王琳琳

    姓名:王琳琳

    职务/职称:副教授

    邮箱: wlinlin@shu.edu.cn

    电话:021-96928188


    研究领域:新型能源存储与转换器件


    代表性学术论文:

    [1] Flexible Free-Standing Fe-CoP-NAs/CC Nanoarrays for High-Performance Full Lithium-ion Batterie. J. Colloid Interf. Sci., 2024, 659, 868-877. (IF= 9.965)

    [2] Oxygen defect engineering and amphipathic molecules intercalation co-boosting fast kinetics and stable structure of Sdoped (NH4)2V10O25•8H2O free-standing cathode for aqueous Zn-ion storage. Nano Energy, 2024, 122, 109301. (IF= 17.600)

    [3] Recyclable fabrication of hollow N-doped amorphous carbon nanospindles with abundant short-range curved carbon fragments as bifunctional anode for lithium/sodium ion storage. J. Colloid Interf. Sci., 2024, 659, 868-877. (IF= 9.965)

    [4] Oxygen defects engineering and structural strengthening of hydrated vanadium oxide cathode by coating glucose hydrothermal carbon and pre-embedding Mn (II) ion for high-capacity aqueous zinc ion batteries. J. Colloid Interf. Sci., 2024, 654, 279-288. (IF= 9.965)

    [5] Photodeposition synthesis of hollow g-C3N4/Ag nanotubes with high oxidation properties to enhance visible-light photocatalytic performance. Mater. Res. Bull., 2024, 172, 112658. (IF= 5.400)

    [6] Band engineering enhances the electrochemical properties by constructing TiO2 NRs-MoS2 NSFs flexible electrode. J. Colloid Interf. Sci., 2023, 650, 892-900. (IF= 9.965)、

    [7] Self-assembled synthesis of recyclable g-C3N4/NH2-MIL-53(Fe) aerogel for enhanced photocatalytic degradation of organic pollutants. J. Alloys Compd., 2023, 946, 169391. (IF= 6.371)

    [8] Bimetallic flower-like NiCoP encapsulated in an N-doped carbon shell with enhanced lithium storage properties. Batteries-Basel 2023, 9, 361 (12 pages). (IF= 4.000)

    [9] Prussian blue and its analogues as cathode materials for Na-, K-, Mg-, Ca-, Zn- and Al-ion batteries. Nano Energy, 2022, 99, 107424. (IF= 17.600)

    [10] FeP Coated in Nitrogen/Phosphorus Co-doped Carbon Shell Nanorods Arrays as High-Rate Capable Flexible Anode for K-ion Half/Full Batteries. J. Colloid Interf. Sci., 2022, 624, 670-679. (IF= 9.965)

    [11] Electronic synergy to boost the performance of NiCoP-NWs@FeCoP-NSs anodes for flexible lithium-ion batteries. Nanoscale, 2022, 14, 8398-8408. (IF= 6.700)

    [12] N/O co-doped carbon nanocapsule anodes for high rate-performance K-ion batteries. Funct. Mater. Lett. 2022, 15, 2250016. (IF= 1.300)

    [13] Sodium superionic conductors (NASICONs) as cathode materials for sodium-ion batteries. Electrochem. Energy Rev., 2021, 4, 793-823. (IF= 31.300)

    [14] Carbon-decorated Na3V2(PO4)3 as ultralong lifespan cathodes for high-energy-density symmetric sodium-ion batteries. Acs Appl. Mater. Inter., 2021, 13, 25036-25043. (IF=9.500)

    [15] N/O Codoped hollow carbon nanocapsules-supported Ge nanoparticles as anodes for excellent performance lithium-ion batteries. Int. J. Electrochem. Sci., 2021, 16, 211035. (IF=1.500)

    [16] 3D branched rutile TiO2@rutile SnO2 nanorods array heteroarchitectures/carbon cloth with an adjustable band gap to enhance lithium storage reaction kinetics for flexible lithium-ion batteries. Electrochim. Acta, 2020, 354, 13667. (IF= 6.600)

    [17] Ni2P nanoparticle-incorporated reduced graphene oxide & carbon nanotubes to form flexible free-standing intertwining network film anodes for long-life sodium-ion storage. J. Mater. Sci., 2020, 55, 14491-14500. (IF= 4.500)

    [18] ZnO@TiO2 heterostructure arrays/carbon cloth by charge redistribution enhances performance in flexible anode for Li ion batteries. Electrochim. Acta, 2019, 295, 107-112. (IF= 6.600)

    [19] Ultra-high performance of Li/Na ion batteries using N/O dual dopant porous hollow carbon nanocapsules as an anode. J. Mater. Chem. A, 2019. 18, 11117-11126. (IF= 11.900)

    [20] Design of rugby-like GeO2 grown on carbon cloth as a flexible anode for high-performance Lithium-Ion Batteries. J. Nanosci. Nanotech., 2019, 19, 263-267. (IF= 1.134)

    [21] TiO2 nanotubes array on carbon cloth as a flexibility anode for sodium-ion batteries. J. Nanosci. Nanotech., 2019, 19, 226-230. (IF= 1.134)

    [22] High-indexed PtNi alloy skin spiraled on Pd nanowires for highly efficient oxygen reduction reaction catalysis, Small, 2019, 1900288. (IF= 13.300)


    (最后更新日期:2024.4.16)

