人物經歷
工作經歷
l2002.09~2007.07 中國科學院金屬研究所材料科學與工程博士學位
l2007.09~2012.12
香港城市大學,套用物理與材料科學系研究員
l2013. 01~2013.08 香港城市大學,套用物理與材料科學系高級研究員
人物評價及貢獻
唐永炳研究員將新的設計思路運用到了廉價環保
鹼土金屬離子電池體系,突破了鈣離子電池多年發展無法克服的室溫不可逆的瓶頸。美國德克薩斯大學電化學及儲能材料著名學者Manthiram教授在《Chem》上對該研究工作做了專題評論(Chem, 2018, 4, 1194-1207),指出:“該研究工作不同於傳統思想,為發展新型電池化學反應原理或結構帶來了新視角”( ..brings new insights to the broad battery community with respect to developing new battery chemistries or configurations; it represents a departure from conventional thinking.. )。Manthiram教授還認為:“該工作為發展室溫下可逆循環的鈣離子電池提供了希望,並且這種電池設計策略將為發展高能量密度、低成本的鈣離子電池或其他電池體系擴大了活性電極材料的選擇範圍”(..the interesting results presented in this article offer hope for the feasibility of operating reversible CIBs at room temperature. It is also expected that this battery design strategy will expand the options for active electrode materials for a variety of CIB systems or other battery chemistries toward developing high energy battery systems at an affordable cost..)。
主持
國家自然基金、
JW科技委、中科院、廣東省、深圳市等科研項目25餘項。
已發表論文共223篇,IF>10論文126篇,H指數69,他引>
13000次,42篇入選ESI高被引論文。已申請專利458項,中國發明專利293項,美歐日韓專利12項,PCT專利64項;已獲授權專利211項。58項電池相關專利實現轉化或許可,其中26項發明專利依託單位作價6518萬實現了轉移轉化,32項專利獲得許可費1000萬元。所研發的新型電池技術已進入量產階段,產品性能通過第三方檢測及多項資質認證,並通過多家行業龍頭企業實測,結果表明:開發的寬溫域電池具有優異的低溫充電能力,在-20℃和-30℃的充電容量保持率分別為96%和91%,可解決我國北方新能源汽車和儲能等領域的套用難題。基於研究成果,相關產品被第十九屆高交會專家委員會從1000個單位推薦產品中評為十大人氣產品獎,並獲得2021年深圳市自然科學一等獎(第1完成人)、第二十四屆中國專利獎銀獎(第1發明人)、2022年中國產學研合作促進會個人創新獎等。。
主要成就
主要成就及獲獎
(1)第二十四屆中國專利獎銀獎(第1發明人)
(2) 2022年中國產學研合作促進會個人創新獎
(3) 深圳市自然科學獎一等獎(第一完成人),2021
(4) 國家傑出青年基金獲得者,國家自然科學基金委員會,2021
(5) 國家優秀青年基金獲得者,國家自然科學基金委員會,2018
(6) 深圳市高層次專業人才(地方級領軍人才),深圳市人力資源和社會保障局,2018-2023
(7) 柔性超快充放電池,十大人氣獎,第十九屆高交會,2017
(8) 超硬納米金剛石塗層精密刀具,優秀產品獎,第十九屆高交會,2017
(9) 用於廢水處理的高效硼摻雜金剛石陽極,優秀產品獎,第十九屆高交會,2017
(10)環保型高效低成本鋁-石墨雙離子電池,優秀產品獎,第十九屆高交會,2017
(11)基於鋁負極的高效低成本新型電池,優秀產品獎,第十九屆高交會,2017
(12)一體化超高倍率雙離子電池,優秀產品獎,第十九屆高交會,2017
(13)深圳市孔雀人才B類計畫,深圳市政府,2014
(14)葛庭燧獎研金,中國科學院金屬研究所,2009
(13)劉永齡獎學金特別獎,中國科學院,2007
(14)師昌緒獎學金二等獎,中國科學院金屬研究所,2007
(15)優秀論文獎,瀋陽材料國家實驗室,2006
(16)院長獎學金優秀獎,中國科學院,2005
(17)師昌緒獎學金一等獎,中國科學院金屬研究所,2005
代表性項目
代表性項目
(1) 國家自然科學基金委員會-國家傑出青年科學基金項目,52125105,雙離子電池關鍵材料與器件,2022.01.01-2026.12.31,項目負責人。
(2) 國家自然科學基金委員會-國家優秀青年科學基金項目,51822210,新型雙離子電池及其電極材料研究,2019.01.01-2021.12.31,項目負責人。
(3) 科學技術部-儲能與智慧型電網技術,高功率雙離子儲能電池關鍵材料與技術,2022YFB2402600,2022.11.01-2025.10.31,1500萬,項目負責人。
(4) 國家自然科學基金委員會-國自然面上項目,51972329,室溫鈣離子電池鈣負極界面膜形成機理及改性研究,2020.01.01-2023.12.31,項目負責人。
(5) 企業橫向項目,中國科學院深圳先進技術研究院—湖南久森新能源有限公司 中科久森新能源技術聯合實驗室,2020.03-2023.03,項目負責人。
(6) 企業橫向項目-華為創新研究計畫,低成本長壽命大規模儲能技術項目,2019.10.31-2020.11.30,項目負責人。
(7) 中央JW科學技術委員會-國防科技創新特區項目,18-163-12-ZT-003-002-01,用於野外生存的仿生多級次金剛石薄膜及污水處理性能研究,2018.10.01-2020.12.31,項目負責人。
(8) 廣東省重點領域研發計畫專項-新能源汽車,2019B090914003,新型高能量低成本鋁基電池研發,2019.05.01-2022.4.30,項目負責人。
(
9) 廣東省國際科技合作與交流項目-重點國別及“一帶一路”科技合作-
廣東省科學技術廳,2018A050506066,基於廉價金屬負極的高性能儲能器件套用關鍵技術研發,2018.09.18-2021.12.31,項目負責人。
(10) 國家青年科學基金項目-國家青年基金項目,51302238,多種襯底上AlN一維納米結構陣列的大面積可控制備及其摻雜與器件套用研究,2014/1-2016/12,項目負責人。
(11) 科技促進發展局-中科院STS項目,KFJ-STS-SCYD-124,廉價金屬鋁基負極高效低成本儲能器件研發,2018/01-2018/12,項目負責人。
(12) 廣東省科學技術廳-廣東省公益項目,2014A010105032,氮化鋁
納米纖維增強高分子電子封裝複合材料的製備及其複合機理研究,2015/01-2017/01,項目負責人。
(13) 廣東省科學技術廳-省工程中心,粵科函產學研字[2015]1487號廣東省金剛石與立方氮化硼超硬塗層工程技術研究中心,2015/10-至今,項目負責人。
(14) 廣東省科學技術廳-省工程中心,粵科函產學研字[2017]1649號,廣東省高效低成本儲能器件工程技術研究中心,2017/09-至今,項目執行負責人。
(15) 企業橫向項目-深圳瑞能實業有限公司,新型高效低成本儲能電池技術聯合實驗室,2017.05.01-2019.05.01,項目負責人。
(16) 深圳市發展改革委員會-發改委工程實驗室,深發改[2015]1837號,深圳航空航天超硬塗層材料與技術工程實驗室,2016/01-2017/12,項目負責人。
(17) 深圳市科技創新委員會-深圳市技術攻關項目,JSGG20170413153302942,新型高功率鋁-石墨二次電池關鍵技術研發,2017/07-2019/06,參與單位負責人。
(18) 深圳市科技創新委員會-深圳市技術攻關項目,JSGG20150602143328010,海洋船舶環保防污膜關鍵技術研發,2016/01-2018/0,項目負責人。
(19) 深圳市科技創新委員會-深圳市孔雀技術創新項目,KQJSCX20170331161244761,基於非貴金屬負極的高性能電化學儲能器件套用關鍵技術研發,2017.10-2019.10,項目負責人。
(20) 國家和省計畫配套,GJHS20160329112009617,多功能全自動薄膜應力測試儀研製,2015/01-2017/12,項目負責人。
(21) 中國科學院條件保障與財務局-中科院院級裝備科研青年人才類項目,yz201440,多功能全自動薄膜應力測試儀的研製,2015/01-2017/06,項目負責人。
(22) 國家和省計畫配套,GJHS20170314161200165,多功能全自動薄膜應力測試儀研製,2017/07-2018/6,項目負責人。
代表性論文
代表性論文
(1) Xin Lei, Qingyun Tang, Yongping Zheng, PinitKidkhunthod, Xiaolong Zhou, Bifa Ji, Yongbing Tang,High-entropy single-atom activated carbon catalysts for sustainable oxygen electrocatalysis, NatureSustanbility,2023 DOI:10.1038/s41893-023-01101-z
(2) Yike Wei, Bin Tang,Xiao Liang, Fan Zhang, Yongbing Tang, AnUltrahigh-Mass-Loading Integrated Free-Standing Functional All-Carbon PositiveElectrode Prepared using an Architecture Tailoring Strategy forHigh-Energy-Density Dual-Ion Batteries, Advanced Materials, 2023, 2302086
(3) Lei Wang, Bifa Ji, Yongping Zheng, Yongbing Tang , Asymmetric coordination ofiridium single-atom IrN3O boosting formic acid oxidation catalysis, Angewandte Chemie International Edition,2023, DOI:10.1002/anie.202301711
