Professor Tong （Ph.D.）has held various positions at the university, including a full professor （Level 4), a full professor （Level 3), a full professor （Level 2), a "Special Position" under the Bao Chen Program, assistant to the department head, deputy department head （appointed by the university), and the head of the provincial engineering center for universities. He was selected as a provincial-level candidate for the "Thousand Talents Program" and a second-level talent in Wuqing District, Tianjin. In recent years, he has won one second prize and three third prizes for the Fujian Provincial Science and Technology Progress Award, one gold award at the National Invention Exhibition, one gold award at the Macao International Invention Exhibition, one silver award at the International Invention Exhibition, the 7th China Innovation Challenge Competition （Huizhou, Guangdong）Excellence Award, the 8th China Innovation Challenge Competition （Ningxia）Merit Award, the 8th "Maker China" Fujian Province Small and Medium-sized Enterprise Innovation and Entrepreneurship Competition Merit Award, and the Excellent Award of the First High-level Talent Innovation and Entrepreneurship Competition of Jiangxi Province. He has successively led and participated in 34 national and provincial-level scientific research projects, applied for more than 200 invention patents （with more than 160 granted), transferred 35 invention patents, and some of the transferred invention patents have achieved significant economic benefits. He was the first to publish several influential SCI papers （which were cited by Nobel laureate Goodenough). In 2013, he was the first to carry out the industrialization of lithium battery material lithium iron phosphate cathode materials. After nearly 10 years of continuous construction, the world's top new-generation battery experts （over 700 individuals）have been selected from the international battery industry to jointly build the international new-generation battery elite platform. This platform has conducted frequent exchanges and cooperation and has gained certain influence in the international battery industry. It has assisted several leading lithium battery units in applying for national-level talents and government scientific and technological achievement awards, achieving good results. This platform has become a one for the photovoltaic-lithium ions battery-sodium ions battery industry to conduct exchanges from mining - materials - batteries - systems - applications - funds - governments - international partners. In recent years, he has responded to the national call: “Build a new development pattern where the domestic market plays a dominant role and both domestic and international circulations promote each other!“ He has been actively exploring new paths for China's new energy cooperation in the international arena, and the major lithium battery industrialization projects he participated in signing are now being implemented in South Africa and Zimbabwe. The total investment will exceed 2.8 billion yuan RMB in the future. Currently, he is promoting the industrialization project of lithium battery cathode materials in African countries. At the same time, he is collaborating with international partners and competing for precious mineral resources from abroad. The NEW100TON website （www.n100t.com）established for international cooperation has received over 320,000 global clicks in just 4 months （as of September 15, 2025.)

Since 2019, based on his self-study of the Huangdi Neijing （Yellow Emperor's Inner Classic）of traditional Chinese medicine, he has begun to conduct research on human rehabilitation equipment. So far, he has applied for 5 related invention patents. Some of these patents have been made public.

1. Main part-time jobs in society

（1）One of the supporting experts of the “Green Manufacturing Public Service Platform” within the “China Green Manufacturing Alliance” which including the director of the “China Green Manufacturing Alliance” Steering Committee is a leader from the Ministry of Industry and Information Technology, and the committee members consist of 11 directors and deputy directors from various departments, while the members of the Strategic Committee are several famous academicians.

（2）Member of the Green Supply Chain National Standard Working Group of the National Standardization Technical Committee for Electrical and Electronic Products and Systems and Environmental Standards

（3）Member of the National Standard Working Group and Expert Committee of the Battery Professional Committee of the China Electronic Energy Conservation Technology Association

（4）The third and fourth term independent directors of A-share of Shanghai Stock Exchange, Sanxiang New Materials Company.

