曾凡焱，工学博士，现任南昌航空大学材料化学专业副教授、硕士生导师，江西省杰出青年基金获得者。长期从事新型功能材料的设计与开发，在微观结构调控与储能性能优化方面积累了丰富的研究经验。先后主持国家自然科学基金面上项目与地区项目、江西省自然科学基金青年项目、面上项目及重点项目，以及江西省高等学校教学改革研究重点项目、江西省学位与研究生教育教学改革研究项目等多项课题。指导学生获得“挑战杯”江西省大学生课外学术科技作品竞赛一等奖。以第一作者或通讯作者在Advanced Energy Materials、Energy Storage Materials、Advanced Science、Journal of Energy Chemistry、Small等国际知名期刊发表SCI论文40余篇。作为第一发明人申请中国发明专利十余项，其中已授权7项。同时担任国家自然科学基金、江西省科技厅及工信厅等项目评审专家，并长期为Advanced Functional Materials、ACS Nano、Journal of Energy Chemistry、Chemical Engineering Journal、Small等期刊承担审稿工作。

教育背景

(1) 2008-09 至 2013-06, 湖南大学, 化学工程与技术, 硕博连读, 博士

(2) 2004-09 至 2008-07, 天津科技大学, 海洋科学, 学士

工作经历：

(1) 2025-07 至今, 南昌航空大学, 环境与化学工程学院, 副教授

(2) 2021-08 至 2025-07, 南昌航空大学, 材料科学与工程学院, 副教授

(3) 2013-07 至 2021-07, 江西师范大学, 物理与通信电子学院，讲师/副教授

研究领域

(1) 多功能纳米材料的微观结构调控和储能性能优化研究；

(2) 新能源器件的开发和产业化应用（锂离子电池、钠离子电池和超级电容器等）。

代表性科研/教改项目

(1) 国家自然科学基金面上项目，编号：52573299，起止时间：2026.01-2029.12，50万，主持；

(2) 国家自然科学基金地区项目，编号：51562010，起止时间：2016.01-2019.12，40万，主持；

(3) 江西省自然科学基金面上项目，编号：20242BAB25223，起止时间：2024.07-2026.12，10万，主持；

(4) 江西省自然科学基金重点项目，编号：20224ACB204008，起止时间：2023.01-2025.12，20万，主持；

(5) 江西省自然科学基金面上项目，编号：20212BAB204031，起止时间：2021.01-2023.06，10万，主持；

(6) 江西省杰出青年基金项目，编号：20192ACB21009，起止时间：2019.01-2021.12，20万，主持；

(7) 江西省自然科学基金青年项目，7万，编号：20161BAB216119，起止时间：2016.01- 2019.12，主持； 

(8) 江西省高等学校教学改革研究课题重点项目，编号：JXJG-17-2-8，起止时间：2018.01-2020.12，2万，主持；

(9) 江西省学位与研究生教育教学改革研究项目，编号：JXYJG-2018-47，起止时间：2019.01-2021.12，2万，主持。

学术成果（第一作者或通讯作者）

(1) Liao, B.; He, W.; Su, G.; Zeng, F.; Pan, Y.; Ma, D.; Zhang, L.; Tu, X. High-electronegativity N stabilized amorphous Mo–Se coordination via local electronic domains for boosting sodium-ion storage in hybrid capacitors. Journal of Energy Chemistry2026, 114, 657–666.(中科院1区)

(2) He, W.; Zeng, F.; Liao, B.; Zheng, Q.; Ma, D.; Xie, M.; Pan, Y. Oxygenation promoting Se-coordination of amorphous adjacent Nb-Nb diatomic pairs for high-performance sodium-ion hybrid capacitors. Journal of Energy Chemistry2026,112, 474–483. (中科院1区)

(3) Zhang, K.; He, W.; Zeng, F.; Huang, Y.; Wang, T.; Xie, M.; Ma, D.; Pan, Y. Asymmetric Configuration of Amorphous Mn–S Adjacent to Low-Nucleated MnS in N-Doped Carbon for Advanced Sodium-Ion Hybrid Capacitors. Inorganic Chemistry2025, 64, 51, 25205–25215. (中科院2区)