(4) Bifa Ji, Jiali Gou, Yongping Zheng,* YehaiWang, Pinit Kidkhunthod, Yongbing Tang*, Coordination chemistry of large-sizeyttrium single-atom catalysts for oxygen reduction reaction, Advanced Materials, 2023, e2300381
(5) Chengjun Han, Haiyan Wang,Zelin Wang, Xuewu Ou,* Yongbing Tang*,Solvation Structure Modulation of High-Voltage Electrolyte for High-PerformanceK-based Dual-Graphite Battery, AdvancedMaterials, 2023, e2300917
(6) Qirong Liu, Qiqi Chen, Yongbing Tang*, andHui-Ming Cheng*, Interfacial modification, electrode/solid-electrolyteengineering, and monolithic construction of solid-state batteries, 2021, Electrochemical Energy Reviews, 2023,6(1), 15
(7) Qingguang Pan, Zhaopeng Tong, YuanqiangSu, Yongping Zheng*, Lin Shang, and YongbingTang*,Flat-ZigzagInterface Design of Chalcogenide Heterostructure toward Ultra-Low VolumeExpansion for High-Performance Potassium Storage, Advanced Materials, 2022, 34(39), 2203485
(8) Chunlei Jiang,YinyinZheng,Doufeng Wang,Yongping Zheng,Chengde Xie,Lei Shi,Zhipeng Liu,Prof. Yongbing Tang*, Unusual Size Effect inIon and Charge Transport in Micron-Sized Particulate Aluminum Anodes ofLithium-Ion Batteries, AngewandteChemie-International Edition, 2022, 61(38), e202208370
(9) Manqi Peng, KyungsooShin, Lixia Jiang,Ye Jin, Ke Zeng, Xiaolong Zhou*, YongbingTang*, Alloy-Type Anodes for High-Performance Rechargeable Batteries, AngewandteChemie International Edition, 2022, 61(33) , e202206770.
(10) ZhongwangLiang, Decai Gong, Jian Shang†, Hao Cheng,Xiuhao Pu, Doufeng Wang, Luojiang Zhang*, Chenchen Wang, Chun-Sing Lee, Yongbing Tang *, Low Volume Expansion Carbon-CoatedFe2P4O12 Anode Material for High-Performance Sodium Dual-Ion Battery, Energy Storage Materials, 2022, 53, 331-339
(11) SongXue, Jian Shang, Xiuhao Pu, Hao Cheng,Luojiang Zhang, Chenchen Wang, Chun-Sing Lee,Yongbing Tang, Dual Anionic Doping Strategy towards SynergisticOptimization of Co9S8 for Fast and Durable SodiumStorage, Energy Storage Materials,2023, 55, 33-41
(12) DecaiGong , Chenyang Wei , Donghao Xie , Yongbing Tang *,Ultrasmallantimony nanodots embedded in carbon nanowires with three-dimensional porousstructure for high-performance potassium dual-ion batteries,ChemicalEngineering Journal,2022,431:133444.
(13) Chenyang Wei,† DecaiGong,† Donghao Xie, and Yongbing Tang*, The free-standing alloy strategyto improve the electrochemical performance of potassium-based dual-ionbatteries, ACS Energy Letters, 2022,6(12): 4336-4344.
(14) Jin Li+, Chengjun Han+,Xuewu Ou,* and Yongbing Tang*, Concentrated Electrolyte for High-performanceCa-ion Battery based on Organic Anode and Graphite Cathode,Angewandte Chemie InternationalEdition,2022,e202116668.
(15) Xin Lei, Xiao Liang, RuiYang, Fan Zhang,* Chenchen Wang, Chun-Sing Lee,and Yongbing Tang*,RationalDesign Strategy of Novel Energy Storage Systems: Toward High-PerformanceRechargeable Magnesium Batteries, small, 2022,18(22)2200418.
(16) Bifa Ji, Jiali Gou,Yongping Zheng,* Xiaolong Zhou, Pinit Kidkhunthod, Yehai Wang,Qingyun Tang, andYongbing Tang*,Metalloid-cluster ligands enabling stable and activeFeN4-Ten motifs for oxygen reduction reaction, Advanced Material, 2022,e202202714.
(17) Bifa Ji,Haiyan He,WenjiaoYao* and Yongbing Tang*, Recent Advancesand Perspectives on Calcium-ion Storage: Key Materials and Devices, AdvancedMaterials, 2021, 33(2), 2005501.
(18) StephanHandschuh-Wang, TaoWang*, Yongbing Tang*, Ultrathin DiamondNanofilms-Development, Challenges, and Applications, Small, 2021,2007529.
(19) Kai Yang,Qirong Liu,YongpingZheng, Hang Yin, Shanqing Zhang*, YongbingTang*, Locally ordered graphitized carbon cathodes forhigh-capacitydual-ion batteries, Angewandte Chemie-International Edition,2021, 60(12): 6326-6332.
(20) LuojiangZhang,HaitaoWang, Xiaoming Zhang, Yongbing Tang*, A review ofemergingdual-ionbatteries: fundamentals and recent advances, AdvancedFunctional Materials, 2021, 2010958.
(21) Nanzhong Wu,Xiaolong Zhou, PinitKidkhunthod,Wenjiao Yao*, Tianyi Song, and YongbingTang*, K-ion Battery Cathode Design Utilising Trigonal Prismatic LigandField, Advanced Materials, 2021, 2101788.
(22) Chunlei Jiang,XingMeng,Yongping Zheng, Jiaxiao Yan, Zhiming Zhou, YongbingTang*,High-PerformancePotassium-Ion-Based Full Battery Enabled by anIonic-DrillStrategy, CCSChemistry, 2021, 3, 85-94
(23) Qingguang Pan,Yongping Zheng, Zhaopeng Tong,Lei Shi, Yongbing Tang*, Novel lamellartetrapotassium pyromellitic organic forrobust high-capacity potassium storage, AngewandteChemie-International Edition, 2021, 60, 11835 –11840.
