![胡勇勝[中科院物理博士]](/img/0/d78/nBnauM3X2cTO1IzM5ADM0YTN1UTM1QDN5MjM5ADMwAjMwUzLwAzL2IzLt92YucmbvRWdo5Cd0FmL0E2LvoDc0RHa.jpg "胡勇勝[中科院物理博士]")
個人經歷
曾先後到德國Max-Planck固體研究所做博士後和Principal researcher(2004-2007),美國加州大學聖芭芭拉分校從事博士後研究(2007-2008)。2008年入選中科院“百人計畫”,現為中科院物理研究所研究員,在E01組工作。
研究方向
新能源材料與器件及其相關基礎科學問題
主要包括:
1.能量存儲與轉換器件(鈉離子電池、鋰離子電池、超級電容器等)
2.納米離子學(離子/電子在納米尺度上的輸運、存儲與反應問題)
3.光電一體化能源系統
工作成果
提出了室溫鈉離子儲能電池用新型正極材料、電解質材料和負極材料,為推動鈉離子電池的實用化奠定了基礎;
提出了一種新型高鹽濃度電解質體系(Solvent-in-Salt electrolyte)套用於高比能金屬鋰電池,例如鋰硫電池(Lithium-sulfur (Li-S) batteries)和鋰空氣電池(Li-O2 batteries);
提出了硼、氮摻雜碳包覆電極材料的新思路;
報導了鋰離子能可逆嵌入/脫出到具有金紅石結構的納米二氧化鈦中;
提出了具有分級結構的三維混合導電網路套用到納米電極結構中的新思想;
系統研究了一系列新型功能電解質材料在鋰離子電池中的套用;
發展了一種“Top-Down”的電化學鋰化方法製備納米多孔材料及其在燃料電池和超級電容器中的套用。
1.提出了室溫鈉離子儲能電池用新型正極材料、電解質材料和負極材料,為推動鈉離子電池的實用化奠定了基礎;
2.提出了一種新型高鹽濃度電解質體系(Solvent-in-Salt electrolyte)套用於高比能金屬鋰電池,例如鋰硫電池(Lithium-sulfur (Li-S) batteries)和鋰空氣電池(Li-O2 batteries);
3.提出了硼、氮摻雜碳包覆電極材料的新思路;
4.報導了鋰離子能可逆嵌入/脫出到具有金紅石結構的納米二氧化鈦中;
5.提出了具有分級結構的三維混合導電網路套用到納米電極結構中的新思想;
6.系統研究了一系列新型功能電解質材料在鋰離子電池中的套用;
7.發展了一種“Top-Down”的電化學鋰化方法製備納米多孔材料及其在燃料電池和超級電容器中的套用。
在Nature Mater.、Nature Energy、Joule、Nature Commun.、Science Adv.、Adv. Mater.、Adv. Energy Mater.、Adv. Funct. Mater.、Energy Storage Materials、J. Mater. Chem. A、Energy & Environ. Sci.、Angew. Chem. Int. Ed.、JACS、Nano Letters等國際重要學術期刊上共合作發表論文180餘篇,SCI引用16000餘次,H-因子62,連續5年入選湯森路透全球材料領域“高被引科學家”名錄。合作申請50餘項中國發明專利、5項國際發明專利、已授權30項專利。目前擔任多個專業雜誌的審稿人,例如Nature, Nature Energy, Joule, Nature Commun., PNAS, ScienceAdv.、Adv. Mater.、Adv. Energy Mater., Adv. Funct. Mater., Energy Storage Materials, J. Mater. Chem. A,Energy & Environ. Sci., Angew. Chem. Int. Ed., JACS, Nano Letters, Nano Energy等。
榮譽與獎勵
15. 2017年獲得國家傑出青年基金
14. 2017年入選第三批國家“萬人計畫”科技創新領軍人才
13. 2016年獲得第十四屆中國青年科技獎
12. 2016年入選科技部中青年科技創新領軍人才
11. 2016年入選英國物理學會會士“Fellow of The Institute of Physics (UK)”
10. 2015年入選英國皇家化學學會會士“Fellow of The Royal Society of Chemistry”
9. 2015年獲得國際電化學學會 Tajima Prize
8. 2015年獲得英國皇家學會的Newton Advanced Fellowships (牛頓高級學者基金)
7. 2015年獲得茅以升科學技術獎--北京青年科技獎