（5）National Science and Technology Achievement Network - Key Expert Team for Promoting Achievements Transformation

（6）Vice President of the Fujian Province Battery Technology Association

（7）Member of the Expert Committee of the Standardization Association of Fujian Province

（8）Member of the Expert Committee of the Battery Alliance of Guizhou Province

（9）Member of the Battery Film Special Committee of the China Plastics Association

（10）Former review experts or members of think tanks: National Natural Science Foundation, National Postdoctoral Foundation, Ministry of Science and Technology, Ministry of Education, Ministry of Human Resources and Social Security, Chinese Academy of Sciences, Fujian Provincial Organization Department, Fujian Provincial Government Asset Supervision and Administration Commission, Fujian Provincial Development and Reform Commission, Fujian Provincial Department of Industry and Information Technology, Fujian Provincial Department of Science and Technology, Fujian Provincial Department of Education, Fujian Provincial Department of Commerce, Fujian Provincial Department of Human Resources and Social Security, Fujian Provincial Intellectual Property Bureau, Jiangxi Provincial Department of Science and Technology, Jiangxi Provincial Department of Industry and Information Technology, Hebei Provincial Department of Science and Technology, Chongqing Science and Technology Department, Chongqing Productivity Center, Shaanxi Provincial Department of Science and Technology, Ningxia Market Productivity Center, J. Power Sources, Electrochim. Acta, RSC Advances, J. Electrochem. Soc., CATL, Fujian Dynavolt Renewable Power Technology Co., Ltd., China International Engineering Consulting Corporation, Nanjing Qixia District, Fuqing Economic and Technological Development Zone, etc.

（11）Members of the academic committee in the first batch of the "Double First-Class" construction universities

（12）Member of the university's research and consultation committee in the university participating in the "Double First-Class" program for three consecutive terms.

（13）Director of the Professor Committee of the Chemistry and Chemical Engineering College participating in a "Double First-Class" Construction University

（14）The first leader of the first-level master's program in Chemical Engineering and Technology at a "Double First-Class" construction university

（15）The chief scientist of Jiangsu Taiba Power Supply System Co., Ltd.

（16）Member of the Editorial Committee of the Haisi Battery Industry Information

（17）Fujian Taiyang New Energy Development Co., Ltd. Energy Storage Consultant

（18）Long-term partner of Zhangzhou Wanbao Energy Technology Co., Ltd.

2． Some scientific and technological achievements

（1）Key technologies and applications for rapid charging and discharging of long-life lithium-rich iron phosphate batteries, Second Prize of Fujian Province Science and Technology Progress Award in 2020 （Ranked 1st among individuals)

（2）Small cylindrical lithium iron phosphate battery with fluoroboric acid conversion coating aluminum foil, third prize of Fujian Province Science and Technology Progress Award  in 2018 （Ranked 1st among individuals)

（3）Key technologies and applications for high safety of high-energy-density high-pressure lithium cobalt oxide batteries, Third Prize of Fujian Province Science and Technology Progress Award in 2022 （Ranked 1st among individuals)

（4）The industrialization of 18650 type battery cells with high-performance lithium-rich spinel composite nickel-cobalt-manganese cathode won the Gold Award at the 23rd National Invention Exhibition in 2019 （Ranked 1st among individuals).

（5）A series of patents on the preparation method of carbon nanotube-coated lithium iron phosphate cathode material. Awarded the Silver Prize at the 22nd National Invention Exhibition in 2017 （Ranked 1st among individuals).

（6)The preparation technology of fast-charging lithium iron phosphate batteries, Gold Award of the 9th Macau International Innovation and Invention Exhibition in 2021 （Ranked 1st among individuals)

（7）7th China Innovation Challenge Competition （Huizhou, Guangdong）Winner Award, Team Leader （Ministry of Science and Technology, Guangdong Provincial Department of Science and Technology)

（8）Outstanding Award of the 8th China Innovation Challenge （Ningxia）On-site Competition, Team Leader （Ministry of Science and Technology, Department of Science and Technology of Ningxia Hui Autonomous Region)

（9）The 8th "Maker China" Fujian Province Small and Medium-sized Enterprises Innovation and Entrepreneurship Competition and the 6th "Create and Resound Fujian" Competition, won the second prize of Zhangzhou City, Fujian Province and the excellence award of Fujian Province Competition （Fujian Provincial Department of Industry and Information Technology)

（10）Outstanding Award of Jiangxi's First High-level Talent Innovation and Entrepreneurship Competition, Team Leader

（11）With the assistance of Chinese embassies abroad, extensive new energy cooperation has been carried out in countries such as Argentina, South Africa, Nigeria, Myanmar and Zimbabwe. The team members have conducted extensive cooperation with government agencies in these countries and signed major industrial cooperation agreements.

