学术论文 

2023年

(1) Y. Chen, Y. Cui, S. Wang, Ying Xiao, J. Niu, J. Huang, F. Wang, S. M. Chen*. Durable and adjustable interfacial engineering of polymeric electrolytes for both stable Ni-rich cathodes and high-energy metal anodes. Adv. Mater. 2023, 35, 2300982.

(2)  S. Wan, K. Song, J. Chen, S. Zhao, W. Ma, W. Chen,* S. M. Chen*. Reductive competition effect derived solid electrolyte interphase with evenly scattered inorganics enabling ultra-high rate and long-life span sodium metal batteries. J. Am. Chem. Soc., 2023, ja082246

(3) Z. Yao, Y. Wang, S. Wan, W. Ma, J. Rong, Y. Xiao*, G. Hou*, S. M. Chen*. Recent advances in designing solid-state electrolytes to reduce the work temperature of lithium batteries. Mater. Chem. Front., 2023, 7, D3QM00662J.

(4) M. Yu, S. Zhao, Y. Xiao, R. Zhang, L. Liu*, S. M. Chen*. High-performance zinc-ion battery enabled by tuning the terminal group and chain length of PEO-based oligomers. Batteries Supercaps. 2023, 35, e202200535.

(5) R. Zhang, B. Xie, J. Rong, L. Liu*, G. Hou*, S. M. Chen*. Self-shutdown function and uniform Li-ion flux enabled by a double-layered polymer electrolyte for high performance Li metal batteries. J. Solid State Electrochem. 2023, 27, 1399-1409.

(6) W. Ma, S. Wan, X. Cui, G. Hou, Y. Xiao*, J. Rong*, S. M. Chen*. Exploration and application of self-healing strategies in lithium batteries. Adv. Funct. Mater., 2023, 33, 221282.

(7) Y. Cui, R. Zhang, S. Yang, L. Liu*, S. M. Chen*. Research progress on electrolyte additives design and their functions for zinc-ion batteries. 2023, 10.1088/2752-5724/acef41.

(8) Y. Xiao*, S. Hu, Y. Miao, F. Gong, J. Chen, M. Wu, W. Liu*, S. M. Chen*. Recent progress in hot spot regulated strategies for catalysts applied in Li-CO₂ batteries. 2023, 10.1002/smll.202305009. 

(9) Y. Miao, Y. Xiao*, S. Hu, S. M. Chen*. Chalcogenides metal-based heterostructure anode materials toward Na⁺-storage application. Nano Res., 2023, 16, 2347-2365.

(10) F. Jiang, Y. Song, M. Sha*, S. M. Chen*. Monitoring of voltage-induced microstructure of C₁₂mimBr ionic liquids on HOPG surface by in-situ XAFS. New J. Chem., 2023, 47, 9762-9770

2022年

(11) M. Zhao, J. Rong, F. Huo, Y. Lv, B. Yue, Y. Xiao, Y. Chen, G. Hou*, J. Qiu*, S. M. Chen*. Semi-immobilized ionic liquid regulator with fast kinetics towards highly stable zinc anode under -35 °C to 60 °C. Adv. Mater. 2022, 34, 2203153

(12) M. Zhao, Y. Lv, S. Zhao, Y. Xiao, J. Niu, Q. Yang, J. Qiu*, F. Wang*, S. M. Chen*. Simultaneously stabilizing both electrodes and electrolytes by a self-separating organometallics interface for high performance zinc-ion battery at wide temperatures. Adv. Mater., 2022, 34, 2206239.

(13) Y. Lv, M. Zhao, Y. Du, Y. Kang, Y. Xiao, S. M. Chen*. Engineering self-adaptive electric double layer on both electrodes for high-performance zinc metal batteries. Energy Environ. Sci., 2022, 15, 4748-4760

(14) Y. Xiao*, Y. Miao, S. Hu, F. Gong, Q. Yu, L. Zhou, S. M. Chen*. Structural stability boosted in 3D carbon-free iron selenide through engineering heterointerfaces with Se-P bonds for appealing Na⁺-storage. Adv. Funct. Mater. 2022, 33, 2210042.

(15) Y. Xiao*, Y. Miao, S. Wan, Y. Sun*, S. M. Chen*. Synergistic engineering of Se vacancies and heterointerfaces in zinc-cobalt selenide anode for highly efficient Na-ion batteries. Small, 2022, 18, 2202582.

(16) S. Wan, W. Ma, Y. Xiao*, S. M. Chen*. High-voltage and fast-charge electrolytes for lithium-ion batteries. Batteries Supercaps, 2022, 5, e202200368.

(17) Y. Yang, L. Li, L. Liu*, Y. Xiao*, S. M. Chen*. Ce(NO₃)₃ as an electrolyte additive to regulate uniform lithium deposition for stable all-solid-state batteries. Solid State Ionics, 2022, 374, 115831.

(18) Y. Lv, Y. Xiao, S. Xu, F. Huo*, Y. Chen, M. Zhao, L. Liu, C. Su*, Y. Zhu*, S. M. Chen*. Multifunctional polyzwitterion ionic liquid coating for long-lifespan and dendrite-free Zn metal anodes. J. Mater. Chem. A, 2022, 10, 16952–16961.

2021年

(19) B. Xie; L. Liu^*; S. M. Chen*, Y. Chen. Self-shutdown function induced by sandwich-like gel polymer electrolytes for high safety lithium metal batteries. RSC Adv., 2021, 11, 14036-14046.

(20) Y. Chen, F. Huo, S. M. Chen*, W. Cai*, S. Zhang*. In-built quasi-solid-state poly-ether electrolytes enabling stable cycling of high-voltage and wide-temperature Li metal batteries. Adv. Funct. Mater, 2021, 31, 2102347.

(21) Y. Zhang, S. M. Chen*, Y. Chen, L. Li*, Functional polyethylene glycol-based solid electrolytes with enhanced interfacial compatibility for room-temperature lithium metal batteries. Mater. Chem. Front., 2021, 5, 3681

(22) T. Chen, S. M. Chen*, Y. Chen, M. Zhao, D. Losic*, S. Zhang*. Metal-organic frameworks containing solid-state electrolytes for lithium metal batteries and beyond. Mater. Chem. Front., 2021, 5, 1771-1794.

(23) S. Yan, Y. Wang, T. Chen, Z. Gan, S. M. Chen*, Y. Liu*, S. Zhang. Regulated interfacial stability by coordinating ionic liquids with fluorinated solvent for high voltage and safety batteries. J. Power Sources, 2021, 491, 229603.

(24) G. Liang, Z. Gan, X. Wang, X. Jin, B. Xiong, X. Zhang, S. M. Chen, Y. Wang*, H. He*, C. Zhi*. Reconstructing vanadium oxide with anisotropic pathways for a durable and fast aqueous K-ion battery. ACS Nano, 2021, 15, 17717–17728

(25) Z. Yi, S. Jiang, Y. Du, L. Ma, Y. Qian, J. Tian, C. Jia, S. M. Chen, N. Lin*, Y. Qian. Coordinatively and spatially coconfining high-loading atomic Sb in sulfur-rich 2D carbon matrix for fast K⁺ diffusion and storage. ACS Mater. Lett., 2021, 3, 790-798.