6.2014年獲中國物理學會2014年度“最有影響力論文獎”一等獎
5.2013年獲得第十屆中國矽酸鹽學會青年科技獎
4. 2013年獲得中國電化學青年獎
3. 2013年發表的2篇論文入選2013年中國百篇最具影響國際學術論文
2. 2012年獲得首屆國家優秀青年基金
1. 2012年獲得中科院物理所科技新人獎
代表論文
52.Rong, X.; Hu, E.; Lu, Y.X.; Meng, F.; Zhao, C.; Wang, X.; Zhang, Q.; Yu, X.*; Gu, L.*; Yong-Sheng Hu*; Li, H.; Huang, X.; Yang, X.-Q.; Delmas, C.; Chen, L.
Anionic Redox Reaction-Induced High-Capacity and Low-Strain Cathode with Suppressed Phase Transition
Joule, 2018, doi: 10.1016/j.joule.2018.10.022
51.Zheng, Y.; Lu, Y.X.*; Qi, X.; Wang, Y.; Mu, L.; Li, Y.; Ma, Q.; Li, J.*;Yong-Sheng Hu*
Superior electrochemical performance of sodium-ion full-cell using poplar wood derived hard carbon anode
Energy Storage Materials, 2018, doi: 10.1016/j.ensm.2018.09.00250.Scalable Room-Temperature Synthesis of Multi-shelled Na3(VOPO4)2F Microsphere Cathodes
Joule, 2018, doi: 10.1016/j.joule.2018.07.027.
49. Lu, Y.X.; Zhao, C.; Qi, X.; Qi, Y.; Li, H.; Huang, X.; Chen, L.; Yong-Sheng Hu*
Pre-Oxidation-Tuned Microstructures of Carbon Anodes Derived from Pitch for Enhancing Na Storage Performance
Advanced Energy Materials, 2018, 8, 1800108, doi: 10.1002/aenm201800108.
48. Zhao, C.; Wang, Q.; Lu, Y.X.* ; Li, B.H.; Chen, L.; Yong-Sheng Hu*;
High-temperature treatment induced carbon anode with ultrahigh Na storage capacity at low-voltage plateau
Science Bulletin, 63, 1125-1129,2018.
47. Jiang, L.; Lu, Y.X.* ; Wang, Y.S.; Liu, L.; Qi, X.; Zhao, C.; Chen, L.; Yong-Sheng Hu*;
A high-temperature β-phase NaMnO2 stabilized by Cu doping and its Na storage properties
Chinese Physics Letters, 2018, 35, 048801.
46. Zhao, C.; Liu, L.; Qi, X.; Lu, Y.X.*; Wu, F.; Zhao, J.M.; Yu, Y.*; Yong-Sheng Hu*; Chen, L.
Solid-State Sodium Batteries
Advanced Energy Materials, 2018, 8, 1703012, doi: 10.1002/aenm.201703012.
45. Rong, X.; Liu, J.; Hu, E.; Liu, Y.; Wang, Y.; Wu, J.; Yu, X.*; Page, K.; Yong-Sheng Hu*; Yang, W.; Li, H.; Yang, X. Q.; Chen, L.; Huang, X.
Structure-Induced Reversible Anionic Redox Activity in Na Layered Oxide Cathode
Joule, 2, 125–140, 2018.