(24) XiaoyuTong,† Xuewu Ou,†Nanzhong Wu,† Haiyan Wang, Jin Li, Yongbing Tang*,HighOxidationPotential ~6.0 V of Concentrated Electrolyte towards High-PerformanceDual-IonBattery, Advanced Energy Materials, 2021, 2100151.
(25) Ge Zhang, Xuewu Ou,Jinghai Yang,* and YongbingTang*, Molecular Coupling and Self-assembly Strategytowards WSe2/CarbonMicro-Nano Hierarchical Structure for Elevated Sodium-IonStorage, small methods, 2021, 2100374
(26) Qingguang Pan, ZhaopengTong, Yuanqiang Su,Sheng Qin, and Yongbing Tang*, Energy storage mechanism, challengeand designstrategies of metal sulfides for rechargeable sodium/potassium-ionbatteries, Advanced Functional Materials. 2021, 31(37), 2103912
(27) Qingyun Dou, NanzhongWu, Haocheng Yuan, KangHo Shin, Yongbing Tang, * David Mitlin* and Ho Seok Park* ,Emerging trends inanionstorage materials for the capacitive and hybrid energy storage and beyond,Chemical Society Reviews, 2021, 50, 6734–6789
(28) Bifa Ji†, WenjiaoYao†, Yongping Zheng†, Pinit Kidkhunthod, Xiaolong Zhou, Sarayut Tunmee,Suchinda Sattayaporn, Hui-Ming Cheng*, Haiyan He, and Yongbing Tang*, Afluoroxalate cathode material for potassium-ion batteries with ultra-longcyclability, Nature Communications, 2020, 11(1), 1225.
(29) Rui Yang,WenjiaoYao, Bin Tang, Fan Zhang, Xin Lei,Chun-Sing Lee, andYongbing Tang*,Development andChallenges of electrode materials for rechargeable Mgbatteries,Energy Storage Materials,2021, 42, 687–704
(30) XuewuOu,† Decai Gong,†Chengjun Han, Zhong Liu, Yongbing Tang*,AdvancesandProspects on Dual-Ion Batteries,2021,Advanced Energy Materials,2021, 11(46): 2102498.
(31) JinLi, Chengjun Han,Xuewu Ou,* Yongbing Tang*, ConcentratedElectrolyte for High-performance Ca-ionBattery based on Organic Anode andGraphite Cathode, Angewandte ChemieInternational Edition 2021, e202116668
(32) ChenyangWei†, DecaiGong†, Donghao Xie, and Yongbing Tang*, Thefree-standing alloy strategyto improve the electrochemical performance of potassium-baseddual-ionbatteries, ACS Energy Letters, 2021, 6(12):4336-4344.
(33) Chunlei Jiang†, LeiXiang†, Shijie Miao†, Lei Shi, Donghao Xie, Jiaxiao Yan, Zijian Zheng*,Xiaoming Zhang, Yongbing Tang*, Flexible Interface Design for StressRegulation of a Silicon Anode toward Highly Stable Dual-Ion Batteries, AdvancedMaterials, 2020, 32(17), 190847.
(34) Ao Yu†, Qingguang Pan†,Miao Zhang†, Donghao Xie, and Yongbing Tang*, Fast Rate and Long LifePotassium-Ion Based Dual-Ion Battery through 3D Porous Organic NegativeElectrode, Advanced Functional Materials, 2020, 2001440.
(35) Yuanqi Lan†, WenjiaoYao†, Xiaolong He†, Tianyi Song, and Yongbing Tang*, Mixed polyanioniccompounds as positive electrodes in low-cost electrochemical energy storage, AngewandteChemie-International Edition, 2020, 59: 2-10.
(36) Xuewu Ou†, Ge Zhang†,Songquan Zhang, Xiaoyu Tong, Yongbing Tang*, Simultaneously pre-alloyingand artificial solid electrolyte interface towards highly stable aluminum anodefor high-performance Li hybrid capacitor, Energy Storage Materials,2020, 28, 357-363.
(37) Xiaolong Zhou, YongpingZheng, Takuya Shimizu, Chanan Euaruksakul, Sarayut Tunmee, Tao Wang, HidetoshiSaitoh, and Yongbing Tang*, Colorful diamond-like carbon films fromdifferent micro-/nano-structures, Advanced Optical Materials,2020, 1902064.
(38) Haiyan He†, WenjiaoYao†, Sarayut Tunmee†, Xiaolong Zhou, Bifa Ji, Nanzhong Wu, Tianyi Song, PinitKidkhunthod, and Yongbing Tang*, An Iron-based Polyanionic Cathode forPotassium Storage with High Capacity and Excellent Cycling Stability, Journalof Materials Chemistry A, 2020, 8: 9128-9136.
(39) Tao Wang, Lei Huang,Yuzhi Liu, Xingxing Li, Chunhua Liu, Stephan Handschuh-Wang, Yang Xu, YingZhao*, Yongbing Tang*, Robust Biomimetic Hierarchical DiamondArchitecture with a Self-Cleaning, Antibacterial, and Antibiofouling Surface, ACSApplied Materials & Interfaces, 2020, 12(21): 24432-24441.
(40) Xin Lei†, YongpingZheng†, Fan Zhang*, Yong Wang, Yongbing Tang*, Highly stablemagnesium-ion-based dual-ion batteries based on insoluble small-moleculeorganic anode material, Energy Storage Materials, 2020, 30:34-41.
(41) Jihui Lang†, Jinrui Li†,Xuewu Ou†, Fan Zhang*, Kyungsoo Shin, Yongbing Tang*, A FlexiblePotassium-Ion Hybrid Capacitor with Superior Rate Performance and Long CyclingLife, ACS Applied Materials & Interfaces, 2020, 12(2):2424-2431.
(42) Ao Yu, DecaiGong, Miao Zhang,and Yongbing Tang*, In-situ implantedcarbonnanofilms into lithiumtitanate with 3D porous structure as fast kineticsanodefor high-performancedual-ion battery, ChemicalEngineering Journal,2020, 401,125834.
(43) Li Xiang,Xuewu Ou,Xingyong Wang, Zhiming Zhou*, Xiang Li, Yongbing Tang*,HighlyConcentratedElectrolyte towards Enhanced Energy Density and Cycling LifeofDual-IonBattery, Angewandte Chemie-International EditionAngew.Chem. Int. Ed., 2020, 59(41): 17924-17930.
(44) Qingguang Pan,DecaiGong,Yongbing Tang*, Recent progress and perspective onelectrolytes forsodium/potassium-based devices, Energy Storage Materials,2020,31: 328-343.
(45) Zhiming Zhou,XiaoyanZhou,Miao Zhang, Sainan Mu, Qirong Liu*, YongbingTang*, In SituTwo-StepActivation Strategy Boosting Hierarchical Porous Carbon Cathode for anAqueous Zn-Based Hybrid Energy Storage Device with High Capacity and Ultra-LongCycling Life, Small, 2020, 16(35), 2003174.
(46) Bin Liu,YongpingZheng, Hui-Qing Peng, Bifa Ji, Yang Yang*, YongbingTang*,Chun-SingLee*, and Wenjun Zhang*, Nanostructured and Boron-DopedDiamond asan Electrocatalyst for Nitrogen Fixation, ACS Energy Letters,2020,5(8): 2590-2596.
(47) Sainan Mu,QirongLiu,Pinit Kidkhunthod, Xiaolong Zhou, Wenlou Wang, YongbingTang*,MolecularGrafting towards High-Fraction Active Nanodots Implanted inN-dopedCarbon forSodium Dual-Ion Batteries, National Science Review, nwaa178,https://doi.org/10.1093/nsr/nwaa178.
(48) Xiang Li,Xuewu Ou, Yongbing Tang*, 6.0 V High-Voltage andConcentrated Electrolyte toward High Energy Density K-Based Dual-GraphiteBattery, Advanced Energy Materials, 2020, 10(41), 2002567.