(26) J. Li, F. Huo, T. Chen, H. Yan, Y. Yang, S. Zhang*, S. M. Chen*. In-situ construction of stable cathode/Li interfaces simultaneously via different electron density azo compounds for solid-state lithium metal batteries. Energy Storage Mater., 2021, 40, 394-401.

(27) Y. Lv, Y. Xiao, L. Ma, C. Zhi, S. M. Chen*. Recent Advances in electrolytes for “beyond aqueous” zinc-ion batteries. Adv. Mater., 2021, 33, 2106409.

2020年

(28) L. Ma, S. Chen, N. Li, Z. Liu, Z. Tang, J. Zapien, S. M. Chen, J. Fan, C. Zhi*. Hydrogen-free and dendrite-free all-solid-state Zn-ion batteries., Adv. Mater., 2020, 32, 1908121.

(29) G. Liang, Y. Wang, Z. Huang, F. Mo, X. Li, Q. Yang, D. Wang, H. Li, S. M. Chen*, C. Zhi*. Initiating hexagonal MoO₃ for superb-stable and fast NH₄⁺ storage based on hydrogen bonds chemistry. Adv. Mater., 2020, 32, 1907802.

(30) X. Wang, K. Wen, T. Chen, S. M. Chen*, S. Zhang^*. Supercritical fluid-assisted preparation of Si/CNTs@FG composites with hierarchical conductive networks as a high-performance anode material. Appl. Surf. Sci., 2020, 522, 146507.

(31) L. Liu, X. Wang, X. Zhang, X. Zhang, S. M. Chen*. Ionic liquid electrodeposition of Ge nano-film on Cu wire mesh as stable anodes for lithium-ion batteries. Ionics, 2020, 26, 2225-2231.

(32) L. Liu, W. Gao, Y. Cui, S. M. Chen*. A bifunctional additive bi(4-flurorophenyl) sulfone for enhancing the stability and safety of nickel-rich cathode based cells. J. Alloy. Compd., 2020, 820, 153069.

(33) S. Gu, Y. Cui, K. Wen, S. M. Chen*, J. Zhao*. 3-cyano-5-fluorobenzenzboronic acid as a novel electrolyte additive to enhance the electrochemical performance of LMR/Li half-cells at high voltage. J. Alloy. Compd., 2020, 829, 154491.

(34) L. Liu, S. Gu, S. Wang, X. Zhang, S. M. Chen*. A LiPO₂F₂/LiPF₆ dual-salt electrolyte enabled stable cycling performance of nickel-rich lithium ion batteries. RSC Adv., 2020, 10, 1704.

(35) R. Wang, D. Feng, T. Chen, S. M. Chen*, Y. Liu*, Mussel-inspired polydopamine treated Si/C electrode as high-performance anode for lithium-ion batteries. J. Alloy. Compd., 2020, 825, 154081.

(36) Z. Yi, S. Jiang, J. Tian, Y. Qian, S. M. Chen, S. Wei, N. Lin*, Y. Qian*, Amidation-dominated re-assembly strategy for single-atom design/nano-engineering: constructing Ni/S/C nanotubes with fast and stable K-storage. Angew. Chem. Int. Ed., 2020, 59, 6459-6465.

(37) Y. Chen, K. Wen, T. Chen, X. Zhang, M. Armand, S. M. Chen*, Recent progress in all-solid-state lithium batteries: The emerging strategies for advanced electrolytes and their interfaces. Energy Storage Mater., 2020, 31, 401-433.

(38) K. Wen, X. Tan, T. Chen, S. M. Chen*, S. Zhang. Fast Li-ion transport and uniform Li-ion flux enabled by a double–layered polymer electrolyte for high performance Li metal battery. Energy Storage Mater., 2020, 32, 55-64.

(39) Z. Hu, X. Zhang, S. M. Chen*, A graphene oxide and ionic liquid assisted anion-immobilized polymer electrolyte with high ionic conductivity for dendrite-free lithium metal batteries. J. Power Source. 2020, 477, 228754.

(40) D. Feng, S. M. Chen*, R. Wang, T. Chen, S. Gu, J. Su, T. Dong, Y. Liu*. Mixed lithium salts electrolyte improves the high-temperature performance of nickel-rich based lithium-ion batteries. J. Electrochem. Soc., 2020, 167, 110544.

(41) Y. Cui, Y. Wang, S. Gu, C. Qian, T. Chen, S. M. Chen*, J. Zhao*, S. Zhang*, An effective interface-regulating mechanism enabled by non-sacrificial additives for high-voltage nickel-rich cathode. J. Power Source, 2020, 453, 227852.

(42) S.Yang, C. Li, Y. Wang, S. M. Chen*, M. Cui, X. Bai, C. Zhi^∗, H. Li. Suppressing surface passivation of bimetallic phosphide by sulfur for long-life alkaline aqueous zinc batteries. Energy Storage Mater., 2020, 33, 230-238.

(43) Z. Yi, D. Fang, W. Zhang, J. Tian, S. M. Chen*, J. Liang*, Ning Lin*, Y. Qian*. Revealing quasi-1D volume expansion in Na-/K-ion battery anodes: a case study of Sb₂O₃ microbelts. CCS Chem., 2020, 2, 1306-1315.

(44) S. Wan, S. M. Chen*. A dithiol-based new electrolyte additive for improving electrochemical performance of NCM811 lithium ion batteries. Ionics, 2020, 26, 6023-6033.

(45) L. Liu; J. Yu; X. Zhang; S. M. Chen*. Single-crystalline germanium nanotetrahedrons with high-active exposed facets for high-performance lithium storage. J. Nanoelectron. Optoe., 2020, 15, 607-1612.

2019年

(46) Q. Yang, F. Mo, Z. Liu, L. Ma, X. Li, D. Fang, S. M. Chen*, S. Zhang*, C. Zhi*, Activating C-coordinated iron of iron hexacyanoferrate for Zn hybrid-ion batteries with 10000-cycle lifespan and superior rate capability. Adv. Mater., 2019, 1901521. 

(47) D. Fang, Y. Wang, C. Qian, X. Liu, X. Wang, S. M. Chen*, S. J. Zhang*. Synergistic regulation of polysulfides conversion and deposition by MOF-derived hierarchically ordered carbonaceous composite for high-energy lithium-sulfur batteries. Adv. Funct. Mater., 2019, 1900875. 

(48) D. Fang, Y. Wang, X. Liu, J. Yu, C. Qian, S. M. Chen*, X. Wang, S. J. Zhang*. Spider-web-inspired nanocomposite modified separator: structural and chemical cooperativity inhibiting the shuttle effect in Li-S batteries. ACS Nano, 2019, 13, 1563-1573.

(49) L. Liu, S. Wang, Z. Zhang, J. Fan, W. Qi, S. M. Chen*. Fluoroethylene carbonate as an electrolyte additive for improving interfacial stability of high-voltage LiNi_0.6Co_0.2Mn_0.2O₂ cathode. Ionics, 2019, 25, 1035-1043.

(50) J. Yu, Y. Wang, C. Zhao, S. M. Chen*, S. Zhang*, 3D molecular cantilever based on interfacial self-assembly and cobra-like actuation of long-chain imidazolium ionic liquids. Nanoscale, 2019, 11, 7277-7286.