44. Yu, J.; Yong-Sheng Hu*; Pan, F.; Zhang, Z.; Wang, Q.; Li, H.; Huang, X.; Chen, L.
A class of liquid anode for rechargeable batteries with ultralong cycle life
Nature Communications 2017, 8, 14629, doi: 10.1038/ncomms14629.
43. Li, Y.; Lu, Y.X.; Zhao, C.; Yong-Sheng Hu*; Titirici, M.-M.*; Li, H.; Huang, X.; Chen, L.
Recent advances of electrode materials for low-cost sodium-ion batteries towards practical application for grid energy storage
Energy Storage Materials 7, 130-151, 2017.
42. Yong-Sheng Hu*
Batteries: getting solid
Nature Energy, 1, 16042, 2016.
41. Li, Y.; Yong-Sheng Hu*; Qi, X.; Rong, X.; Li, H.; Huang, X.; Chen, L.
Advanced sodium-ion batteries using superior low cost pyrolyzed anthracite anode: towards practical applications
Energy Storage Materials, 5, 191-197, 2016.
40. Mu, L.; Xu, S.; Li, Y.; Yong-Sheng Hu*; Li, H.; Chen, L.; Huang, X.
Prototype sodium-ion batteries using air-stable and Co/Ni-free O3-layered metal oxide cathode
Advanced Materials, 27, 6928-6933, 2015.
39. Li, Y.; Yong-Sheng Hu*; Li, H.; Chen, L.; Huang, X.
A superior low-cost amorphous carbon anode made from pitch and lignin for sodium-ion batteries
Journal of Materials Chemistry A, 4, 96-104, 2016.
38. Li, Y.; Mu, L.; Yong-Sheng Hu*; Li, H.; Chen, L.; Huang, X.
Pitch-derived amorphous carbon as high performance anode for sodium-ion batteries
Energy Storage Materials, 2, 139-145, 2016.
37. Xu, S.; Wang, Y.; Ben, L; Lyu, Y.; Song, N.; Yang, Z.; Li, Y.; Mu, L. Q.; Yang, H. T.*; Gu, L.*; Yong-Sheng Hu*; Li, H.; Cheng, Z.-H.; Chen, L.; Huang, X.
Fe-based Tunnel-type Na0.61[Mn0.27Fe0.34Ti0.39]O2 Designed by A New Strategy as Cathode Material for Sodium-ion Batteries
Advanced Energy Materials, 2015, 5, 1501156, doi: 10.1002/aenm.201501156.
36. Wang, Y.; Mu, L. Q.; Liu, J.; Yang, Z.; Xu, S.;Yu, X.*; Gu, L.*; Yong-Sheng Hu*; Li, H.; Yang, X.-Q.; Chen, L.; Huang, X.
A novel high capacity positive electrode material with tunnel-type structure for aqueous sodium-ion batteries
Advanced Energy Materials, 2015, 5, 1501005, doi: 10.1002/aenm.201501005.
35. Wang, Y.; Liu, J.; Lee, B.; Qiao, R.; Yang, Z.; Xu, S.; Yu, X.*; Gu, L.*; Yong-Sheng Hu*; Yang, W.; Kang, K.; Li, H.; Yang, X.-Q.; Chen, L.; Huang, X.
Ti-substituted tunnel-type Na0.44MnO2 oxide as a negative electrode for aqueous sodium-ion batteries
Nature Communications 2015, 6, 6401, doi: 10.1038/ncomms7401.
34. Wang, Y.; Xiao, R.; Yong-Sheng Hu*; Avdeev, M.*; Chen, L.
P2-Na0.6[Cr0.6Ti0.4]O2 cation-disordered electrode for high-rate symmetric rechargeable sodium-ion batteries
Nature Communications 2015, 6, 6954, doi: 10.1038/ncomms7954.
33. Wu, X. Y.; Jin, S. F.; Zhang, Z. Z.; Jiang, L. W.; Mu, L. Q.; Yong-Sheng Hu*; Li, H.; Chen, X. L.; Armand, M.; Chen, L.; Huang, X.