(49) HangYin,Chengjun Han,Qirong Liu*, FayuWu*, Fan Zhang, Yongbing Tang*,Recent advances andper spectives on the polymerelectrolytes forsodium/potassium-ion batteries, Small, 2021, 2006627.
(50) HaoChen, Zhenzhen Wu,Zhong Su, Su Chen, Cheng Yan, Mohammad Al-Mamun, Yongbing Tang*,Shanqing Zhang*, A mechanically robust self-healing binder for silicon anode inlithiumionbatteries, Nano Energy, 2021, 81,105654,https://doi.org/10.1016/j.nanoen.2020.105654.
(51) Donghao Xie†, MiaoZhang†, Yue Wu†, Lei Xiang, and Yongbing Tang*, A Flexible Dual-IonBattery Based on Sodium-Ion Quasi-Solid-State Electrolyte with Long CyclingLife, Advanced Functional Materials, 2020, 30(5), 1906770.
(52) Xingqi Chang†, XiaolongZhou†, Xuewu Ou†, Chun-Sing Lee,* Jiwei Zhou, and Yongbing Tang*,Ultrahigh Nitrogen Doping of Carbon Nanosheets for High Capacity and LongCycling Potassium Ion Storage, Advanced Energy Materials, 2019,1902672.
(53) Tianyi Song†, WenjiaoYao†, Pinit Kiadkhunthod†, Yongping Zheng, Nanzhong Wu, Xiaolong Zhou, SarayutTunmee, Suchinda Sattayaporn, and Yongbing Tang*, A Low-Cost andEnvironmentally Friendly Mixed Polyanionic Cathode for Sodium-Ion Storage, AngewandteChemie International Edition, 2020,59(2):740-745.
(54) Wenjiao Yao†, A. RobertArmstrong†, Xiaolong Zhou†, Moulay-Tahar Sougrati, Pinit Kidkhunthod, SarayutTunmee, Chenghua Sun,* Suchinda Sattayaporn, Philip Lightfoot,* Bifa Ji,Chunlei Jiang, Nanzhong Wu, Yongbing Tang*, Hui-Ming Cheng*, An oxalatecathode for lithium ion batteries with combined cationic and polyanionic redox,Nature Communications, 2019,10,3483. (IF:11.878)
(55) Jihui Lang†, ChunleiJiang†, Yue Fang†, Lei Shi, Shijie Miao, Yongbing Tang*,Room-Temperature Rechargeable Ca-Ion Based Hybrid Batteries with High RateCapability and Long-Term Cycling Life, Advanced Energy Materials,2019, 1901099. (IF:24.884)
(56) Chunyu Cui†, Heng Wang†,Meng Wang, Xuewu Ou, Zengxi Wei, Jianmin Ma,* Yongbing Tang*, HollowCarbon Nanobelts Co-Doped with Nitrogen and Sulfur via a Self-Templated Methodfor a High-Performance Sodium-Ion Capacitor, Small, 2019,15(34),1902659. (IF:10.856)
(57) Miao Zhang, Lei Xiang,Massimiliano Galluzzi, Chunlei Jiang, Shanqing Zhang,* Jiangyu Li, and YongbingTang*, Uniform distribution of alloying/dealloying stress for highstructural stability of an al anode in high-areal-density lithium-ionbatteries, Advanced Materials, 2019, 31, 1900826. (IF: 25.809)
(58) Xiaolong Zhou†, QirongLiu†, Chunlei Jiang†, Bifa Ji, xiulei Ji*, Yongbing Tang*, and Hui-MingCheng*, Beyond Conventional Batteries: Strategies towards Low-Cost Dual-IonBatteries with High Performance, Angewandte Chemie-International Edition,2019,1814294. (IF:12.257)
(59) Nanzhong Wu†, WenjiaoYao†, Xiaohe Song, Ge Zhang, Bingjie, Chen, Jinhu Yang, and Yongbing Tang*,A Calcium-Ion Hybrid Energy Storage Device with High Capacity and Long CyclingLife under Room Temperature, Advanced Energy Materials, 2019,1803865. (IF:24.884)
(60) Kyung Soo Shin†, FanZhang†, Xuewu Ou†, Nanzhong Wu, Chun-Sing Lee*, and Yongbing Tang*,Hybridizing Anions towards Fast Diffusion Kinetics for Tri-Ion Batteries withSignificantly Improved Rate Capability and Cycling Life, Journal ofMaterials Chemistry A,2019,7(18):10930-10935 (IF:10.733)
(61) Miao Zhang, Xiaohe Song,Xuewu Ou, Yongbing Tang*, Recharge batteries based on anionintercalation graphite cathodes, Energy Storage Materials, 2019,16,65-84 (Citescore:13.31)
(62) Qirong Liu, Haitao Wang,Chunlei Jiang, Yongbing Tang*, Multi-ion Strategies towards EmergingRechargeable Batteries with High Performance, Energy Storage Materials,2019,1903028. (Citescore:13.31)
(63) Ge Zhang†, Xuewu Ou†,Chunyu Cui†, Jianmin Ma*, Jinghai Yang*, Yongbing Tang*,High-Performance Cathode Based on Self-Templated 3D Porous MicrocrystallineCarbon with Improved Anion Adsorption and Intercalation, AdvancedFunctional Materials, 2019,29(2), 1806722.(IF:15.621)
(64) Meng Wang, ChunleiJiang, Songquan Zhang, Xiaohe Song, Yongbing Tang*, Hui-Ming Cheng*,Reversible calcium alloying enables a practical room-temperature rechargeablecalcium-ion battery with a high discharge voltage, Nature Chemistry,2018,10(6):667-672.(IF:23.193)
