and Compounds, 2015, 638,77-82.
(33) Lingjun Li, QiYao, Huali Zhu, Zhaoyong Chen*, Liubin Song, Junfei Duan, “Effect of Al substitution sites on Li1-xAlx(Ni0.5Co0.2Mn0.3)1-yAlyO2 cathode materials for lithium ion batteries”, Journal of Alloys and Compounds 686 (2016) 30–37.
(34) Huali Zhu, Jie Li, Zhaoyong Chen*, Qifeng Li, Tian Xie, Lingjun Li, Yanqing Lai,Molten salt synthesis and electrochemical properties of LiNi1/3Co1/3Mn1/3O2 cathode materials,Synthetic Metals,2014, 187, 123-129..
(35) Zhaoyong Chen*, Tian Xie, Characterization of Na substituted LiNi1/3Co1/3Mn1/3O2 cathode materials for lithium ion battery, Ionics, 2014, 20, 629-634.
(36) Ling-jun Li, Zhi-Xing Wang, Qi-Cheng Liu, Chang Ye, Zhao-Yong Chen, Effects of chromium on the structural, surface chemistry and electrochemical of layered LiNi0.8?xCo0.1Mn0.1CrxO2,Electrochimica Acta, 77,2012,89–96.
(37) CHEN Zhao-yong, ZHU Wei, ZHU Hua-li, ZHANG Jian-li, LI Qi-feng, Electrochemical performances of LiFePO4/C composites prepared by molten salt method, Trans. Nonferrous Met. Soc. China, 2010, 20(5), 809-813.
(38) CHEN Zhao-yong, ZHU Hua-li, ZHU Wei, ZHANG Jian-li, LI Qi-feng, Electrochemical performance of carbon nanotube-modified LiFePO4 cathodes for Li-ion batteries, Trans. Nonferrous Met. Soc. China, 2010, 20(4), 614-618.
(39) Hua-Li Zhu, Zhao-Yong Chen, Shan Ji, Vladimir. Linkov,Influence of different morphologies on electrochemical performance of spinel LiMn2O4, Solid State Ionics 179, 2008,1788-1793 .
(40) XIAO Jin; ZHU Hua-li; CHEN Zhao-yong; PENG Zhong-dong; HU Guo-rong, Preparation and property of spinel LiMn2O4 material by co-doping anti-electricity ions, Transactions of Nonferrous Metals Society of China, 2006, 16, 467-472.
(41) HU Guo-rong, GAO Xu-guang; PENG Zhong-dong, CHEN Zhao-yong, Tan Xian-yan, Yu Xiao-yuan, synthesis of LiFePO4/C composite electrode with enhanced electrochemical performance, Trans. Nonferrous Met. Soc. China, 15(4), 2005,795-799.
(42) Chen Zhaoyong, Zhu Huali, Hu Guorong, Xiao jin, Peng Zhengdong, Liu Yexiang, Electrochemical Performances and X-Ray Diffraction Studies on LiMn2O4-xYx Compounds, Trans. Nonferrous Met. Soc. China, 14(6), 2004,1151.
(43) YU Xiao-yuan, HU Guo-rong, PENG Zhong-dong,XIAO jin,CHEN Zhao-yong,L IU Ye-xiang,Surface modification of LiCo0. 05Mn1. 95O4 cathode by coating with SiO2,TiO2 composite,Trans. Nonferrous Met. Soc. China, 14 (4),2004,724.
(44) Chen, Zhao-yong, Li, Yan-Rong, Yu, Zuo-long, Charge-Discharge Behavior of Surface-Coated LiMn2O3.95F0.05 Cathode Materials at High Temperature, Chinese Chemistry Letter,14, 2003, 1296.
(45) Chen, Zhao-Yong; He, Yi; Li, Zhi-Jie; Gao, Li-Zhen; Jiang, Qi; Yu, Zuo-Long, Synthesis and Electrochemical Performance of Spinel LiMn2O4-x(SO4)x Cathode Materials, Chinese Journal Chemistry, 20, 2002,194.
(46) Chen, Zhao-Yong; Gao, Li-Zhen; Liu, Xin-Quan; Yu, Zuo-Long, Properties and Structure of Spinel Li-Mn-O-F Compounds for Cathode Materials of Secondary Lithium-ion Battery, Chinese Journal Chemistry, 19, 2001,347.