Unraveling the storage mechanism in organic carbonyl electrodes for sodium-ion batteries
Science Advances 2015, 1, e1500330, doi: 10.1126/sciadv.1500330.
32. Li, Y. M.; Yang, Z.; Xu, S.; Mu, L.; Gu, L.*; Yong-Sheng Hu*; Li, H.; Chen, L. Q.
Air-Stable Copper-Based P2-Na7/9Cu2/9Fe1/9Mn2/3O2 as a New Positive Electrode Material for Sodium-Ion Batteries
Advanced Science, 2015, 2, 1500031, doi: 10.1002/advs201500031.
31. Mu, L. Q.; Yong-Sheng Hu*; Chen, L. Q.
New layered metal oxides as positive electrode materials for room-temperature sodium-ion batteries
Chinese Physics B 24, 038202, 2015.
30. Xu, S.-Y.; Wu, X.-Y.; Li, Y.-M.; Yong-Sheng Hu*; Chen, L.-Q.
Novel copper redox-based cathode materials for room-temperature sodium-ion batteries
Chinese Physics B 23, 118202, 2014.
29. Ma, J.; Fang, Z.; Yan, Y.; Yang, Z.; Gu, L.; Yong-Sheng Hu*; Li, H.; Wang, Z; Huang, X.
Novel Large-Scale Synthesis of C/S Nanocomposite with Mixed Conducting Networks through Spray Drying Approach for Li–S Batteries
Advanced Energy Materials 2015, 5, 1500046, doi: 10.1002/aenm.201500046.
28. Y. M. Li, S. Y. Xu, X. Y. Wu, J. Z. Yu, Y. S. Wang, Yong-Sheng Hu*, H. Li, L. Q. Chen and X. J. Huang
Amorphous monodispersed hard carbon micro-spherules derived from biomass as a high performance negative electrode material for sodium-ion batteries
Journal of Materials Chemistry A, 3, 71-77, 2015.
27. L. Zhao, X. Q. Yu, J. Z. Yu, Y. N. Zhou, S. N. Ehrlich, Yong-Sheng Hu*, D. Su,* H. Li, X. Q. Yang* and L. Q. Chen
Remarkably improved electrode performance of bulk MnS by forming a solid solution with FeS and Li storage mechanism
Advanced Functional Materials, 24, 5557-5566, 2014.
26. B. Guo,* X. Q. Yu, M. F. Chi, Z. A. Qiao, J. Liu, Yong-Sheng Hu*, X. Q. Yang, J. B. Goodenough and S. Dai,*
A long-life lithium-ion battery with highly porous TiNb2O7 anode for large-scale electrical energy storage
Energy & Environmental Science, 7, 2220-2226, 2014.
25. Z. L. Jian, C. C. Yuan, W. Z. Han, X. Lu, L. Gu,* X. K. Xi,* Yong-Sheng Hu*, H. Li, W. Chen, D.F. Chen, Y. Ikuhara and L. Q. Chen
Atomic Structure and Kinetics of NASICON NaxV2(PO4)3 Cathode for Sodium-Ion Batteries
Advanced Functional Materials, 24, 4265-4272, 2014.
24. X. Q. Yu, H. L. Pan, W. Wan, C. Ma, J. M. Bai, Q. P. Meng, S. N. Ehrlich, Yong-Sheng Hu* and X.-Q. Yang*
A Size-Dependent Sodium Storage Mechanism in Li4Ti5O12 Investigated by a Novel Characterization Technique Combining in Situ X‑ray Diffraction and Chemical Sodiation
Nano Letters, 13, 4721−4727, 2013.