(65) Chunlei Jiang†, YueFang†, Wenyong Zhang†, Xiaohe Song, jihui Lang, Lei Shi, Yongbing Tang*,A Multi‐Ion Strategy towards Rechargeable Sodium‐Ion Full Batteries with HighWorking Voltage and RateCapability, Angewandte Chemie- InternationalEdition, 2018, 1810575. (IF :12.257)
(66) Shi Wu†, Fan Zhang†, YongbingTang*, A novel calcium-ion battery based on dual-carbon configuration withhigh working voltage and long-cycling life, Advanced Science,2018,5(8),1701082. (IF :15.804)
(67) Junnan Hao, Jian Zhang,Guanglin Xia, Yajie Liu, YangZheng,Wenchao Zhang, Yongbing Tang*, WeiKong Pang, and Zaiping Guo,, Heterostructure Manipulation via In-Situ LocalizedPhase Transformation for High-Rate and Highly Durable Lithium Ion Storage, ACSNano, 2018, 12, 10, 10430-10438. (IF: 13.903)
(68) Na Li, Fan Zhang*, YongbingTang*, Hierarchical T-Nb2O5 nanostructure with hybrid mechanisms ofintercalation and pseudocapacitance for potassium storage and high-performancepotassium dual-ion batteries, Journal of Materials Chemistry A,2018, 6(37):17889-17895 ( IF:10.733)
(69) Meng Wang, YongbingTang*, A Review on the Features and Progress of Dual-Ion Batteries, AdvancedEnergy Materials, 2018, 8(19),1703320. (IF:24.884)
(70) Guanghai Chen†, FanZhang†, Zhiming Zhou†, Jinrui Li, Yongbing Tang*, A Flexible Dual-IonBattery Based on PVDF-HFP-Modifed Gel Polymer Electrolyte with ExcellentCycling Performance and Superior Rate Capability, Advanced EnergyMaterials, 2018, 801219 (IF:24.884)
(71) Haili Zhu†, Fan Zhang†,Jinrui Li, Yongbing Tang*, Penne-Like MoS2/Carbon Nanocomposite as Anodefor Sodium-Ion-Based Dual-Ion Battery, Small, 2018, 14(13),1703951. (IF: 10.856)
(72) Panpan Qin†, Meng Wang†,Na Li†, Haili Zhu, Xuan Ding, and Yongbing Tang*, Bubble-Sheet-LikeInterface Design with an Ultra-Stable Solid Electrolyte Layer forHigh-Performance Dual-Ion Batteries, Advanced Materials, 2017,29, 1606805. (cover image, IF: 25.809)
(73) Bifa Ji, Fan Zhang,Xiaohe Song, Yongbing Tang*, A Novel Potassium-Ion-Based Dual-IonBattery, Advanced Materials, 2017, 29,1700519. (IF: 25.809)
(74) Xuefeng Tong†, FanZhang†, Guanghai Chen, Xinyu Liu, Lin Gu*, Yongbing Tang*, Core-ShellAluminum@Carbon Nanospheres for Dual-Ion Batteries with Excellent CyclingPerformance under High Rates, Advanced Energy Materials, 2017,8(6), 1701967. (IF:24.884)
(75) Chunlei Jiang, Yue Fang,Jihui Lang, Yongbing Tang*, Integrated Configuration Design forUltrafast Rechargeable Dual-Ion Battery, Advanced Energy Materials,2017, 7, 1700913. (IF:24.884)
(76) Maohua Sheng†, FanZhang†, Bifa Ji†, Xuefeng Tong, Yongbing Tang*, A Novel Tin-GraphiteDual-Ion Battery Based on Sodium-Ion Electrolyte with High Energy Density, AdvancedEnergy Materials, 2017, 7,1601963. (IF:24.884)
(77) Songquan Zhang†, MengWang†, Zhiming Zhou†, Yongbing Tang*, Multifunctional Electrode DesignConsisting of 3D Porous Separator Modulated with Patterned Anode forHigh-Performance Dual-Ion Batteries, Advanced Functional Materials,2017,1703035. (IF:15.621)
(78) Bifa Ji, Fan Zhang,Maohua Sheng, Xuefeng Tong, Yongbing Tang*, A Novel and GeneralizedLithium-Ion-Battery Configuration Utilizing Al Foil as Both Anode and CurrentCollector for Enhanced Energy Density, Advanced Materials, 2016,28, 1604219. (IF: 25.809)
(79) Xiaolong Zhang, YongbingTang*, Fan Zhang, Chun-sing Lee*, A Novel Aluminum-Graphite Dual-IonBattery, Advanced Energy Materials, 2016, 6(11): 1502588-1-1502588-6.(IF:24.884)
(80) Xuefeng Tong†, FanZhang†, Bifa. Ji, Maohua Sheng, Yongbing Tang*, Carbon-Coated PorousAluminum Foil Anode for High-Rate, Long-Term Cycling Stability and High EnergyDensity Dual-Ion Batteries, Advanced Materials, 2016, 28(45): 9979-9985.(coverimage, IF:25.809)
.
代表性授權專利
代表性授權專利
(1) 唐永炳;吳越;張苗,有機凝膠聚合物電解液、製備方法、套用、鈉基雙離子電池及其製備方法,中國發明專利,申請號:CN201811540477.3,申請日:2018-12-14,授權日:2022-08-19
(2) 唐永炳;何海燕;姚文嬌,一種鉀離子電池正極材料、鉀離子電池及製備方法,中國發明專利,申請號:CN201910841426.2,申請日:2019-09-06,授權日:2022-07-22