（12）The invention patent, “The preparation method of positive electrode aluminum foil current collector treated with molybdenum compounds （Zl 201410125069.7, the first inventor)” and two other invention patents have been transferred to Zhangzhou Wanbao Energy Technology Co., Ltd.

（13）The invention patent, “A method for polymer separator based on radiation pre-treatment of the base membrane （Patent No. Zl 201810752796.4, the first inventor)” and two other invention patents have been transferred to Zhangzhou Wanbao Energy Technology Co., Ltd.

（14）The invention patent, “The preparation method of nickel-doped corundum-type lithium-rich manganese oxide cathode material （Zl 201310618022.X, the first inventor)” and five other invention patents have been transferred to Fujian Dynavolt Renewable Power Technology Co., Ltd.

（15）The four invention patents including “Preparation Method of Directly Reduced Nano-carbon Coated Lithium Iron Phosphate Cathode Material” （Zl 201210358796.9, the first inventor）have been transferred to Guizhou Weite High-tech Energy Technology Co., Ltd.

（16）The five invention patents including "Method for Preparing Doped Lithium-rich Solid Solution Cathode Materials by Using Carbon Compounds" （Zl 201210391414.2, the first inventor）have been transferred to Fujian Dynavolt Renewable Power Technology Co., Ltd.

（17）The invention patent, “A method for preparing cathode materials for phosphoric acid iron phosphate batteries using low-valent phosphoric acids （Patent No. ZL200810071492.8, first inventor）and other seven invention patents, has been transferred to Tianli Energy Technology Co., Ltd. in Tianjin.

（18）The two invention patents, which including "Method for Improving the Preparation of Aluminum Foil-Based Cathode Electrode Sheets from Ternary Materials by Using Highly Dispersed Graphene （Patent No. ZL 201710811885.7, the first inventor）", have been transferred to Xiamen Kaina Graphene Technology Co., Ltd.

（19）The two invention patents, which including "Preparation of Ternary Materials with Multi-Ion Doping by Aggregating Aluminum Composite Precursors （Zl201910970071.7, the First Inventor)" were transferred to SCUD Energy Technology Co., Ltd.

（20）The invention patent, “A preparation method for a cathode material of lithium iron phosphate doped with both nano-iron and iodide ions （Patent No. ZL 2010102888654, the first inventor)” has been transferred to Jiangsu Fengxun New Energy Technology Co., Ltd.

（21）Participated in the formulation of one national standard for lithium batteries, served as the head of the review team for the approval of seven national lithium battery standards, and participated in the approval of four national lithium battery standards

3. Some important scientific research projects

（1）National Natural Science Foundation of China, Synergistic doping of cations and anions improves the high-current discharge performance of lithium iron silicate, Project Leader.

（2）Expansion Preparation of Controllable Fe2P Phase-Doped Lithium Iron Phosphate Cathode Materials, Ministry of Science and Technology, Project Leader.

（3）Research and Industrialization of New High-Safety and High-Energy-Density Lithium Cobalt Oxide Batteries, Central Guided Local Project, Cooperative Unit Project Leader.

（4）Research and Pilot Production of Ultra-Fast Charging High-Energy-Density Lithium Cobalt Oxide Batteries, Fujian Provincial Key Technology Research and Development Project, Project Leader.

（5）Research and Industrialization of High-Safety Solid-State Batteries with a New Electrolyte, Fujian Provincial Science and Technology Department University and Industry Cooperation Major Project, Project Leader.