(51) X. Wen, T. Dong, A. Liu, S. Zheng, S. M. Chen, Y. Han, S. Zhang*, A new solid-state electrolyte based on polymeric ionic liquid for high-performance supercapacitor. Ionics 2019, 25, 241-251.

(52) S. Wang, S. M. Chen*, W. Gao, L. Liu*, S. Zhang*, A new additive 3-Isocyanatopropyltriethoxysilane to improve electrochemical performance of Li/NCM622 half-cell at high voltage. J. Power Source 2019, 423, 90-97.

(53) Q. Yang, Z. Huang, X. Li, Z. Liu, H. Li, G. Liang, D. Wang, Q. Huang, S. Zhang, S. M. Chen*, C. Zhi*, A wholly degradable, rechargeable ZnTi₃C₂ MXene capacitor with superior anti-self-discharge function. ACS Nano. 2019, 13, 8275-8283.

(54) L. Ma, N. Li, C. Long, B. Dong, D. Fang, Z. Liu, Y. Zhao, X. Li, J. Fan, S. M. Chen*, S. J. Zhang*, C. Zhi*. Achieving both high voltage and high capacity in aqueous zinc-ion battery for record high energy density. Adv. Funct. Mater., 2019, 29, 1906142.

(55) J. Yu, Y. Wang, L. Kong, S. M. Chen*, S. J. Zhang*, Neuron-mimic smart electrode: A two-dimensional multi-scale synergistic strategy for densely packed and enhanced rate lithium storage. ACS Nano 2019, 13, 9148-9160.

2018年

(56) J. Yu, Y. Wang, L. H. Mou, D. L. Fang, S. M. Chen*, S. J. Zhang*. Nature-inspired 2D-mosaic 3D-gradient mesoporous framework: Bimetal oxide dual-composite strategy toward ultrastable and high-capacity lithium storage. ACS Nano, 2018, 12, 2035-2047.

(57) S. Su, S. M. Chen*, C. Fan*. Recent advances in two-dimensional nanomaterials-based electrochemical sensors for environmental analysis. Green Energy Environ., 2018, 3, 97-106. 

(58) K. H. Wen, L. L. Liu, S. M. Chen*, S. J. Zhang*. A bidirectional growth mechanism for stable lithium anode by platinum nanolayer sputtered on polypropylene separator. RSC Adv., 2018, 8, 13034-13039.

(59) H. Lang, Q. Wang, X. Tu, S. M. Chen*. Template-free preparation of spherical Al particles in aluminum chloride and 1-butyl-3-methylimidazolium chloride ionic liquid. Ionics, 2018, 24, 1781–1788.

(60) D. Fang, S. M. Chen*, X. Wang, Y. Bando, D. Golberg, S. Zhang*. ZnS quantum dots@multilayered carbon: geological-plate-movement-inspired design for high-energy Li-ion batteries. J. Mater. Chem. A, 2018, 6, 8358-8365.

(61) S. M. Chen*, K. Wen, J. Fan, Y. Bando, D. Golberg. Progress and future prospects of high-voltage and high-safety electrolytes in advanced lithium batteries: from liquid to solid electrolytes. J. Mater. Chem. A, 2018, 6, 11631–11663.

(62) K. Wen, Y. Wang, S. M. Chen*, X. Wang, S. Zhang*, L. A. Archer. A solid-liquid electrolyte as nano-ion-modulator for dendrites free lithium anodes. ACS Appl. Mater. Interfaces, 2018, 10, 20412-20421.

(63) Y. Kang*, S. M. Chen*, Q. Wang, H. Lang, C. Jia, B. Zhang. Solvation effect of [Bmim]Cl/AlCl₃ ionic liquid electrolyte. Ionics, 2019, 25, 163-169.

(64) X. Li, S. M. Chen*, J. Fan, Z. Hu*, S. Zhang*. Double-confined sulfur inside compressed nickel foam and pencil-plating graphite for lithium–sulfur battery. Ind. Eng. Chem. Res., 2018, 57, 4880–4886.

(65) Y. Wang, W. Tian*, F. Cao, D. Fang, S. M. Chen, L. Li*. Boosting PEC performance of Si photoelectrodes by coupling bifunctional CuCo hybrid oxide cocatalysts. Nanotechnology, 2018, 29, 425703.

(66) J. Fan, T. Dong, D. Fang, X. Li, X. Mo, K. Wen, S. M. Chen*, S. Zhang*. A lithium salt additive Li₂ZrF₆ for enhancing the electrochemical performance of high-voltage LiNi_0.5Mn_1.5O₄ cathode. Ionics, 2018, 24, 2965-2972.

(67) Y. Song, F. Huo, Y. Jiang, S. Zhang*, S. M. Chen*. In situ tracking of organic reactions at the vapor/liquid interfaces of ionic liquids. ChemPhysChem, 2018, 19, 2741-2750.

(68) L. Liu, C. Du, S. Wang, S. M. Chen*. Three new bifunctional additives for safer nickel-cobalt-aluminum based lithium ion batteries. Chinese Chem. Lett., 2018, 29, 1781–1784.

(69) B. Liu, H. Lu, G. Chu, F. Luo, J. Zheng, S. M. Chen, H. Li*. Size effect of Si particles on the electrochemical performances of Si/C composite anodes. Chin. Phys. B, 2018, 27, 088201.

2017年

(70) J. Yu, S. M. Chen*, X. Liu, S. J. Zhang*. Ternary nanoarray electrode with corn-inspired hierarchical design for synergistic lithium storage. Nano Res., 2017, 10, 172-186.

(71) H. Lang, J. L. Zhang, Y. Kang, S. M. Chen*, S. J. Zhang*. Effects of lithium bis(oxalato)borate on electrochemical stability of [Emim][Al₂Cl₇] ionic liquid for aluminum electrolysis. Ionics, 2017, 23, 959-966

(72) Y. Yang, D. Tang, C. Zhang, Y. Zhang, Q. Liang*, S. M. Chen, Q. Weng, M. Zhou, Y. Xue, J. Liu, J. Wu, Q. Cui, C. Lian, G. Hou, F. Yuan, Y. Bando, D. Golberg, X. Wang*. Protrusions or holes in graphene: which is the better choice for sodium ion storage? Energy Environ. Sci., 2017, 10, 979-986c.

(73) Y. Song, L. Cao, J. Yu, S. Zhang *, S. M. Chen*, Y. Jiang*. Amino-functionalized graphene oxide blend with monoethanolamine for efficient carbon dioxide capture. J. Alloy. Compd., 2017, 704, 245-253.

(74) L. Liu, L. Mou, J. Yu, S. M. Chen*. Urchin-like CoO–C micro/nano hierarchical structures as high performance anode materials for Li-ion batteries. RSC Adv., 2017, 7, 2637-2643.

(75) L. Mou, J. Yu, L. Liu, S. M. Chen*. Facile fabrication of layer-cake-like nano-micro hierarchical structure for high performance Li storage. RSC Adv., 2017, 7, 28548-28555.