(3) 唐永炳;王陶;黃磊;李星星;張文軍;李振聲,金剛石塗層的製備方法及其製得的金剛石塗層、刀具,中國發明專利,申請號:CN201811044751.8,申請日:2018-09-07,授權日:2022-06-21
(4) 唐永炳;王陶;徐陽;黃磊,薄膜電極及製備方法,中國發明專利,申請號:CN201910967162.5,申請日:2019-10-12,授權日:2021-09-03
(5) 唐永炳;常興奇;周小龍 ,電解液、鈣離子二次電池及其製備方法,中國發明專利,申請號:CN201811545139.9,申請日:2018-12-17,授權日:2021-07-20
(6) 唐永炳;張小龍;張帆,이차전지및그제조방법,韓國發明專利,申請號:KR1020187012967,申請日:2016-11-12,授權日:2020-03-14;
(7) 唐永炳;張小龍;張帆,Secondary battery and preparation method therefor,美國發明專利,申請號:US15/773805,申請日:2016-11-12,授權日:2020-05-08;
(8) 唐永炳;張小龍;張帆,一種二次電池及其製備方法,發明專利,申請號:CN201610998823.7,申請日:2016-11-12,授權日:2019-06-28;
(9) 唐永炳;張小龍,一種二次電池及其製備方法,發明專利,申請號:CN201510856238.9,申請日:2015-11-30,授權日:2018-11-27;
(10) 唐永炳;張帆,二硫化鉬/聚苯胺複合材料、製備方法及鋰離子電池,發明專利, 申請號: CN201410638073.3,申請日:2014-11-12,授權日:2018-05-11;
(11) 唐永炳;張帆;李振聲,一種鈦酸鈉納米線/石墨烯複合負極材料及其製備方法,發明專利,申請號: CN201510682930.4,申請日: 2015-10-20,授權日:2018-06-05;
(12) 唐永炳;李文躍;李振聲,石墨烯/聚苯胺/硫複合正極材料及其製備方法、鋰硫電池,發明專利,申請號: CN201510960678.9,申請日:2015-12-21,授權日:2018-08-14;
(13) 唐永炳;張小龍,注水發電環保電池及其正電極和電池組,發明專利,申請號:CN201510660753.X,申請日: 2015-10-14,授權日:2018-10-16;
(14) 唐永炳;謝呈德;聖茂華,一種多孔錫箔負極及其製備方法和鈉離子二次電池,發明專利,申請號:CN201611248878.2,申請日:2016-12-29,授權日:2020-04-21;
(15) 楊揚;唐永炳;張帆,一種鈷酸鋅/石墨烯複合負極材料及其製備方法和鋰離子電池,發明專利, 申請號: CN201710155025.2,申請日:2017-03-14,授權日:2020-02-11;
(16) 唐永炳;吳石;張帆,鉀離子混合超級電容器及其製備方法, 發明專利,申請號:CN201710583412.6,申請日:2017-07-17,授權日:2020-03-20;
(17) 唐永炳;王恆;王蒙,鈉離子混合超級電容器及其製備方法,發明專利,申請號:CN201710583421.5,申請日: 2017-07-17,授權日:2020-02-11;
(18) 唐永炳;朱海莉;張帆,金屬導電材料用作鎂離子混合超級電容器負極和鎂離子混合超級電容器及其製備方法,發明專利,申請號:CN201710583516.7,申請日:2017-07-17,授權日:2019-11-15;
(19) 唐永炳;謝呈德;方月,
鈉離子電池用電解液、製備方法及包含該鈉離子電池用電解液的鈉離子電池,發明專利,申請號:CN201710760819.1,申請日:2017-08-29,授權日:2020-01-14;
(20) 唐永炳;謝呈德,電池的充電方法及充電設備,發明專利,申請號:CN201710771361.X,申請日:2017-08-29,授權日:2019-11-15;
(21) 唐永炳;謝呈德;張桂河,鋰離子電池圓形墊片及鋰離子電池,新型專利,申請號:CN201720832602.2,申請日:2017-07-10,授權日: 2018-06-19;
(22) 唐永炳;蔣春磊;石磊,電池極片附著力測試設備,新型專利,申請號:CN201721309229.9,申請日:2017-10-09,授權日:2018-05-01;
(23) 唐永炳;曹建紅,電池漿料的噴塗裝置及電池極片生產設備,新型專利, 申請號: CN201721481790.5,申請日:2017-11-08,授權日:2018-06-19;
(24) 唐永炳;李星星;黃磊;王陶;楊揚,表面具有金剛石層的鋁電極及其鋰二次電池,新型專利,申請號:CN201721762972.X,申請日:2017-12-15,授權日:2018-07-17;
(25) 楊揚;唐永炳;李子豪;谷繼騰;張文軍,一種金屬空氣電池, 新型專利,申請號:CN201721845762.7,申請日: 2017-12-26,授權日:2018-08-28;
(26) 唐永炳;李子豪;楊揚;谷繼騰;張文軍,一種超級電容器,新型專利, 申請號:CN201820358005.5,申請日:2018-03-15,授權日:2018-10-26;
(27) 唐永炳;蔣春磊;項磊;石磊, 具有塗層的極耳、電芯、電池和電動工具, 新型專利, 申請號:CN201821128441.X,申請日:2018-07-16,授權日:2019-02-12;
(28) 唐永炳;石磊;蔣春磊,電池原位拉曼測試裝置,新型專利, 申請號:CN201821824585.9,申請日:2018-11-06, 授權日:2019-08-16;
(29) 唐永炳;蔣春磊;石磊;方月,電池原位應力測試裝置,新型專利,申請號:CN201821868416.5,申請日:2018-11-13,授權日:2019-08-16;
(30) 唐永炳;閆家肖;蔣春磊;石磊,複合負極片、二次電池,新型專利,申請號:CN201822080185.8,申請日:2018-12-11,授權日:2019-08-02;
(31) 唐永炳;劉齊榮;石磊;蔣春磊,電池原位
X射線衍射測試輔助裝置,新型專利, 申請號:CN201822112688.9,申請日:2018-12-14,授權日:2019-11-19;
(32) 唐永炳;蔣春磊,一種過渡金屬硼化物塗層及其製備方法,發明專利, 申請號:CN201410635526.7,申請日: 2014-11-12,授權日:2018-08-14;
(33) 唐永炳;朱雨,等離子源系統和等離子生成方法,發明專利,申請號:CN201410638080.3,申請日:2014-11-12,授權日:2017-12-19;
(34) 楊揚;楊映虎;唐永炳,輻射式蒸發加熱器及該輻射式蒸發加熱器的製造方法,發明專利,申請號:CN201410658772.4,申請日:2014-11-18,授權日:2017-09-26;
(35) 唐永炳;蔣春磊,軸類零部件塗層摩擦磨損試驗機,發明專利, 申請號:CN201410663763.4,申請日:2014-11-19,授權日:2017-07-28;
(36) 楊揚;張文軍;唐永炳,金剛石納米針陣列複合材料及其製備方法和套用,發明專利,申請號:CN201410720492.1,申請日:2014-12-02,授權日:2017-05-03;
(37) 唐永炳;蔣春磊, 一種測定含氫類金剛石塗層在低溫下的熱膨脹係數的方法, 發明專利, 申請號:CN201510690729.0,申請日:2015-10-22,授權日:2019-10-08;
(38) 楊揚;唐永炳;李剛, 一種植入式晶片的封裝結構及其製備方法,發明專利,申請號:CN201510742481.8,申請日:2015-11-04,授權日:2019-03-01;
(39) 唐永炳;蔣春磊,一種仿生結構立方氮化硼塗層及其製備方法,發明專利,申請號:CN201510822743.1,申請日:2015-11-24,授權日:2019-03-01;
(40) 唐永炳;蔣春磊;張靜,一種金剛石/類金剛石多層複合塗層及其製備方法,發明專利,申請號:CN201510824541.0,申請日:2015-11-24,授權日:2019-03-01;
(41) 唐永炳;朱雨;牛卉卉,一種用於製備金剛石的基台組件,發明專利, 申請號:CN201510870990.9,申請日: 2015-12-02,授權日:2019-05-07;
(42) 唐永炳;朱雨;牛卉卉;劉輝,電漿源單元、電漿源裝置及其套用,發明專利,申請號:CN201510870305.2,申請日:2015-12-02,授權日:2018-08-31;
(43) 唐永炳;李剛;楊揚,一種硬質合金襯底的金剛石/碳化硼複合塗層及製備方法,發明專利,申請號:CN201510945923.9,申請日:2015-12-16,授權日:2018-08-31;
(44) 唐永炳;牛卉卉;朱雨,用於金剛石單晶同質外延的籽晶托盤、基台組件及其套用,發明專利,申請號:CN201510974331.X,申請日:2015-12-23,授權日:2018-05-01;
(45) 唐永炳;朱海莉;蔣春磊,一種類金剛石/立方氮化硼多層複合塗層及其製備方法,發明專利,申請號:CN201610436286.7,申請日:2016-06-17,授權日:2019-07-02;