(4) You, Q.; Meng, H.; Ma, D.; Liao, Y.; Lu, K.; Wang, W.; Zeng, F.; Xiong, Z.; Xie, M.; Huang, H.; et al. Se-doped MoC/NC nanorods modified separator for synergistically accelerating trap and conversion of polysulfides toward advanced Li-S battery. Chemical Engineering Journal2025, 514, 163225. (中科院1区)

(5) Su, G.; Hou, H.; Zeng, F.; Liao, B.; Zhang, K.; Xie, M.; Ma, D.; Huang, H.; Pan, Y. Kinetic matching and P-vacancy enrichment of amorphous Ni/Mo–P via central atom modulation in carbon nanospheres for enhanced sodium-ion storage in hybrid capacitors. Carbon 2025, 238, 120260. (中科院2区)

(6) Qu, Y.; Luo, Z.; Yu, M.; Pan, Y.; He, W.; Hu, S.; Zhu, L.; Zeng, F. Dense homogeneous hetero-interfacial coupling between amorphous Mo–N and crystalline Mo₂N for enhanced sodium-ion storage. Rare Metals2025,44 (6), 3827–3838. (中科院1区)

(7) Li, J.; Zhou, J.; Cheng, G.; Zeng, F.; Wang, T.; He, W.; Huang, H.; Xie, M.; Ma, D.; Hou, Z. Nb atom-mediated activation and strong homogeneous coupling of amorphous Mo-N clusters boosting sodium-ion storage. Chemical Engineering Journal2025, 507, 160367.(中科院1区)

(8) Hu, S.; Liu, B.; Zeng, F.; Pan, Y.; Ma, D.; Xie, M.; Luo, S. High-Coordination and Nb-Bridging of Bimetallic Amorphous P₆-Nb-W-P₅ Clusters in Carbon Nanospheres for High-Performance Sodium-Ion Hybrid Capacitors. Advanced Science2025, 12 (11), 2416942.(中科院1区)

(9) Yu, M.; Zeng, F.; Qu, Y.; Wang, X.; Chen, S.; Hu, S.; Ma, D.; Xie, M.; Luo, S. Robust P-Se bond coupling of atomically amorphous W-P clusters to crystalline WSe₂ via dual p-band centers for enhanced sodium-ion storage. Energy Storage Materials2024, 67, 103265.(中科院1区)

(10) Liu, B.; Hu, S.; Pan, Y.; Zeng, F.; Zhou, S.; Zheng, Y.; Ma, Y.; Ma, D.; Luo, S. Amorphous Modulation of Atomic Nb-O/N Clusters with Asymmetric Coordination in Carbon Shells for Advanced Sodium-Ion Hybrid Capacitors. Small2024, 20 (12), 2308263.(中科院2区)

(11) Hu, S.; Chu, S.; Zeng, F.; Pan, Y.; Liu, B.; He, W.; Ma, D.; Xie, M.; Luo, S. Pyridine N-Modulated Adsorption Equilibrium of Highly Dispersed Atomic W-P Clusters toward Advanced Potassium-Ion Hybrid Capacitors. Advanced Energy Materials 2024, 14 (23), 2400533.(中科院1区)

(12) Zeng, F.; Liu, B.; Pan, Y.; Chu, S.; Cheng, G.; Lu, T.; Chen, Z.; Hou, Z. Sub-nanometric amorphous V–O clusters without grain boundaries bonded in yolk-shell carbon nanospheres for superior sodium-ion storage. Composites Part B: Engineering 2023, 252, 110532.(中科院1区)

(13) Chu, S.; Yu, M.; Pan, Y.; Hu, S.; Liu, B.; Lu, T.; Zeng, F.; Luo, S. Nitrogen-Rich W–N Clusters with Atomic Disorders and Non-Grain Boundaries Confined in Carbon Nanosheets Boosting Sodium-Ion Storage. Small2023, 19 (24), 2300619.(中科院2区)

(14) Chu, S.; Lu, T.; Zeng, F.; Liu, B.; Qu, Y.; Pan, Y. In Situ Growth of Mo₂C Crystals Stimulating Sodium-Ion Storage Properties of MoO₂ Particles on N-Doped Carbon Nanobundles. Industrial & Engineering Chemistry Research2023, 62 (8), 3602–3611.(中科院2区)

(15) Lu, T.; Liu, B.; Zeng, F.; Cheng, G.; Chu, S.; Xie, M.; Chen, Z.; Hou, Z. Decoration of carbon encapsulated nitrogen-rich Mo_xN with few-layered MoSe₂ nanosheets for high-performance sodium-ion storage. Journal of Energy Chemistry 2022, 74, 332–340.(中科院1区)