(76) L. Liu, S. M. Chen*. Geometries and electronic states of divacancy defect in finite-size hexagonal graphene flakes. J. Chemistry, 2017, 2017, 7.

(77) J. An, L. Shi, G. Chen*, M. Li, H. Liu, S. Yuan, S. M. Chen, D. Zhang*. Insights into stable layered structure of Li-rich cathode material for lithium-ion batteries. J. Mater. Chem. A, 2017, 5, 19738-19744.

2016年即以前

(78) Y. Jia, S. M. Chen*, W. J. Hao, S. J. Zhang*. Fibrous-root-inspired design and lithium storage applications of a Co−Zn binary synergistic nanoarray system. ACS Nano., 2016, 10, 2500-2508.

(79) J. L. Zhang, S. M. Chen, H. T. Zhang, S. J. Zhang*, X. Yao, Z. H. Shi. Electrodeposition of crystalline silicon directly from silicon tetrachloride in ionic liquid at low temperature. RSC Adv., 2016, 6, 12061-12067.

(80) F. Jiang, C. Li, H. Fu, X. Guo, G. Wu*, S. M. Chen*. Probing the spontaneous reduction mechanism of platinum ions confined in the nanospace by X-ray absorption fine structure spectroscopy. Phys. Chem. Chem. Phys., 2016, 18, 19259.

(81) X. H. Zhang, S. M. Chen *, J. Yu, D. L. Fang, S. J. Zhang*. A double-layered Ge/carbon cloth integrated anode for high performance lithium ion batteries. RSC Adv., 2016, 6, 63414.

(82) W. W. Li, S. M. Chen, J. Yu, D. L. Fang, B. Ren*, S. J. Zhang*. In-situ synthesis of interconnected SWCNT/OMC framework on silicon nanoparticles for high performance lithium-ion batteries. Gree.n Energy. Environ., 2016, 1, 91-99.

(83) J. Guo, Y. Cai, S. Zhang*, S. M. Chen, F. Zhang*. Core–shell structured o-LiMnO₂@Li₂CO₃ nanosheet array cathode for high-performance, wide-temperature-tolerance lithium-ion batteries. ACS Appl. Mater. Interfaces, 2016, 8, 16116-16124.

(84) Q. Liu, F. Cao, F. Wu, S. M. Chen, J. Xiong, L. Li*. Partial ion exchange derived 2D Cu–Zn–In–S nanosheets as sensitizers of 1D TiO₂ nanorods for boosting solar water splitting. ACS Appl. Mater. Interfaces, 2016, 8, 26235-26243.

(85) L. Zhang, K. Dong, S. M. Chen, S. Zhang*. Novel ionic liquid based electrolyte for double layer capacitors with enhanced high potential stability. Sci. China Chem. 2016, 59, 547-550.

(86) C. Liao, Q. Xu, C. Wu, D. Fang, S. M. Chen*, J. Luo, L. Li*. Core-shell nano-structured carbon composites based on tannic acid for lithium-ion batteries. J. Mater. Chem. A, 2016, 4, 17215–17224.  

(87) F. Jiang, C. Li, X. Guo, H. Fu, G. Wu*, S. M. Chen*. Crystallization and temperature-dependent structure deflection of C₆mimBr ionic liquid intercalated in LAPONITE. RSC Adv., 2016, 6, 98018–98025.

(88) J. L. Guo, W. H. Zuo, Y. J. Cai, S. M. Chen, S. J. Zhang*, J. P. Liu*. A novel Li₄Ti₅O₁₂-based high-performance lithium-ion electrode at elevated temperature. J. Mater. Chem. A., 2015, 3, 4938-4944.

(89) T. Dong, S. J. Zhang*, L. Zhang, S. M. Chen, X. M. Lu. Improving cycling performance of LiMn₂O₄ battery by adding an ester functionalized ionic liquid to electrolyte. Aust. J. Chem., 2015, 68, 1911-1917.  

(90) T. Dong, L. Zhang, S. M. Chen, X. M. Lu, S. J. Zhang*. A piperidinium-based ionic liquid electrolyte to enhance the electrochemical properties of LiFePO₄ battery. Ionics, 2015, 21, 2109-2117.  

(91) F. L. Jiang, C. Li, H. Y. Fu, C. Y. Wang, X. J. Guo, Z. Jiang, G. Z. Wu*, S. M. Chen*. Temperature-induced molecular rearrangement of an ionic liquid confined in nanospaces: an in situ Xray absorption fine structure study. J. Phys. Chem. C., 2015, 119, 22724-22731.

(92) X. Y. Liu, S. M. Chen, J. Yu, W. L. Zhang, Y. J. Dai*, S. J. Zhang*. Ni-enhanced Co₃O₄ nanoarrays grown in situ on a Cu substrate as integrated anode materials for high-performance Li-ion batteries. RSC Adv., 2015, 5, 7388-7394.

(93) X. R. Guan, L. N. Wang, J. Yu, Y. C. Li, S. M. Chen*, S. J. Zhang*. A self-assembled Si/SWNT 3D-compositenanonetwork as a high-performance lithium ion battery anode. RSC. Adv., 2015, 5, 97289-97294.

(94) L. L. Liu, S. M. Chen*. Theoretical study on cyclopeptides as the nanocarriers for Li⁺, Na⁺, K⁺ and F⁻, Cl⁻, Br⁻. J. Nanomater., 2015, 4, 1-7.

(95) L. L. Liu, Q. M. Qing, Y. B. Wang, S. M. Chen*. Defects in graphene: generation, healing, and their effects on the properties of graphene: A review. J. Mater. Sci. Technol., 2015, 31, 599-606.

(96) M. Leng, S. M. Chen, J. L. Zhang, H. Y. Lang, Y. H. Kang, S. J. Zhang*. Effects of organic additives containing carbonyl group on electrodeposition of al from AlCl₃-[Emim]Cl ionic liquid. Huaxue Xuebao, 2015, 73, 403-408.

(97) S. M. Chen*, S. L. Liang, H. W. Sun, J. Sun, B. W. Lu. Nanomaterials for renewable energy. J. Nanomater., 2015, 2015, 143697-1-2.

(98) S. M. Chen, S. J. Zhang*, X. M. Liu, J. Q. Wang, Wang, K. Dong, J. Sun, B.H. Xu. Ionic liquid clusters: structure, formation mechanism, and effect on the behavior of ionic liquids. Phys. Chem. Chem. Phys., 2014, 16, 5893-5906.

(99) C. F. Zhao, B. Z. Ren, Y. T. Song, J. L. Zhang, L. C. Wei, S. M. Chen*, S. J. Zhang*. Immobilization and molecular rearrangement of ionic liquids on the surface of carbon nanotubes. RSC Adv., 2014, 4, 16267-16273.

(100) W. J. Hao, S. M. Chen, Y. J. Cai, L. Zhang, Z. X. Li, Zeng*, S. J. Zhang*. Three-dimensional hierarchical pompon-like Co₃O₄ porous spheres for high-performance lithium-ion Batteries. J. Mater. Chem. A., 2014, 2, 13801-13804.

(101) Y. Song, H. Yang, Y. Wang, S. M. Chen, D. Li, S. Zhang*, X. Zhang*. Controlling the assembly of graphene oxide by an electrolyte-assisted approach. Nanoscale, 2013, 5, 6458-6463.