（6）Preparation and Industrialization of High-Energy-Density Modified Nickel-Cobalt-Based Tri-Elemental Batteries, Fujian Provincial Science and Technology Department University and Industry Cooperation Major Project, Project Leader.

（7）Argumentation of Fujian Province Major Lithium Battery Solid-State Battery Project, Fujian Provincial Government, Project Leader.

（8）Pilot-scale production and industrialization of low-cost and green lithium iron phosphate cathode materials for lithium-ion batteries, Fujian Provincial Science and Technology Department Major Project, Project Leader.

（9）Pilot and Industrialization of Preparation and Industrialization of High-Energy-Density Modified Nickel-Cobalt-Based Tri-Elemental Batteries, Fujian Provincial Science and Technology Department International Cooperation Key Project, Project Leader.

（10）Preparation of Modified Lithium-Vanadium Oxide Cathode Materials, Fujian Provincial Development and Reform Commission, Project Leader.

（11）Preparation of Controlled Composition and Membrane Structure Tin-Copper-Based Multicomponent Alloy Anodes, SCUD Fuzhou Academician Expert Workstation, Project Leader.

（12）Research and development project of intelligent manufacturing and testing equipment for 3C product-specific lithium batteries, SCUD Fuzhou Academician Expert Workstation, Project Leader

4．Some patents

As one of the earliest lithium battery researchers in Fujian Province's provincial universities and research institutes, in recent years, he has applied for over 200 invention patents in the fields of lithium ions batteries, sodium ions batteries, and antibacterial technology, with over 160 patents granted and 35 patents transferred. In 2009, according to the ranking of lithium iron phosphate patent numbers by the China Battery Industry Association, Fujian Normal University ranked 9th among domestic and foreign units in China （All the patents belong to Professor Tong, the first inventor). The following are some of the important invention patents:

 （1）Qingsong Tong et al., Method for preparing nickel-cobalt-manganese ternary materials by two-stage sintering, Zl201710774173.2, Invention Patent.

（2）Qingsong Tong et al., Method for preparing nickel-cobalt-manganese ternary materials by direct precipitation, Zl201710771567.2, Invention Patent.

（3）Qingsong Tong et al., Preparation method of ternary materials coated with polymeric aluminum-graphene, Zl201910969382.1, Invention Patent.

（4）Qingsong Tong et al., Method for preparing nickel-cobalt-manganese ternary materials by using polymeric aluminum composite precursors, Zl201910969386.X, Invention Patent.

（5）Qingsong Tong et al., Preparation method of doped ternary materials coated with polymeric aluminum-graphene, Zl201910969375.1, Invention Patent.

（6）Qingsong Tong et al., Method for preparing nickel-cobalt-manganese ternary materials doped with trivalent cations, ZL201710774077.8, Invention Patent.

（7）Qingsong Tong et al., Method for preparing nickel-cobalt-manganese ternary materials, ZL201710773048.X, Invention Patent.

（8）Qingsong Tong et al., Preparation method of nickel-cobalt-manganese ternary materials doped with monovalent cations, ZL201710771681.5, Invention Patent.

（9）Qingsong Tong et al., Preparation method of zinc-doped nickel-cobalt-manganese ternary materials, ZL201710773246.6, Invention Patent.

（10）Qingsong Tong et al., Preparation method of nickel-cobalt-manganese ternary materials improved by strontium, ZL201710773250.2, Invention Patent.

 （11）Qingsong Tong et al., Preparation method of chromium-doped ternary materials, ZL201710774194.4, Invention Patent.

（12）Qingsong Tong et al., Preparation method of nickel-cobalt-aluminum lithium ternary materials doped with tetravalent cations, ZL201710774195.9, Invention Patent.

（13）Qingsong Tong et al., Preparation method of nickel-cobalt-manganese ternary materials doped with rare earth ions, ZL201710773197.6, Invention Patent.

（14）Qingsong Tong et al., Preparation method of nickel-cobalt-manganese ternary materials doped with nitrogen, ZL201710773256.X, Invention Patent.