(16) Chu, S.; Yu, M.; Liu, B.; Lu, T.; Hou, Z.; Qu, Y.; Zeng, F. WO_3-x@W₂N heterogeneous nanorods cross-linked in carbon nanosheets for electrochemical potassium storage.Chemical Engineering Journal2022, 435, 135188.(中科院1区)

(17) Zeng, F.; Lu, T.; He, W.; Chu, S.; Qu, Y.; Pan, Y. In-situ carbon encapsulation of ultrafine VN in yolk-shell nanospheres for highly reversible sodium storage. Carbon2021,175, 289–298.(中科院1区)

(18) Zeng, F.; Yu, M.; Cheng, W.; He, W.; Pan, Y.; Qu, Y.; Yuan, C. Tunable Surface Selenization on MoO₂-Based Carbon Substrate for Notably Enhanced Sodium-Ion Storage Properties. Small 2020, 16 (41), 2001905.(中科院1区)

(19) Zeng, F.; Liu, H.; Pan, Y.; Yu, M.; Qu, Y.; Yuan, C. Encapsulating N-Doped Carbon Nanorod Bundles/MoO₂ Nanoparticles via Surface Growth of Ultrathin MoS₂ Nanosheets for Ultrafast and Ultralong Cycling Sodium Storage. ACS Applied Materials & Interfaces2020,12 (5), 6205–6216.(中科院1区)

(20) Zeng, F.; Cheng, W.; Pan, Y.; Yu, M.; Qu, Y.; Yuan, C. Mono-faceted WO_3−x nanorods in situ hybridized in carbon nanosheets for ultra-fast/stable sodium-ion storage. Journal of Materials Chemistry A2020, 8 (45), 23919–23929.(中科院1区)

(21) Pan, Y.; Xu, M.; Yang, L.; Yu, M.; Liu, H.; Zeng, F. Porous architectures assembled with ultrathin Cu₂O–Mn₃O₄ hetero-nanosheets vertically anchoring on graphene for high-rate lithium-ion batteries. Journal of Alloys and Compounds2020, 819, 152969.(中科院2区)

(22) Zeng, F.; Yang, L.; Pan, Y.; Xu, M.; Liu, H.; Yu, M.; Guo, M.; Yuan, C. Granular molybdenum dioxide precipitated on N-doped carbon nanorods with multistage architecture for ultralong-life sodium-ion batteries. Electrochimica Acta2019, 325, 134903.(中科院1区)

(23) Zeng, F.; Zhang, X.; Pan, Y.; Xu, M.; Yang, L.; Qu, Y.; Guo, M.; Yuan, C. Graphene-templated growth of vertical MnO nanosheets with open macroporous architectures as anode materials for fast lithium storage. Journal of Alloys and Compounds 2018, 769, 10–17.(中科院2区)

(24) Zeng, F.; Ren, Y.; Chen, L.; Yang, Y.; Li, Q.; Gu, G. Hierarchical sandwich-type tungsten trioxide nanoplatelets/graphene anode for high-performance lithium-ion batteries with long cycle life. Electrochimica Acta2016, 190, 964–971.(中科院1区)

(25) Zeng, F.; Pan, Y.; Yang, Y.; Li, Q.; Li, G.; Hou, Z.; Gu, G. Facile construction of Mn₃O₄-MnO₂ hetero-nanorods/graphene nanocomposite for highly sensitive electrochemical detection of hydrogen peroxide. Electrochimica Acta 2016, 196, 587–596.(中科院1区)

(26) Pan, Y.; Zeng, F.; Huang, Z.; Zhou, H.; Kuang, Y. A simple microexplosion synthesis of graphene-based scroll-sheet conjoined nanomaterials for enhanced supercapacitor properties. Electrochimica Acta 2015, 172, 71–76.(中科院1区)

(27) Pan, Y.; Yi, W.; Hou, Z.; Liu, Y.-N. Green and large-scale one-pot synthesis of small-sized graphene-bridged manganese dioxide nanowire network as new electrode material for electrochemical sensing. Journal of Sol-Gel Science and Technology2015, 76 (2), 341–348.(中科院2区)