(102) Y. F. Li*, Y. Wang, S. M. Chen, H. F. Wang, T. Kaneko. Electrical transport properties of boron-doped single-walled carbon nanotubes. J. Appl. Phys. 2013, 113, 054313.

(103) Z. Wang, Y. Cai, T. Dong, S. M. Chen, X. Lu*. Triethylbutylammonium bis(trifluoromethanesulphonyl) imide ionic liquid as an effective electrolyte additive for Li-ion batteries. Ionics, 2013, 19, 887-894.

(104) C. Li, X. Guo, Y. He, Z. Jiang, Y. Wang, S. M. Chen, H. Fu, Y. Zou, S. Dai, G. Wu*, H. Xu. Compression of ionic liquid when confined in porous silica nanoparticles. RSC Adv., 2013, 3, 9618–9621.

(105) Z. N. Wang, Y. J. Cai, Z. H. Wang, S. M. Chen, X. M. Lu*, S, J. Zhang*. Vinyl-functionalized imidazolium ionic liquids as new electrolyte additives for high-voltage Li-ion batteries. J. Solid State Electr., 2013, 17, 2839-2848.

(106) L. Huang, W. Huang, H. Fu, G. Wu*. Z. Guo, W, Wu, S. M. Chen. Influence of FeCl₃ on radiation stability of ionic liquid BmimCl. Chin. Sci. Bull. 2013, 58, 1150-1155.

(107) S. M. Chen*, L. Li*, X. Wang*, W. Tian, X. Wang, Y. Bando, D. Golberg. Dense and vertically-aligned centimetre-long ZnS nanowire arrays: ionic liquid assisted synthesis and their field emission properties. Nanoscale, 2012, 4, 2658-2662.

(108) S. M. Chen, Y. Liu, H. Fu, Y. He, C. Li, W. Huang, Z. Jiang, G. Wu*. Unravelling the role of the compressed gas on melting point of liquid confined in nanospace. J. Phys. Chem. Lett. 2012, 3, 1052-1055.

(109) Li. Li*, S. M. Chen*, X. Wang, Y. Bando, D. Golberg. Nanostructured solar cells harvesting multi-type energies. Energy Environ. Sci., 2012, 5, 6040-6046.

(110) B. Lu*, S. M. Chen*, K. Kawamoto. Direct hydrothermal synthesis of nanosized mesoporous ramsdellite manganese oxide with high surface area. Mater. Res. Bull., 2012, 47, 3619-3624.

(5) W. Tian*, C. Zhi*, T. Zhai*, S. M. Chen, W. Xi, Y. Bando, Dmitri Golberg. In-doped Ga₂O₃ nanobelt based photodetector with high sensitivity and wide-range photoresponse. J. Mater. Chem., 2012, 22, 17984-17991.

(6) W. Tian*, C. Zhi*, T. Zhai, X. Wang, M., Liao, S. Li, S. M. Chen, Y. Bando, D. Golberg. Ultrahigh quantum efficiency of CuO nanoparticle decorated In₂Ge₂O₇ nanobelt deep-ultraviolet detectors Nanoscale, 2012, 4, 6318-6324.

(7) X. Wang*, X. Cao, L. Bourgeois, H. Guan, S. M. Chen, Y. Zhong, D. Tang, H. Li, T. Zhai, L. Li, Y. Bando, D. Golberg. N-doped graphene-SnO₂ sandwich paper for high-performance lithium-ion batteries. Adv. Funct. Mater., 2012, 22, 2682-2690.

(1) S. M. Chen, K. Kobayashi, R. Kitaura, Y. Miyata, H. Shinohara*. Direct HRTEM observation of ultrathin ionic liquid film freestanding on carbon nanotube grid. ACS Nano, 2011, 5, 4902-4908.

(2) S. M. Chen, H. Lim, Y. Miyata, R. Kitaura, T. Saito, H. Shinohara*. Transformation of ionic liquid into carbon nanotubes in confined nanospace. Chem. Commun., 2011, 47, 10368-10370.

(3) H. Guan*, X. Wang*, S. M. Chen*, Y. Bando, D. Golberg. Coaxial Cu–Si@C array electrodes for high-performance lithium ion batteries. Chem. Commun., 2011, 47, 12098-12100.

(4) Y. Li, S. M. Chen, T. Kaneko, R. Hatakeyama*. Electrically moving single-stranded DNA into and out of double-walled carbon nanotubes. Chem. Commun., 2011, 47, 2309-2311.  

(5) W. Huang, S. M. Chen, Y. Liu, H. Fu, G. Wu*. Fluoride ion yield and absorption spectral analysis of irradiated imidazolium-based room-temperature ionic liquids. Radiat. Phys. Chem., 2011, 80, 573-577.

(6) W. Huang, S. M. Chen, Y. Liu, H. Fu, G. Wu*. The controlled synthesis of stable gold nanoparticles in quaternary ammonium ionic liquids by simple heating. Nanotechnology., 2011, 22, 025602.

(7) X. Wang*, H. Guan, S. M. Chen, H. Li*, T. Zhai*, D. Tang, Y. Bando, D. Golberg. Self-stacked Co₃O₄ nanosheets for high-performance lithium ion batteries. Chem. Commun., 2011, 47, 12280-12282.

(8) X. Wang*, Y. Zhong, T. Zhai*, Y. Guo*, S. M. Chen, Y. Ma, J. Yao, Y. Bando, D. Golberg. Multishelled Co₃O₄-Fe₃O₄ hollow spheres with even magnetic phase distribution: Synthesis, magnetic properties and their application in water treatment. J. Mater. Chem., 2011, 21, 17680-17687.

(1) W. Huang, S. M. Chen, H. Fu, G. Wu*. Improvemen of radiation resistancet and an estimate of solvated electron yield of the ionic liquid [Bmim]Cl by the addition of FeCl₃. Radiat. Res., 2010, 174, 650-657.

(2) Y. Liu, G. Wu*, H. Fu, Z. Jiang, S. M. Chen, M. Sha Z. Tang. Imoblization of [Emim][PF₆] ionic liquid on the surface nano-SiO_x. Dalton Trans., 2010, 39, 3190-3194.

(3) N. Karousis, T. Ichihashi, S. M. Chen, H. Shinohara, M. Yudasaka, S. Iijima, N. Tagmatarchis*. Imidazolium modified carbon nanohorns: switchable solubility and stabilization of metal nanoparticles. J. Mater. Chem., 2010, 20, 2959-2964.

(1) S. M. Chen, K. Kobayashi, Y. Miyata, N. Imazu, T. Saito, R. Kitaura, H. Shinohara*. Morphology and melting behavior of ionic liquids inside single-walled carbon nanotubes. J. Am. Chem. Soc., 2009, 131, 14850-14856.

(2) Y. Liu, S. M. Chen, L. Zhong, G. Wu*. Preparation of high-stable silver nanoparticle dispersion by using sodium alginate as a stabilizer under gamma radiation. Radiat. Phys. Chem., 2009, 78, 251-255.