23. Y. S. Wang, X. Q. Yu, S. Y. Xu, J. M. Bai, R. J. Xiao*, Yong-Sheng Hu*, H. Li, X.-Q. Yang, L. Q. Chen and X. J. Huang
A zero-strain layered metal oxide as the negative electrode for long-life sodium-ion batteries
Nature Communications, 2103, 4, 2365, doi:10.1038/ncomms3365
22. Y. Sun, L. Zhao, H. L. Pan, X. Lu, L. Gu*, Yong-Sheng Hu*, H. Li, M. Armand, Y.Ikuhara, L. Q. Chen and X. J. Huang
Direct Atomic-Scale Confirmation of Three-Phase Storage Mechanism in Li4Ti5O12 Anodes for Room-Temperature Sodium-Ion Batteries
Nature Communications, 2013, 4, 1870, doi: 10.1038/ncomms2878.
21. L. M. Suo, Yong-Sheng Hu*, H. Li, M. Armand and L. Q. Chen
A new class of Solvent-in-Salt electrolyte for high-energy rechargeable metallic lithium batteries
Nature Communications, 2013, 4, 1481, doi:10.1038/ncomms2513.
20. H. L. Pan, Yong-Sheng Hu* and L. Q. Chen
Room-temperature stationary sodium-ion batteries for large-scale electric energy storage
Energy & Environmental Science, 6: 2338-2360, 2013.(Invited review article)
19. H. L. Pan, X. Lu, X. Q. Yu, Yong-Sheng Hu*, H. Li, X. Q. Yang and L. Q. Chen
Sodium storage and transport properties in layered Na2Ti3O7 for room-temperature sodium-ion batteries
Advanced Energy Materials, 3, 1186-1194, 2013.
18. Z. L. Jian, W. Z. Han, X. Lu, H. X. Yang, Yong-Sheng Hu*, J. Zhou, Z. B. Zhou, J. Q. Li, W. Chen*, D. F. Chen* and L. Q. Chen
Superior electrochemical performance and storage mechanism of Na3V2(PO4)3 cathode for room-temperature sodium-ion batteries
Advanced Energy Materials, 3, 156-160, 2013.
17. X. Lu, Y. Sun, Z. L. Jian, X. Q. He, L. Gu*, Yong-Sheng Hu*, H. Li, Z. X. Wang, X. F. Duan,L. Q. Chen, J. Maier and Y. Ikuhara
New insight in the atomic structure of electrochemically delithiated O3-Li(1-x)CoO2 (0 ≤ x ≤ 0.5) nano-particles.
Nano Letters,12, 6192-6197, 2012.
16. X. Lu, L. Zhao, X. Q. He, R. J. Xiao, L. Gu*, Yong-Sheng Hu*, H. Li, Z. X. Wang, X. F. Duan, L. Q. Chen, J. Maier and Y. Ikuhara
Li-storage in Li4Ti5O12 spinel: The full static picture from Electron Microscopy
Advanced Materials, 24, 3233-3238, 2012.
Highlight by Science (see
http://www.sciencemag.org/content/336/6089/twil.full
)
15. L. Zhao, J. M. Zhao, Yong-Sheng Hu*, H. Li, Z. B. Zhou, M. Armand and L. Q. Chen
Disodium Terephthalate (Na2C8H4O4) as High Performance Anode Material for Low-Cost Room-Temperature Sodium-Ion Battery
Advanced Energy Materials, 2, 962-965, 2012.
14. L. Zhao, H. L. Pan, Yong-Sheng Hu*, H. Li and L. Q. Chen
Spinel lithium titanate (Li4Ti5O12) as novel anode material for room-temperature sodium-ion battery
Chinese Physics B, 21: 028201, 2012.
13. Z. L. Jian, L. Zhao, H. L. Pan, Yong-Sheng Hu*, H. Li, W. Chen* and L. Q. Chen
Carbon coated Na3V2(PO4)3 as novel electrode material for sodium ion batteries
Electrochem. Commun.,14: 86-89, 2012.