（15）Qingsong Tong, Tong Junkai et al., Preparation method of doped nickel-cobalt-manganese ternary materials coated with polymeric aluminum, ZL201910970073.6, Invention Patent.

（16）Qingsong Tong, Junkai Tong et al., Method for preparing nickel-cobalt-aluminum lithium ternary materials using polymeric aluminum as the aluminum source, ZL201910969370.9, Invention Patent.

（17）Qingsong Tong, Wang Tong et al., Preparation method of lithium nickel-cobalt-manganese oxide material coated with polymeric aluminum, ZL201910970074.0, Invention Patent.

（18）Qingsong Tong et al., Preparation method of polymer coating film containing P-O bond compound, Zl201810752784.1, Invention Patent.

（19）Qingsong Tong et al., Preparation method of polymer coating film coated with trivalent cation phosphate, Zl201810751785.4, Invention Patent.

（20）Qingsong Tong et al., Preparation method of coating film containing divalent phosphate and phosphorus-carbon bond, Zl201810753397.X, Invention Patent.

（21）Qingsong Tong et al., A method for modifying polymer membranes using polymethyl methacrylate, Zl201810751798.1, Invention Patent.

（22）Qingsong Tong et al., A method for preparing coated polymer membranes with doped phosphate aluminum salt coating agents, Zl201810753399.9, Invention Patent.

（23）Qingsong Tong et al., A method for modifying polymer coating films with polymethyl methacrylate as the modifier, Zl201810753413.5, Invention Patent.

（24）Deqin Zhu, Qingsong Tong et al., Preparation method of coated separator containing both PMMA and P-C bonds, Zl201810752748.5, Invention Patent.

（25）Deqin Zhu, Qingsong Tong et al., Preparation method of coated film with a coating layer of monovalent ion phosphate, Zl201810751772.7, Invention Patent.

（26）Sining Zheng, Qingsong Tong et al., Method for modifying coated film with aluminosilicate coupling agent-stearic acid, Zl201810751881.9, Invention Patent.

 （27）Qingsong Tong et al., A heat-stable battery separator and its application in batteries, Zl202010085772.5, Invention Patent.

（28）Qingsong Tong et al., Inorganic additive polyrotaxane-type separator and its application in batteries, Zl202010085783.3, Invention Patent.

（29）Qingsong Tong, Junkai Tong et al., Coating method for high safety separator, Zl201910969448.7, Invention Patent.

（30）Qingsong Tong et al., Aluminum foil cathode current collector processed by two-stage method and compound of molybdenum, Zl201410125081.8, Invention Patent.

（31）Qingsong Tong et al., Method for modifying aluminum foil cathode current collector with phosphoric acid-fluorine-chromium salt, Zl201410124972.1, Invention Patent.

（32）Qingsong Tong et al., Method for modifying aluminum foil cathode current collector with two-stage process and phosphoric acid-fluorine-chromium salt, Zl201410124971.7, Invention Patent.

（33）Qingsong Tong et al., Preparation method for improving the performance of aluminum foil cathode current collector by fluoroboric acid, Zl201410125066.3, Invention Patent.

（34）Qingsong Tong et al., Method for improving the performance of aluminum foil cathode current collector by two-step process and fluoroboric acid, Zl201410124795.4, Invention Patent.

（35）Qingsong Tong et al., Method for improving the performance of aluminum foil cathode current collector with phosphoric acid-high manganese acid salt, Zl201410125038.1, Invention Patent.

（36）Qingsong Tong et al., Method for improving the performance of aluminum foil cathode current collector with two-step process and phosphoric acid-high manganese acid salt, Zl20141025065.9, Invention Patent.

（37）Qingsong Tong et al., Method for preparing lithium-nickel-manganese-cobalt-based solid solution cathode materials by partial dissolution, Zl201210391643.4, Invention Patent.