(3) Y. Zou, H. Xu*, G. Wu*, Z. Jiang, S. M. Chen, Y. Huang, W. Huang, X. Wei. Structural analysis of [ChCl]_m[ZnCl₂]_n ionic liquid by X-ray absorption fine structure spectroscopy. J. Phys. Chem. B, 2009, 113, 2066-2070.

(4) Z. Xing, S. Huang, G. Wu*, S. M. Chen. Preparation of microcellular cross-linked polyethylene foams by a radiation and supercritical carbon dioxide approach. J. Supercrit. Fluids., 2008, 47, 281-289.

(5) M. Sha, F. Zhang, G. Wu*, H. Fang, S. M. Chen, Y. Zhang*, J. Hu. Ordering layers of [Bmim][PF₆] ionic liquid on graphite surfaces: Molecular dynamics simulation. J. Chem. Phys., 2008, 128, 134504.

(6) Q. Li, Y. Luo, G. Wu*, S. M. Chen. Rheological properties of gamma irradiated [Me₃NC₂H₄OH][Zn₂Cl₅] and [Me₃NC₂H₄OH][Zn₃Cl₇] ionic liquids. J. Central South Univ. Tech., 2008, 15, 145-148.

(7) X. Wang, G. Wu*, S. M. Chen. Grafting of acrylic acid onto polytetrafluoro- ethylene (PTFE) micropowder via pre-irradiation. J. Nucl. Radiochem., 2008, 30, 238-242.

(8) S. M. Chen, G. Wu*, M. Sha, S. Huang. Transition of ionic liquid [Bmim][PF₆] from liquid to high-melting-point crystal when confined in multi-walled carbon nanotubes. J. Am. Chem. Soc., 2007, 129, 2416-2417.

(9) H. Zhu, L. Mi, S. M. Chen, W. Wang*, S. Yao. Study on the interaction of colloidal gold with Taq DNA polymerase. Chin. J. Chem., 2007, 25, 1233-1237.

(10) S. Huang, G. Wu*, S. M. Chen. Preparation of open cellular PMMA microspheres by supercritical carbon dioxide foaming. J. Supercrit. Fluids., 2007, 40, 323-329. 

(11) D. Long, G. Wu*, S. M. Chen. Preparation of oligochitosan stabilized silver nanoparticles by irradiation. Radiat. Phys. Chem., 2007, 76, 1126-1131.

(12) M. Qi, G. Wu*, S. M. Chen, Y. Liu. Radiolysis of ionic liquid 1-butyl-3- methylimidazolium hexafluorophosphate. Radiat. Res., 2007, 167, 508-514.

(13) S. Huang, G. Wu*, S. M. Chen. Formation of microporous PVDF membranes by precipitating the casting film in supercritical carbon dioxide. J. Membr. Sci., 2007, 293, 100-110.

(14) H. Wang*, L. Zhang, F. Zhang, H. An, S. M. Chen. Investigation on the morphology of precipitated chemicals from the buffer on solid substrates. Surf. Rev. Lett., 2007, 14, 1121-1128.

(15) S. M. Chen, G. Wu*, Y. Liu, D. Long. Preparation of poly(acrylic acid) grafted multi-walled carbon nanotubes by a two-step irradiation technique. Macromolecules. 2006, 39, 330-334.

(16) S. M. Chen, G. Wu*, D. Chen. An easy approach to hydroxyethylated SWNTs and the high thermal stability of the inner grafted hydroxyethyl groups. Nanotechnology. 2006, 17, 2368-2372.

(17) S. M. Chen, D. Chen*, G. Wu*. Grafting of poly(tBA) and PtBA-b-PMMA onto the surface of SWNTs using carbanions as the initiator. Macromol. Rapid Commun., 2006, 27, 882-887.

(18) H. Zhu, S. M. Chen, S. Hao, Z. Zhang, W. Wang*, S. Yao. Double role of hydroxycinnamic acid derivatives in protection against lysozyme oxidation. Biochim. Biophys. Acta-Gen. Subj., 2006, 1760, 1810-1818.

(19) G. Zhu, J. Xu, G. Wu*, H. Zhu, S. M. Chen, S. Yao. Laser photolysis study of anthraquinone in binary mixtures of ionic liquid [Bmim][PF₆] and organic solvent. Int. J. Mol. Sci., 2006, 7, 590-600.

(20) S. M. Chen, Y. Liu, G. Wu*. Stabilized and size-tunable gold nanoparticles formed in a quaternary ammonium based room temperature ionic liquids under γ-irradiation. Nanotechnology, 2005, 16, 2360-2364. 

(21) S. M. Chen, W. Shen, G. Wu, D. Chen*, M. Jiang. A new approach to the functionalization of single-walled carbon nanotubes with both alkyl and carboxyl groups. Chem. Phys. Lett., 2005, 402, 312-317.

项目：

(1) “Development of High Specific Energy Solid State Lithium Batteries Based on Self Repairing Electrolytes”. The SINOPEC Technology Development Program for SINOPEC BUCT Joint Project of Molecular Chemistry Center, (Grant No. 222230), 0.5 million yuan, 2022/03-2024/12, the project leader.

(2) “Design of Ionic Liquid Solid Electrolyte and Its Application in High Specific Energy Lithium Metal Batteries”. General Project of National Natural Science Foundation of China, (Grant No. 52171198), 0.58 million yuan, 2022/01-2025/12, the project leader.

(3) “Solid State Electrolyte Design and High-Performance Solid-State Battery Device Research and Development”. Fundamental Research Funds for the Central Universities, Bucrc202104, 2 million yuan, 2021/01-2023/12, the project leader.

(4) “Solid State Battery Ionic Liquid Electrolyte Design and Interface Regulation Mechanism”. Natural Science Foundation of Hebei Province for Distinguished Young Scholars, (Grant No. E2020103052), 0.5 million yuan, 2020/09-2023/12, the project leader.

(5) “Design, Regulation and Application of Functional Electrolyte Materials”. The National Science Fund for Excellent Young Scholars, (Grant No.51922099), 1.3 million yuan, 2020/01-2022/12, the project leader.

(6) “Development and Industrialization of 5V High Safety Electrolyte”. Beijing Institute of Collaborative Innovation, 8.6 million yuan, 2018/06-2020/12, the project leader.

(7) “Preparation of New Silicon Carbon Negative Electrode Materials and Development of High-Performance Power Battery New System”. Henan Province Science and Technology Open Cooperation Project, (Grant No.172106000061), 2017/01-2018/12, 0.5 million yuan, the project leader.

(8) “Development of High Specific and Long Life Power Battery and New Supercapacitor Technology”. Sub project of the National Key R&D Plan, (Grant No.2017YBB0102202), 2017/07-2020/12, 0.45 million yuan, the main participant.

(9) “Development of High Safety and High Voltage Resistant Concentrated Electrolytes”. Major Special Project on Science and Technology in Beijing, (Grant No. D171100005617001), 1 million yuan, 2017/01-2018/12, the project leader.

(10) “Research on New Materials and Systems for Advanced Lithium Ion Batteries”. National Key R&D Program Project, (Grant No.2016YFB0100100), 3.2 million yuan, 2016/07-2020/12, the project leader.