(46) 唐永炳;王陶;張文軍,一種具有金剛石塗層的硬質合金件及其製備方法,發明專利,申請號:CN201610626731.6,申請日:2016-08-03,授權日:2018-12-21;
(47) 唐永炳;朱海莉;蔣春磊;申京受,含類金剛石複合塗層及其製備方法,發明專利,申請號:CN201611093220.9,申請日:2016-12-01,授權日:2019-04-05;
(48) 唐永炳;王陶;張文軍;李振聲,一種具有金剛石/碳化矽複合塗層的工具及其製備方法,發明專利,申請號:CN201611173709.7,申請日:2016-12-16,授權日:2019-06-25;
(49) 唐永炳;楊揚;秦盼盼;張文軍,一種具有類金剛石陣列的結構件及其製備方法, 發明專利,申請號: CN201611185457.X,申請日:2016-12-20,授權日:2019-06-25;
(50) 唐永炳;蔣春磊;朱海莉,一種具有過渡金屬硼化物塗層的PCB用微鑽及其製備方法, 發明專利,申請號: CN201611193431.X,申請日:2016-12-21,授權日: 2019-06-25;
(51) 唐永炳;陳光海;蔣春磊;朱海莉;王陶,具有塗層的硬質合金件,新型專利,申請號: CN201621428712.4,申請日:2016-12-24,授權日:2017-08-22;
(52) 唐永炳;谷繼騰;楊揚,一種
聚晶金剛石複合片及其製備方法,發明專利,申請號:CN201710104716.X, 申請日:2017-02-24,授權日:2018-10-19;
(53) 唐永炳;張松全;王陶;張文軍,熱絲承載架及金剛石薄膜沉積設備,新型專利,申請號:CN201720203832.2,申請日:2017-03-03,授權日:2017-11-14;
(54) 唐永炳;謝友能;王陶,熱絲組件及金剛石薄膜沉積設備,新型專利,申請號:CN201720206816.9,申請日: 2017-03-03,授權日:2017-11-14;
(55) 唐永炳;張松全;王陶,熱絲承載架及金剛石薄膜沉積設備,發明專利,申請號:CN201710124589.X,申請日:2017-03-03,授權日:2019-11-05;
(56) 唐永炳;谷繼騰;楊揚,一種具有金剛石塗層的硬質合金件及其製備方法,發明專利,申請號:CN201710147177.8,申請日:2017-03-13,授權日:2019-12-03;
(57) 唐永炳;張松全;王陶,一種拉絲模具內孔製備金剛石塗層的裝置,新型專利, 申請號:CN201720240029.6,申請日:2017-03-13, 授權日:2017-10-10;
(58) 唐永炳;石磊;蔣春磊,一種具有富硼化鎢塗層的工件,新型專利,申請號:CN201720311824.X,申請日:2017-03-28,授權日:2017-12-08;
(59) 唐永炳;石磊;蔣春磊,刀片塗層夾具及塗層機,新型專利,申請號:CN201720323017.X,申請日:2017-03-29,授權日:2018-02-23;
(60) 唐永炳;蔣春磊;石磊,鍍膜夾具和鍍膜設備, 新型專利,申請號:CN201720341029.5,申請日:2017-04-01,授權日:2018-02-02;
(61) 唐永炳;石磊;蔣春磊,襯底,新型專利,申請號:CN201720388304.9,申請日:2017-04-11,授權日:2017-12-26;
(62) 唐永炳;張松全;王陶,具有多種塗層的拉絲模具, 新型專利,申請號: CN201720410260.5,申請日:2017-04-18,授權日:2017-11-14;
(63) 唐永炳;石磊;蔣春磊,塗層夾具及塗層機,新型專利, 申請號:CN201720440410.7,申請日:2017-04-24,授權日:2017-12-15;
(64) 唐永炳;王陶;黃磊,一種表面具有高緻密納米金剛石薄膜的工件,新型專利,申請號:CN201720724618.1,申請日:2017-06-20,授權日:2018-03-27;
(65) 唐永炳;謝呈德;張桂河,熱交換器及NMP廢氣回收系統,新型專利,申請號: CN201720752722.1,申請日:2017-06-26,授權日:2018-01-26;
(66) 唐永炳;谷繼騰;楊揚,聚晶金剛石複合片,新型專利,申請號:CN201720767033.8,申請日:2017-06-28,授權日:2018-01-16;
(67) 唐永炳;陳光海;蔣春磊,一種具有含鈦化合物塗層的剪線鉗,新型專利,申請號:CN201720824223.9,申請日:2017-07-06,授權日:2018-01-23;
(68) 唐永炳;黃磊;王陶,具有複合滲層的鈦鋁合金件、具有金剛石塗層的鈦鋁合金件,新型專利,申請號:CN201720958916.7,申請日:2017-08-02,授權日:2018-02-23;
(69) 唐永炳;黃磊;王陶,具有複合滲層的鈦鋁合金件、具有金剛石塗層的鈦鋁合金件,新型專利,申請號:CN201720959125.6,申請日:2017-08-02,授權日: 2018-04-06;
(70) 唐永炳;谷繼騰;楊揚,聚晶金剛石複合片,新型專利,申請號:CN201720999608.9,申請日:2017-08-08, 授權日:2018-04-06;
(71) 唐永炳;石磊;蔣春磊,立銑刀前處理夾具,新型專利, 申請號:CN201721021794.5,申請日:2017-08-15,授權日:2018-05-01;
(72) 唐永炳;石磊;蔣春磊,一種薄膜應力測試用襯底夾具,新型專利,申請號:CN201721042157.6,申請日:2017-08-18,授權日:2018-05-01;
(73) 唐永炳;谷繼騰;楊揚,聚晶金剛石複合片,新型專利,申請號:CN201721043377.0,申請日:2017-08-18,授權日:2018-06-29;
(74) 唐永炳;陳光海;蔣春磊,過渡
金屬硼化物-金屬複合靶材與鍍膜設備,新型專利,申請號:CN201721115049.7, 申請日:2017-08-30,授權日:2018-07-13;
(75) 唐永炳;蔣春磊;石磊,摻雜CaF2的TiB2塗層、CaF2和TiB2複合塗層、其製備方法和套用及刀具,發明專利,申請號:CN201711019913.8,申請日:2017-10-25,授權日:2019-08-23;
(76) 唐永炳;蔣春磊;陳光海;石磊,鉗子,新型專利,申請號:CN201721398465.2,申請日:2017-10-25,授權日:2018-05-01;
(77) 唐永炳;蔣春磊;陳光海;石磊,樣品台,新型專利,申請號:CN201721395198.3,申請日:2017-10-25, 授權日:2018-06-26;
(78) 唐永炳;楊揚;谷繼騰,製備金剛石塗層的熱絲架及裝置,新型專利,申請號:CN201721416517.4,申請日:2017-10-27,授權日:2018-08-28;
(79) 楊揚;唐永炳;谷繼騰,金剛石/石墨烯複合導熱膜和散熱系統,新型專利,申請號:CN201721418398.6,申請日:2017-10-30, 授權日:2018-08-28;
(80) 楊揚;唐永炳;谷繼騰,一種硼摻雜
金剛石電極,新型專利, 申請號:CN201721474192.5,申請日:2017-11-07,授權日:2018-07-24;
(81) 唐永炳;谷繼騰;楊揚,一種聚晶金剛石複合片,新型專利,申請號:CN201721579432.8,申請日:2017-11-22,授權日:2018-07-17;
(82) 唐永炳;李星星;黃磊;王陶;楊揚,一種具有金剛石薄膜的硬質合金,新型專利,申請號:CN201721788799.0,申請日:2017-12-20,授權日:2018-07-24;
(83) 唐永炳;谷繼騰;楊揚;李子豪;張文軍,一種多孔摻硼金剛石電極,新型專利,申請號:CN201721798227.0, 申請日:2017-12-20,授權日:2018-11-09;
(84) 唐永炳;谷繼騰;楊揚;石磊,一種摻硼金剛石電極, 新型專利,申請號:CN201721801225.2,申請日:2017-12-20,授權日:2018-08-28;
(85) 唐永炳;蔣春磊;項磊;石磊;孟醒,碳-過渡金屬硼化物複合塗層和切削工具, 新型專利, 申請號:CN201721828294.2,申請日:2017-12-22,授權日: 2018-09-14;
(86) 唐永炳;黃磊;王陶;楊揚,沉積金剛石塗層的裝置,新型專利,申請號:CN201721839690.5,申請日:2017-12-25,授權日:2018-08-28;
(87) 唐永炳;蔣春磊;石磊;項磊;孟醒,類金剛石複合塗層及塗層工具,新型專利,申請號:CN201721842720.8,申請日:2017-12-25,授權日:2019-01-18;
(88) 唐永炳;黃磊;王陶;李星星;楊揚,中空微針與藥物注射裝置,新型專利,申請號:CN201721884312.9,申請日:2017-12-28,授權日:2019-08-02;
(89) 唐永炳;谷繼騰;楊揚;李子豪;張文軍,一種摻硼金剛石電極,新型專利,申請號:CN201820323056.4,申請日:2018-03-09,授權日:2019-03-15;
(90) 唐永炳;李星星;王陶;黃磊;楊揚,金屬網沉積金剛石塗層裝置和金屬網沉積金剛石塗層系統,新型專利, 申請號:CN201820338175.7,申請日:2018-03-12,授權日:2019-01-08;