12. X. Lu, Z. L. Jian, Z. Fang, L. Gu*, Yong-Sheng Hu*, W. Chen, Z. X. Wang and L. Q. Chen
Atomic-scale investigation on lithium storage mechanism in TiNb2O7
Energy & Environmental Science, 4: 2638-2644, 2011.
11. L. Zhao, Yong-Sheng Hu*, H. Li, Z. X. Wang and L. Q. Chen*
Porous Li4Ti5O12 Coated with N-Doped Carbon from Ionic Liquids for Li-Ion Batteries
Advanced Materials 23: 1385-1388, 2011.
10. Y. F. Shi, B. K. Guo, S. A. Corr, Q. H. Shi, Yong-Sheng Hu*, K. R. Heier, L. Q. Chen, R. Seshadri* and G.D. Stucky*
Ordered Mesoporous Metallic MoO2 Materials with Highly Reversible Lithium Storage Capacity
Nano Letters 9:4215-4220,2009.
9. Yong-Sheng Hu*, X. Liu, J.-O. Müller, R. Schlögl, J. Maier* and D. S. Su*
Synthesis and Superior Electrode Performance of Nanostructured V2O5 Using Carbon Tube-in-tube as Nano-reactor and Efficient Mixed Conducting Network
Angew. Chem. Int. Ed. 48: 210-214, 2009.
8. Yong-Sheng Hu*, R. D. Cakan, M.-M. Titirici*, J.-O. Müller, R. Schlögl, M. Antonietti and J. Maier*
Superior Storage Performance of a
Si@SiOx/C
Nanocomposite as Anode Material for Lithium-Ion Batteries
Angew. Chem. Int. Ed. 47: 1645-1649, 2008.
7. H. Kaper, F. Endres, I. Djerdj, M. Antonietti, B. M. Smarsly*, J. Maier and Yong-Sheng Hu*
Direct Low Temperature Synthesis of Rutile Nanostructures in Ionic Liquids and their electrochemical property
Small 3: 1753-1763, 2007.
6. Yong-Sheng Hu, Y. -G. Guo, R. Dominko, M. Gaberscek, J. Jamnik and J. Maier
Improved electrode performance of porous LiFePO4 using RuO2 as an oxidic nanoscale interconnect
Adv. Mater. 19: 1963-1966, 2007.
5. Y.-G. Guo, Yong-Sheng Hu*, W. Sigle and J. Maier*
Superior electrode performance of nanostructured mesoporous TiO2 (anatase) through efficient hierarchical mixed conducting networks
Adv. Mater. 19: 2087-2091, 2007.
4. Yong-Sheng Hu, Y.-G. Guo, W. Sigle, S. Hore, P. Balaya, and J. Maier
Electrochemical lithiation synthesis of nanoporous materials with superior catalytic and capacitive activity
Nature Mater. 5: 713-717, 2006.
3. Yong-Sheng Hu, L. Kienle, Y.-G. Guo, and J. Maier
High Lithium Electroactivity of Nano-sized Rutile
Adv. Mater. 18:1421-1426, 2006.
2. Yongsheng Hu, W. H. Kong, H. Li, X. J. Huang and L. Q. Chen
Experimental and Theoretical Studies on Reduction Mechanism of Vinyl Ethylene Carbonate on Graphite Anode for Lithium Ion Batteries
Electrochem. Commun. 6(2): 126-131, 2004.
1. Yongsheng Hu, H. Li, X. J. Huang and L. Q. Chen
Novel Room Temperature Molten Salt Electrolyte Based on LiTFSI and Acetamide for Lithium Batteries
Electrochem. Commun. 6(1): 28-32, 2004.
1.研究展望
承擔的課題有物理所院“百人計畫”人才啟動計畫資助課題、國家自然科學基金面上項目1項、科技部863項目1項等。主要從事納米結構能源材料的物理化學性能及其相關器件的研究,以及器件之間的集成系統研究。與國外相關的著名研究所和大學有較密切的合作關係。