(11) “Formation Mechanism and Electric Field Regulation of Mesoscale Structure at Solid-liquid Interface of Ionic Liquids”. National Natural Science Foundation of China, (Grant No.91534109), 2016/01-2018/12, 0.9364 million yuan, the project leader.

(12) “Electrochemical Reaction 3D Mirror Rotation Analyzer”. Scientific Research Equipment Development Project of the Chinese Academy of Sciences, (Grant No. yz201420), 2.96 million yuan, 2015/01-2016/12, the project leader.

(13) “Industrialization Technology Development of High Energy Density and High Safety Power Lithium Batteries and Ionic Liquid Electrolytes”. Zhengzhou Major Science and Technology Special Project, 3 million yuan, 2014/10-2016/09, the project leader.

(14) “Research and Development of Ionic Liquid Electrolyte for Lithium Ferrous Phosphate Power Batteries”. Special Project for the Cultivation and Development of Beijing Science and Technology Innovation Base, (Grant No. Z141109004414073), 0.5 million yuan, 2014/07-2015/06, the project leader.

(15) “Study on the Microscopic Mechanism of Liquid Solid Transition of Imidazole Ionic Liquids Induced by Interface”. General Project of Beijing Natural Science Foundation, (Grant No. 2132054), 0.14 million yuan, 2013/01-2015/12, the project leader.

(16) “Ionic Liquid-based Electrolyte”. The Sub Project of the Strategic Leading Science and Technology Project of the Chinese Academy of Sciences, “Innovative Nano industry Manufacturing Technology Focus”, (Grant No. XDA0901010103), 2013/01-2018/06, 8.59 million yuan, the sub-project leader.

(17) “Transmission Electron Microscopy Research on the Microstructure of Ionic Liquids and Their Lithium-ion Battery Systems”. General Project of the National Natural Science Foundation of China, (Grant No. 21276257), 0.78 million yuan, 2013/01-2016/12, the project leader.

(18) “Research on the Microstructures of Ionic Liquids and Synchronous Radiation of Sr (II) Extraction Systems”. A key project of the National Natural Science Foundation of China, 2.4 million yuan, 2011/11-2014/12, the main participant.

(19) “Using XAFS Method to Analyze the Coordination Structure and Electronic States of Ionic Liquids”. Innovative Frontier Field Project of Shanghai Institute of Applied Physics, Chinese Academy of Sciences, 0.1 million yuan, 2009/04-2010/10, the project leader.

(20) “Research on the Microstructure of Ionic Liquids Inside and on the Surface of Carbon Nanotubes”. Project led by the Japan Association for the Revitalization of Academia, 3 million yen, 2008/04-2010/04, the project leader.

(21) “Research on the Microstructure of Ionic Liquids on Mica and Graphite Surfaces”. The winner of the Dean's Award of the Chinese Academy of Sciences, 10 thousand yuan, 2008/01-2009/12, the project leader.

(22) “High Temperature Radiation Modification and Performance Evaluation of Some Functional Polymer Materials”. Innovation Project of Chinese Academy of Sciences, 0.5 million yuan, 2007/07-2009/06, the main participant.

(23) “Research on Transient Reaction Mechanism in Imidazole Ionic Liquids”. The National Natural Science Foundation of China, 0.3 million yuan, 2007/01-2009/12, the main participant.

(24) “Research on the Reaction Kinetics of Nanoparticles Surface”. The National Natural Science Foundation of China, 80 thousand yuan, 2006/01-2006/12, the main participant.

发明专利

(1)  S. M. Chen; Q. Yu, Q. Guo; S. Li; X. Lu, High voltage electrolyte and sodium ion battery matching vanadium sodium fluorophosphate cathode material, CN116598592A, Aug. 15, 2023.

(2)  S. M. Chen; L. Zhou; Q. Guo; Y. Cheng; W. Wang, Sodium ion electrolyte and battery matching sodium vanadium phosphate cathode and sodium metal anode, CN116581388A, Aug. 11, 2023.

(3)  S. M. Chen; S. Wan; H. Zheng; W. Ma; Y. Xiao, An in-situ test method for particles in electrolyte, CN116223313A, June 6, 2023.

(4)  Y. Xiao; Y. Miao; S. Hu; F. Gong; S. M. Chen, Preparation method and application of carbon-free Fe₇Se8-based sodium storage electrode material, CN115321503B, May 16, 2023.

(5)  J. Su; S. M. Chen; Z. Liu; Y. Lu; L. Guan; Y. Liu, A three-screw extrusion type mixing and stirring device for resin and ultrafine cellulose, CN217891808U, Nov. 25, 2022.

(6)  J. Su; S. M. Chen; Z. Liu; Y. Lu; L. Guan; Y. Liu, A modified cellulose membrane is used for high-temperature lithium-ion battery separator, CN114976473A, Aug. 30, 2022.

(7)  S. M. Chen; S. Wan; W. Ma; Y. Xiao, A lithium or sodium ion battery electrolyte additive and its application, CN114725514A, July 8, 2022.

(8)  J. Su; S. M. Chen; Z. Liu; Y. Lu; L. Guan; Y. Liu, A device for preparing ultrafine cellulose fiber complex, CN216809026U, June 24, 2022.

(9) J. Su; S. M. Chen; Z. Liu; Y. Lu; L. Guan; Y. Liu, A molding equipment for preparing leather-core cellulose composite materials, CN216682890U, June 7, 2022.

(10) J. Su; S. M. Chen; Z. Liu; Y. Lu; L. Guan; Y. Liu, A carbon fiber composite material for resin reinforcement, CN113956542A, Jan. 21, 2022.

(11) Y. Liu; F. Liu; X. Cao; J. Ruan; F. Liu; F. Chai; D. Li; S. M. Chen, Three-dimensional porous silicon carbon material prepared by purifying photovoltaic silicon mud and preparation method, CN112467067B, Oct. 29, 2021.

(12) Y. Liu; F. Liu; X. Cao; C. Shen; S. Wan; J. Ruan; S. M. Chen, S. Zhang, A high-capacity silicon carbon material for a lithium ion battery negative electrode and a preparation method, CN112234182B, Aug. 24, 2021.

(13) S. M. Chen; S. Wang; K. Wen; S. Zhang, Preparation method and application of an electrolyte applied to a lithium ion battery, CN109301328B, Aug. 3, 2021.

(14) S. Zhang; Y. Liu; S. Wang; P. Wang; F. Liu; X. Cao; Y. Liu; S. M. Chen, Preparation method of nitride doped silicon matrix composite material, CN110828805B, June 4, 2021.

(15) Y. Liu; X. Cao; F. Liu; C. Shen; J. Ruan; S. Wang; S. M. Chen, Nanometer silicon material with hydrophobic coating, preparation method and its application, CN112456498A, Mar. 9, 2021.

(16) Y. Liu; F. Liu; X. Cao; J. Ruan; F. Liu; F. Chai; D. Li; S. M. Chen, Three-dimensional porous silicon carbon material prepared by purifying photovoltaic silicon mud and preparation method, CN112467067A, Mar. 9, 2021.

(17) Y. Liu; F. Liu; X. Cao; C. Shen; S. Wan; J. Ruan; S. M. Chen, S. Zhang, Preparation method of a high-capacity silicon carbon material for a lithium battery anode electrode, CN112234182A, Feb. 15, 2021.