(91) 唐永炳;陳波;王陶;楊揚;張松全,夾持裝置及前處理裝置, 新型專利,申請號:CN201820369545.3,申請日:2018-03-16,授權日:2019-01-08;
(92) 唐永炳;陳波;王陶;楊揚;張松全,熱絲固定裝置及金剛石薄膜生長設備, 新型專利,申請號:CN201820365870.2,申請日:2018-03-16,授權日:2019-01-04;
(93) 唐永炳;李子豪;楊揚;谷繼騰;張文軍,一種多孔硼氮鎳共摻雜金剛石電極和電化學脫鹵工作站,新型專利, 申請號:CN201820636156.2,申請日:2018-04-28,授權日:2019-04-02;
(94) 唐永炳;陳波;王陶;楊揚,刀具清洗輔助裝置及刀具清洗裝置,新型專利,申請號:CN201820654825.9,申請日:2018-05-03,授權日:2019-06-04;
(95) 唐永炳;谷繼騰;楊揚;李子豪;張文軍,摻硼金剛石/石墨複合電極、雙電池反應器,新型專利,申請號:CN201820695741.X,申請日:2018-05-10,授權日: 2019-05-14;
(96) 唐永炳;陳波;王陶;楊揚,熱絲夾具和熱絲沉積設備,新型專利,申請號:CN201820707020.6,申請日:2018-05-11,授權日: 2019-02-01;
(97) 唐永炳;李子豪;楊揚;谷繼騰;張文軍,一種高導熱結構, 新型專利,申請號:CN201820740142.5,申請日:2018-05-17,授權日:2019-03-15;
(98) 唐永炳;蔣春磊;石磊,具有顏色層的金剛石
塗層刀具及加工設備, 新型專利, 申請號:CN201820872682.9,申請日:2018-06-06,授權日:2019-05-03;
(99) 唐永炳;陳波;王陶;楊揚,熱絲夾具與熱絲沉積設備,新型專利,申請號:CN201820909937.4,申請日:2018-06-12, 授權日:2019-01-29;
(100) 唐永炳;陳波;王陶;楊揚,刀具清洗風乾裝置及刀具清洗風乾系統,新型專利,申請號:CN201821126381.8,申請日:2018-07-11,授權日:2019-03-29;
(101) 唐永炳;陳波;楊揚;王陶,刀具承載台及套用其的刀具加工系統, 新型專利,申請號:CN201821122636.3,申請日:2018-07-13,授權日:2019-03-29;
(102) 唐永炳;陳波;楊揚;王陶,刀具承載台及刀具加工系統,新型專利, 申請號:CN201821117312.0,申請日: 2018-07-13,授權日:2019-03-29;
(103) 唐永炳;陳波;楊揚;王陶,刀具承載台及刀具加工裝置,新型專利, 申請號:CN201821117682.4,申請日:2018-07-13,授權日:2019-03-29;
(104) 唐永炳;陳波;楊揚;王陶,刀具清洗裝置及刀具清洗系統,新型專利,申請號:CN201821119492.6,申請日:2018-07-13,授權日:2019-03-29;
(105) 唐永炳;陳波;楊揚;王陶,用於片材雙面沉積塗層的夾具及沉積裝置,新型專利, 申請號:CN201821137629.0, 申請日: 2018-07-16,授權日:2019-03-29;
(106) 唐永炳;陳波;王陶;孟醒,刀具夾具及刀具清洗裝置,新型專利,申請號:CN201821400737.2,申請日:2018-08-28,授權日:2019-04-26;
(107) 唐永炳;陳波;王陶;孟醒,刀粒清洗板及刀粒清洗裝置,新型專利,申請號:CN201821706584.4,申請日:2018-10-19,授權日:2019-08-23;
(108) 唐永炳;陳波;王陶;楊揚,用於片材沉積塗層的夾具及沉積裝置,新型專利,申請號:CN201821704780.8,申請日:2018-10-19,授權日:2019-08-13;
(109) 唐永炳;孟醒;陳波;王陶,片材夾具及沉積設備,新型專利,申請號:CN201821704778.0,申請日:2018-10-19,授權日:2019-08-02;
(110) 唐永炳;孟醒;陳波;王陶,用於在片材上沉積摻雜塗層的夾具及沉積裝置,新型專利,申請號:CN201821708390.8,申請日:2018-10-19,授權日:2019-08-02;
(111) 唐永炳;陳波;王陶;孟醒,用於片材連續沉積塗層的夾具及沉積裝置,新型專利,申請號:CN201821708429.6,申請日:2018-10-19,授權日:2019-08-02;
(112) 唐永炳;徐陽;王陶;陳波;李星星;黃磊,沖裁裝置,新型專利,申請號:CN201822090531.0,申請日:2018-12-12,授權日:2019-08-23;
(113) 唐永炳;王星永;王陶;黃磊;李星星,
熱絲化學氣相沉積用基片台及熱絲化學氣相沉積裝置,新型專利,申請號:CN201822113118.1,申請日:2018-12-14,授權日:2019-08-23;
(114) 唐永炳;黃磊;王陶;王星永,鈦合金複合材料、外科植入物和醫療器械, 新型專利,申請號:CN201822129956.8,申請日:2018-12-18, 授權日:2019-08-23;
(115) 唐永炳;周小龍,薄膜塗層色度分析設備和薄膜塗層分類系統,新型專利,申請號:CN201822143468.2, 申請日:2018-12-19,授權日:2019-10-18
(116) 叢洪濤, 唐永炳,成會明,一種氮化鋁增強金屬鋁的雙納米複合材料,發明專利,申請號:200410050349.2, 授權公告號:CN100370047C,授權日:2008-2-20;
(117) 叢洪濤, 唐永炳,成會明, 一種納米氮化鋁/納米鋁雙納米複合材料的製備方法,發明專利,申請號:200410050348.8, 授權公告號:CN100496818C,授權日:2009-6-10;
(118) 叢洪濤,唐永炳,成會明, 一種電子封裝複合材料, 發明專利,申請號: 200510046366.3, 授權公告號:CN100577768C,授權日:2010-1-6;
(119) 叢洪濤,唐永炳,成會明, 一種納米棒陣列材料, 發明專利,申請號:200510046365.9, 授權公告號:CN100413780C,授權日:2008-8-27;
(120) 叢洪濤, 唐永炳, 成會明, 一種刻蝕基板法外延定向生長AlN 納米片格線的方法, 發明專利,申請號:200710010519.8, 授權公告號:CN100578736C,授權日:2010-1-6;
(121) 叢洪濤, 唐永炳, 成會明, 一種高強度、低熱膨脹的AlN 納米線和Al複合材料, 發明專利,申請號:200710111662.6, 授權公告號:CN101255538B,授權日:2011-7-20;
(122) 叢洪濤, 唐永炳, 成會明, 一種催化劑“種子”法製備準一維摻雜AlN 陣列的方法, 發明專利,申請號:200710010518.3, 授權公告號:CN101255064B,授權日:2012-8-22;
(123) 李振聲,李述湯,唐永炳,馮敏強,陳昭儀, 多孔基底與一維納米材料的複合材料及其製備方法、其表面改性的複合材料及製備方法, 發明專利,申請號:201110241568.9, 授權公告號:CN102949981B,授權日:2015-9-30;
(124) C.S. Lee, S.T. Lee, Y.B. Tang, M.K. Fung, composite of porous substrate and one-dimensional nanomatrial and method for preparing the same, surface-modified composite and method for preparing the same, 美國發明專利13/585,707,授權日:2013-2-21。
學術兼職
學術兼職
2019.08~2023.07,廣東省電池行業協會理事會副理事長
2020.04-2023.04,
光電材料器件網專家委員會副理事長
2018.12.10,被Elsevier出版社聘為《Green Energy&Environment》期刊青年編委
2016.09.01~2017.09.01,中國機械工程學會表面工程分會青工委委員會委員理事
2014.10.17,International Advisory Panel Member of Materials Research Express
2014.06.17,Associate Editor of Journal of Nanoscience Letters
人物訪談
唐永炳:讓電池再輕點,再持久點
2017-05-15來源:科技日報 劉傳書 丁寧寧
中國科學院深圳先進技術研究院集成所功能薄膜材料研究中心唐永炳研究員及其團隊成功研發出一種新型高性能、低成本的鉀型雙離子電池技術,該成果發表於國際材料著名期刊《先進材料》上。
2007年,他在中科院瀋陽金屬所獲得博士學位,憑藉優異的學術成績被導師成會明院士推薦進入香港城市大學李述湯院士的實驗室,這一乾就是六年。
2013年8月,在聽聞與香港一江之隔的深圳成立了一個國家級的科研機構,在這裡既可以從事科研,又極力推崇產業化套用,還可以指導研究生。他離開香港,來到基礎和產業化環境更好的中科院深圳先進院。