    王琳琳

      姓名:王琳琳

      职务/职称:副教授

      邮箱: wlinlin@shu.edu.cn

      电话:021-96928188


      研究领域:新型能源存储与转换器件


      代表性学术论文:

      [1] Flexible Free-Standing Fe-CoP-NAs/CC Nanoarrays for High-Performance Full Lithium-ion Batterie. J. Colloid Interf. Sci., 2024, 659, 868-877. (IF= 9.965)

      [2] Oxygen defect engineering and amphipathic molecules intercalation co-boosting fast kinetics and stable structure of Sdoped (NH4)2V10O25•8H2O free-standing cathode for aqueous Zn-ion storage. Nano Energy, 2024, 122, 109301. (IF= 17.600)

      [3] Recyclable fabrication of hollow N-doped amorphous carbon nanospindles with abundant short-range curved carbon fragments as bifunctional anode for lithium/sodium ion storage. J. Colloid Interf. Sci., 2024, 659, 868-877. (IF= 9.965)

      [4] Oxygen defects engineering and structural strengthening of hydrated vanadium oxide cathode by coating glucose hydrothermal carbon and pre-embedding Mn (II) ion for high-capacity aqueous zinc ion batteries. J. Colloid Interf. Sci., 2024, 654, 279-288. (IF= 9.965)

      [5] Photodeposition synthesis of hollow g-C3N4/Ag nanotubes with high oxidation properties to enhance visible-light photocatalytic performance. Mater. Res. Bull., 2024, 172, 112658. (IF= 5.400)

      [6] Band engineering enhances the electrochemical properties by constructing TiO2 NRs-MoS2 NSFs flexible electrode. J. Colloid Interf. Sci., 2023, 650, 892-900. (IF= 9.965)、

      [7] Self-assembled synthesis of recyclable g-C3N4/NH2-MIL-53(Fe) aerogel for enhanced photocatalytic degradation of organic pollutants. J. Alloys Compd., 2023, 946, 169391. (IF= 6.371)

      [8] Bimetallic flower-like NiCoP encapsulated in an N-doped carbon shell with enhanced lithium storage properties. Batteries-Basel 2023, 9, 361 (12 pages). (IF= 4.000)

      [9] Prussian blue and its analogues as cathode materials for Na-, K-, Mg-, Ca-, Zn- and Al-ion batteries. Nano Energy, 2022, 99, 107424. (IF= 17.600)

      [10] FeP Coated in Nitrogen/Phosphorus Co-doped Carbon Shell Nanorods Arrays as High-Rate Capable Flexible Anode for K-ion Half/Full Batteries. J. Colloid Interf. Sci., 2022, 624, 670-679. (IF= 9.965)

      [11] Electronic synergy to boost the performance of NiCoP-NWs@FeCoP-NSs anodes for flexible lithium-ion batteries. Nanoscale, 2022, 14, 8398-8408. (IF= 6.700)

      [12] N/O co-doped carbon nanocapsule anodes for high rate-performance K-ion batteries. Funct. Mater. Lett. 2022, 15, 2250016. (IF= 1.300)

      [13] Sodium superionic conductors (NASICONs) as cathode materials for sodium-ion batteries. Electrochem. Energy Rev., 2021, 4, 793-823. (IF= 31.300)

      [14] Carbon-decorated Na3V2(PO4)3 as ultralong lifespan cathodes for high-energy-density symmetric sodium-ion batteries. Acs Appl. Mater. Inter., 2021, 13, 25036-25043. (IF=9.500)

      [15] N/O Codoped hollow carbon nanocapsules-supported Ge nanoparticles as anodes for excellent performance lithium-ion batteries. Int. J. Electrochem. Sci., 2021, 16, 211035. (IF=1.500)

      [16] 3D branched rutile TiO2@rutile SnO2 nanorods array heteroarchitectures/carbon cloth with an adjustable band gap to enhance lithium storage reaction kinetics for flexible lithium-ion batteries. Electrochim. Acta, 2020, 354, 13667. (IF= 6.600)

      [17] Ni2P nanoparticle-incorporated reduced graphene oxide & carbon nanotubes to form flexible free-standing intertwining network film anodes for long-life sodium-ion storage. J. Mater. Sci., 2020, 55, 14491-14500. (IF= 4.500)

      [18] ZnO@TiO2 heterostructure arrays/carbon cloth by charge redistribution enhances performance in flexible anode for Li ion batteries. Electrochim. Acta, 2019, 295, 107-112. (IF= 6.600)

      [19] Ultra-high performance of Li/Na ion batteries using N/O dual dopant porous hollow carbon nanocapsules as an anode. J. Mater. Chem. A, 2019. 18, 11117-11126. (IF= 11.900)

      [20] Design of rugby-like GeO2 grown on carbon cloth as a flexible anode for high-performance Lithium-Ion Batteries. J. Nanosci. Nanotech., 2019, 19, 263-267. (IF= 1.134)

      [21] TiO2 nanotubes array on carbon cloth as a flexibility anode for sodium-ion batteries. J. Nanosci. Nanotech., 2019, 19, 226-230. (IF= 1.134)

      [22] High-indexed PtNi alloy skin spiraled on Pd nanowires for highly efficient oxygen reduction reaction catalysis, Small, 2019, 1900288. (IF= 13.300)


      (最后更新日期:2024.4.16)

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