(18) S. M. Chen; W. Gao; S. Wang; S. Zhang, A high voltage lithium-ion battery electrolyte additive, CN109216767B, Jan. 1, 2021.

(19) S. M. Chen; D. Feng; Y. Chen; Y. Liu; S. Zhang, Preparation and properties of a high temperature electrolyte for matching lithium iron phosphate battery, CN111769330A, Oct. 13, 2020.

(20) S. M. Chen; R. Wang; Y. Liu; S. Zhang, Preparation and application of a PEO based thin-film coated silicon-carbon electrode, CN110931714A, Mar. 27, 2020.

(21) S. Zhang; Y. Liu; S. Wang; P. Wang; F. Liu; X. Cao; Y. Liu; S. M. Chen, Preparation method of a nitride doped silicon matrix composite material, CN110828805A, Feb. 21, 2020.

(22) S. M. Chen; R. Wang; X. Wang; Y. Liu; S. Zhang, Preparation method and application of an electrode sheet, CN110729456A, Jan. 24, 2020.

(23) S. M. Chen; D. Feng; R. Wang; Y. Liu; S. Zhang, A high temperature resistant electrolyte matching lithium-ion battery with high nickel cathode material, CN110649319A, Jan. 3, 2020.

(24) X. Zhang; S. M. Chen; Y. Song; J. Fan; K. Wen, A simple and efficient method for preparing a positive electrode sheet of a lithium sulfur battery, CN106981624B, Dec. 20, 2019.

(25) S. M. Chen; D. Feng; S. Yan; Y. Liu; S. Zhang, High temperature and high voltage electrolyte matching lithium-ion battery with high nickel cathode material, CN110518288A, Nov. 29, 2019.

(26) S. Zhang; S. M. Chen; X. Wang; R. Wang, Preparation method and application of negative electrode material, CN110474040A, Nov. 19, 2019.

(27) S. M. Chen; Y. Cui; S. Gu; J. Zhao; S. Zhang, Use of an organophosphorus compound, lithium-ion battery electrolyte and lithium-ion battery, CN110429337A, Nov. 8, 2019.

(28) S. M. Chen; X. Li; Y. Song; J. Fan; K. Wen; S. Zhang, Preparation of sulfur-nitrogen double cotton based polyporous carbon in one step, CN107275640B, Nov. 5, 2019.

(29) S. Zhang; S. M. Chen; S. Gu; Y. Cui; J. Zhao, A high voltage electrolyte additive, a high voltage electrolyte comprising the same and a lithium-ion battery, CN110372736A, Oct. 25, 2019.

(30) S. M. Chen; S. Wang; K. Wen; S. Zhang, Preparation method and application of a battery electrolyte and a lithium-ion battery, CN109301328A, Feb. 1, 2019.

(31) S. M. Chen; J. Chen, A method for preparing silicon/mesoporous carbon composite material with a three-dimensional conductive network structure, CN109244380A, Jan. 18, 2019.

(32) S. M. Chen; W. Gao; S. Wang; S. Zhang, A high voltage lithium-ion battery electrolyte additive, CN109216767A, Jan. 15, 2019.

(33) S. M. Chen; J. Chen; A silicon/mesoporous carbon composite material with a three-dimensional conducting network structure, CN109167023A, Jan. 8, 2019.

(34) S. M. Chen; W. Gao; S. Wang; S. Zhang, A dual-function lithium-ion battery electrolyte additive, CN109037780A, Dec. 18, 2018.

(35) Q. Liu; S. M. Chen, A lithium-ion secondary battery containing flame retardant additive electrolyte, CN108336407A, July 27, 2018.

(36) Y. Liu; S. Zhang; F. Liu; L. Qin; J. Ruan; S. M. Chen; L. Ma, Preparation method of a silicon carbon negative electrode material for a power battery, CN108172812A, June 15, 2018.

(37) L. Zhang; S. Zhang; Z. Wang; S. M. Chen; Y. Cai, A coating modification method for lithium titanate and a lithium-ion battery, CN105336939B, June 15, 2018.

(38) L. Zhang; S. M. Chen; K. Dong; Y. Cai; S. Zhang, Electrolyte to prevent gassing issue of spinel lithium titanate lithium-ion secondary battery, CN104600363B, Feb. 2, 2018.

(39) X. Li; S. M. Chen; Y. Song; J. Fan; K. Wen, A simple and efficient method for preparing a positive electrode sheet of a lithium sulfur battery, CN106981624A, July 25, 2017.

(40) Y. Cai; S. Zhang; Z. Wang; T. Ren; S. M. Chen, A lithium-ion battery electrolyte additive, CN106328995A, Jan. 11, 2017.

(41) Y. Kang; S. M. Chen; J. Zhang; Q. Wang; S. Zhang, Preparation method of an ionic liquid electrolyte for bright aluminum coating, CN104294327B, July 13, 2016.

(42) S. M. Chen; W. Li; S. Zhang; Y. Xing; J. Yu, A method for preparing an anode material of lithium-ion battery by compositing silicon, carbon nanotube and mesoporous carbon, CN105355898A, Feb. 24, 2016.

(43) L. Zhang; S. Zhang; Z. Wang; S. M. Chen, Y. Cai, A coating modification method for lithium titanate and its lithium-ion battery, CN105336939A, Feb. 17, 2016.

(44) J. Zhang; S. M. Chen; H. He; J. Gao; Y. Kang; Z. Shi; H. Lang; S. Zhang, Preparation method of aluminum-silicon alloy by mixed chlorination of aluminum-containing mineral and fly ash via low temperature electrolysis, CN103572323B, Sep. 30, 2015.

(45) Z. Shi; J. Li; S. M. Chen; H. He; H. Lang; M. Leng; S. Zhang, Preparation method of an elemental silicon by electrodeposition in ionic liquid, CN104928704A, Sep. 23, 2015.

(46) S. Zhang; J. Zhang; S. M. Chen; K. Dong; H. Zhang; H. Lang; J. Gao, Preparation method of crystalline silicon by direct electrolysis in ionic liquid at low temperature, CN104746130A, July 1, 2015.

(47) L. Zhang; S. M. Chen; K. Dong; Y. Cai; S. Zhang, Electrolyte to prevent gas distention of spinel lithium titanate lithium ion secondary battery, CN104600363A, May 6, 2015.

(48) S. M. Chen; X. Chen; W. Zhang; S. Zhang; J. Zhang; W. Hao; Y. Song, A two-step method for synthesizing nanometer Ni₂O₃/Co₃O₄ negative electrode material on copper sheet collector, CN104009208A, Aug. 27, 2014.

(49) Y. Song; H. Yang; S. M. Chen; X. Zhang; S. Zhang, Preparation method of graphene oxide microspheres, CN102815697B, July 2, 2014.

(50) W. Hao; Z. Li; S. M. Chen, A method for growing nano-zinc cobaltate on a copper mesh collector and directly applying it to the negative electrode of a lithium-ion battery, CN103762336A, Apr. 30, 2014.

(51) Y. Song; H. Yang; S. M. Chen; X. Zhang; S. Zhang, Preparation method of graphene oxide microspheres, CN102815697A, Dec. 12, 2012.