(47) H. Li; Q. Liang; L. Z. Gao; S. H. Tang; Z. Y. Chen; B. L. Zhang; Z. L. Yu; C. F. Ng; C. F. Au, Catalytic production of carbon nanotubes by decomposition of CH4 over the pre-reduced catalysts LaNiO3, La4Ni3O10, La3Ni2O7 and La2NiO4, Catalysis Letters, 74, 2001, 185.
(48) Chen, Zhao-Yong; Liu, Xin-Quan; Yu, Zuo-Long, Electrochemical Properties of Spinel LiMn2O4-δFδ for Cathode Materials of Secondary lithium-ion battery, Chinese Chemistry Letter, 5, 2000, 455.
(49) 陳召勇;劉興泉;高利珍;于作龍,高容量的Li1.1Mn2O3.95F0.05 鋰離子二次電池正極材料, 化學學報,59,2001,325.
(50) 陳召勇;劉興泉;高利珍;于作龍,尖晶石LiMn2O4 的高溫電化學容量衰減與改進, 無機化學學報,17,2001,325。
4. 國家專利
(1) 陳召勇,朱華麗,張曾,一種磷酸鐵鋰/石墨烯復合材料的制備方法,國家發明專利,ZL201610954267.3,2021.2.9;
(2) 陳召勇,朱華麗,一種廢棄三元鋰離子動力電池的綜合回收方法,國家發明專利,ZL201810082708.4,2020.6.9;
(3) 陳召勇,曹凱峰,一種球形鎳鈷鋁前軀體及其制備方法, 國家發明專利, ZL201711012414.6.(2019.10.8);
(4) 陳召勇,龔小龍,一種導電高分子包覆摻雜型鋰離子電池正極材料及其合成方法,國家發明專利, ZL201711001514.9.(2019.11.12);
(5) 陳召勇,朱華麗,一種從廢棄動力電池中回收鈷酸鋰的方法,國家發明專利,ZL201711259460.6.(2019.7.9)
(6) 陳召勇,朱華麗,一種廢舊動力電池的回收方法,國家發明專利,ZL201810398078.6.(2019.8.30)
(7) 陳召勇,朱華麗,一種從廢舊鋰離子動力電池中回收有價金屬的方法,國家發明專利,ZL201711245451.1.(2019.7.26)
(8) 陳召勇,朱華麗,一種磷酸鐵鋰/石墨烯復合材料的制備方法,國家發明專利,ZL201610804294.2.(2019.5.7)
(9) 陳召勇,朱華麗,磷酸鐵鋰/納米碳復合正極材料的制備方法,國家發明專利,ZL200910043208.0.
(10) 陳召勇,彭南發,許煉,歐潘連,陳孝,邢鵬,朱華麗,一種磷酸鐵鋰與鎳鈷錳酸鋰復合正極材料的制備方法,國家發明專利,ZL201410654321.3;
(11) 陳召勇,許煉,朱華麗,彭南發,一種表面包覆磷酸鐵鋰的鎳鈷錳酸鋰復合材料的制備方法,國家發明專利,ZL201410565787.6;
(12) 陳召勇,朱華麗,一種鋁合金及其制備方法,國家發明專利,ZL201610232664X。
(13) 朱華麗,陳召勇,一種從廢鋰離子電池材料中回收鈷和鋰的方法,國家發明專利,ZL201610533302.4
(14) 朱華麗,陳召勇,張曾,一種LiFePO4/石墨復合材料的制備方法,國家發明專利,ZL201610954268.8(2019.7.9)
(15) 朱華麗,陳召勇,一種從廢舊鎳鈷錳酸鋰電池材料中回收有價金屬的方法,國家發明專利,2016,ZL201610324520.7
(16) 李靈均,陳召勇,一種快離子鑲嵌型鋰離子電池正極材料的原位合成方法,國家發明專利,ZL201310127432.4.
(17) 段軍飛,陳召勇,一種不同形貌自組裝Cu2S納米材料的制備方法,國家發明專利,ZL201610163670.4;
(18) 段軍飛,陳召勇,一種鋰離子電池負極材料C/ZnO/Cu復合材料的制備方法,國家發明專利,ZL201510589278.1;
(19) 段軍飛,陳召勇,一種鋰電池負極材料-氮摻雜SnS/C復合納米材料的制備方法,國家發明專利,ZL201510956864.5.