（38）Qingsong Tong et al., Method for preparing doped monovalent ion-based solid solution cathode materials by partial dissolution, Zl201210391688.1, Invention Patent.

（39）Qingsong Tong et al., Method for preparing solid solution cathode materials by reduction process, Zl201210391413.8, Invention Patent.

（40）Qingsong Tong et al., Preparation method of titanium-modified carbon nanotube-coated lithium iron phosphate cathode material, ZL201210358829.X, Invention Patent.

（41）Qingsong Tong et al., Preparation method of phosphoric acid-lithium iron phosphate cathode material with simultaneous doping of silver and iodine, ZL200910112564.3, Invention Patent.

（42）Qingsong Tong et al., Method for preparing cathode material of lithium iron phosphate with simultaneous doping of nickel and iodine by sintering, ZL200910112565.8, Invention Patent.

（43）Qingsong Tong et al., Method for preparing cathode material of lithium iron phosphate with simultaneous doping of fluoride ions and metal ions, ZL200810071644.4, Invention Patent.

（44）Qingsong Tong et al., Method for preparing cathode material of lithium iron phosphate with efficient doping of fluorine, ZL200810071643.X, Invention Patent.

（45）Qingsong Tong et al., Method for preparing cathode material of lithium iron phosphate for lithium-ion batteries by using low-valent oxyacid of phosphorus, ZL200810071492.8, Invention Patent.

（46）Qingsong Tong, Method for preparing cathode material of lithium iron phosphate doped with conductive phosphide, ZL200810071494.7, Invention Patent.

（47）Qingsong Tong, Method for preparing cathode material of lithium iron phosphate by using reduction method for preparing mixed phase of phosphate iron and lithium iron phosphate, ZL200810071493.2, Invention Patent.

（48）Qingsong Tong, Junkai Tong et al., Method for preparing layered transition metal oxide materials with layered phase structure, CN202310873561.1, Invention Patent.

（49）Qingsong Tong, Junkai Tong et al., Method for preparing composite material of lithium cobalt oxide and poly-anionic materials, CN202310873562.6.

5．Some recent published papers

（1）High thermal stability and low impedance polypropylene separator coated with aluminum phosphate，Electrochim. Acta，SCI I Zone paper, corresponding author.

（2）Synthesis and stored performance of LiNi0.8Co0.17Al0.03O2 cathode material prepared by using a flocculation precipitation process，Electrochim. Acta，SCI I Zone paper, corresponding author.

（3）Highly conductive and thermostable grafted polyrotaxane/ceramic hybrid polymer electrolyte for solid-state lithium-metal batteries，ACS Appl. Mater. Interfaces，SCI I Zone paper, corresponding author.

（4）ZIF-8@MXene-reinforced flame-retardant and highly conductive polymer composite electrolyte for dendrite-free lithium metal batteries，J. Colloid and Interface Science，SCI I Zone paper, corresponding author.

（5）Controllable lithium nucleation within longitudinally bent carbon nanoribbons for stable lithium metal anodes，Carbon，SCI I Zone paper, third author.

（6）Polyrotaxane‑based electrolyte with excellent thermal stability for quasi‑solid lithium metal batteries，Ionics，SCI III Zone paper, corresponding author

（7）4-Fluorophenylsulfonylacetonitrile as an electrolyte additive for improving the high-voltage performance of LiNi0.83Co0.11Mn0.06O2 cathode batteries，ChemElectroChem，SCI II Zone paper, corresponding author

（8）High-rate performance of binder-free LiFePO4 cathode prepared by using various types of conductive carbons，J. Electroanal. Chem.，SCI III Zone paper, corresponding author

6．Patents for Human Body Health Maintenance and Rehabilitation Equipment

（1）Qingsong Tong, Junkai Tong, et al. A nested-type mattress with personalized acupuncture function, CN202411041944.3

（2）Junkai Tong, Qingsong Tong, Wang Tong, Physical stimulation signal regulation device and method for achieving coordinated feedback of human body's meridians and acupoints, CN202411041947.7