(28) Pan, Y.; Hou, Z.; Yi, W.; Zhu, W.; Zeng, F.; Liu, Y.-N. Hierarchical hybrid film of MnO₂ nanoparticles/multi-walled fullerene nanotubes–graphene for highly selective sensing of hydrogen peroxide. Talanta2015, 141, 86–91.(中科院1区)

(29) Pan, Y.; Hou, Z.; Yang, H.; Liu, Y.-N. Hierarchical architecture of nanographene-coated rice-like manganese dioxide nanorods/graphene for enhanced electrocatalytic activity toward hydrogen peroxide reduction. Materials Science in Semiconductor Processing 2015, 40, 176–182.(中科院3区)

(30) Zeng, F.; Kuang, Y.; Zhang, N.; Huang, Z.; Pan, Y.; Hou, Z.; Zhou, H.; Yan, C.; Schmidt, O. G. Multilayer super-short carbon nanotube/reduced graphene oxide architecture for enhanced supercapacitor properties. Journal of Power Sources 2014, 247, 396–401.(中科院1区)

(31) Zeng, F.; Kuang, Y.; Liu, G.; Liu, R.; Huang, Z.; Fu, C.; Zhou, H. Supercapacitors based on high-quality graphene scrolls. Nanoscale2012, 4 (13), 3997–4001.(中科院1区)

(32) Zeng, F.; Hou, Z.; He, B.; Ge, C.; Cao, J.; Kuang, Y. Influence of heat-treatment on lithium ion anode properties of mesoporous carbons with nanosheet-like walls. Materials Research Bulletin2012, 47 (8), 2104–2107.(中科院2区)

(33) Zeng, F.; Kuang, Y.; Wang, Y.; Huang, Z.; Fu, C.; Zhou, H. Facile Preparation of High-Quality Graphene Scrolls from Graphite Oxide by a Microexplosion Method. Advanced Materials2011, 23 (42), 4929–4932.(中科院1区)

(34) Hou, Z.; Zeng, F.; He, B.; Tao, W.; Ge, C.; Kuang, Y.; Zeng, J. High rate capability of ordered mesoporous carbon with platelet graphitic pore walls for lithium ion anodes. Materials Letters2011, 65 (5), 897–900.(中科院2区)

申请及授权发明专利

(1) 一种水热补氧型碳限域铌双原子硒/氧配位非晶团簇储能材料及其制备方法和应用，中国发明专利，专利号：ZL202511114895.6，第一作者，公开时间：2025年11月；

(2) 一种碳封装高配位双金属非晶团簇储钠材料和制备方法以及应用，中国发明专利，专利号：ZL202410862410.0，第一作者，公开时间：2024年09月；

(3) 一种碳纳米片封装非晶态钨-磷团簇/晶态硒化钨纳米片异质结储钠材料的制备方法和应用，中国发明专利，专利号：ZL202311297852.7，第一作者，公开时间：2024年01月；

(4) 一种空心碳壳封装原子级非晶态铌-氧/氮团簇的储钠材料及其制备方法和应用，中国发明专利，专利号：ZL202311297856.5，第一作者，公开时间：2023年12月；

(5)一种碳纳米片封装原子级非晶态钨-氮团簇储钠材料及其形成方法和应用，中国发明专利，专利号：ZL202211271701.X，第一作者，授权时间：2024年02月；

(6) 一种碳封装氮化钼表面修饰少层硒化钼纳米片储钠材料及其形成方法和应用，中国发明专利，专利号：ZL202210781384.X，第一作者，授权时间：2023年06月；

(7) 一种碳球封装无定形钒-氧团簇复合材料及其制备方法和储钠应用，中国发明专利，专利号：ZL202011548421.X，第一作者，授权时间：2023年04月；

(8) 一种氮化钒量子点原位植入碳球复合材料及其制备方法和储钠应用，中国发明专利，专利号：ZL202011548399.9，第一作者，授权时间：2023年04月；  

(9) 单一晶面的氧化钨与碳纳米片复合储钠材料的形成方法，中国发明专利，专利号：ZL202010979410.0，第一作者，授权时间：2022年08月；

(10) 锂离子电池二元过渡金属氧化物负极材料的形成方法，中国发明专利，专利号：ZL201810336674.7，第一作者，授权时间：2020年07月； 

(11) 锂离子电池纳米片负极材料的形成方法，中国发明专利，专利号：ZL201810336855.X，第一作者，授权时间：2020年07月。