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基本信息Personal Information
教授
性别 : 女
毕业院校 : 南京大学
学历 : 博士研究生毕业
学位 : 博士学位
在职信息 : 在岗
所在单位 : 化学与材料科学学院
入职时间 : 2011年01月10日
办公地点 : 15-108
Email :
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- [121]Pei Song.Correction: Facile preparation of reduced graphene oxide supported PtNi alloyed nanosnowflakes with high catalytic activity.RSC Advances.2015,Vol.5 (No.57):45641
- [122]Pei Song.Facile large-scale synthesis of Au–Pt alloyed nanowire networks as efficient electrocatalysts for methanol oxidation and oxygen reduction reactions.RSC Advances.2015,Vol.5 (No.106):87061-87068
- [123]Pei Song.Simple polyol synthesis of porous coral-like palladium–silver alloy nanostructures with enhanced electrocatalytic activity for glycerol oxidation reaction.Journal Of Materials Chemistry A.2015,Vol.3 (No.31):15920-15926
- [124]Ai-Jun Wang.Fluorescent graphene-like carbon nitrides: synthesis, properties and applications.Journal Of Materials Chemistry C.2016,Vol.4 (No.35):8146-8160
- [125]Lv, JJ.Facile synthesis of Pt-Pd nanodendrites and their superior electrocatalytic activity.JOURNAL OF MATERIALS CHEMISTRY A.2014,Vol.2 (No.12):4384-4390
- [126]Jiu-Ju Feng.Mannite supported hydrothermal synthesis of hollow flower-like ZnO structures for photocatalytic applications.CrystEngComm.2011,Vol.13 (No.12):4202-4210
- [127]Weiping Wang.Solvent-free synthesis of sulfur- and nitrogen-co-doped fluorescent carbon nanoparticles from glutathione for highly selective and sensitive detection of mercury(II) ions.Sensors and Actuators B: Chemical.2014,Vol.202 :741-747
- [128]Zheng-Jun Wang.Enhanced catalytic performance of Pd–Pt nanodendrites for ligand-free Suzuki cross-coupling reactions.RSC Advances.2015,Vol.5 (No.36):28467-28473
- [129]Jing-Jing Lv.One-pot synthesis of porous Pt–Au nanodendrites supported on reduced graphene oxide nanosheets toward catalytic reduction of 4-nitrophenol.Journal Of Materials Chemistry A.2015,Vol.3 (No.1):290-296
- [130]Yong-Fang Li.Facile controlled synthesis of MnO<sub>2</sub> nanowires for supercapacitors.Journal of Solid State Electrochemistry.2014,Vol.18 (No.9):2521-2527
- [131]Li-Li He.A general strategy for the facile synthesis of AuM (M = Pt/Pd) alloyed flowerlike-assembly nanochains for enhanced oxygen reduction reaction.Journal Of Materials Chemistry A.2015,Vol.3 (No.10):5352-5359
- [132]Ai-Jun Wang.Green synthesis of porous flower-like palladium with high electrocatalytic activity towards methanol oxidation.RSC Advances.2013,Vol.3 (No.26):10355-10362
- [133]Zheng-Jun Wang.Cu(II)@Luviset clear as recyclable catalyst for the formation of C–C bond in homo-coupling of terminal alkynes.RSC Advances.2015,Vol.5 (No.117):96372-96376
- [134]De-Jun Chen.Facile synthesis of ultra-long Cu microdendrites for the electrochemical detection of glucose.Journal of Solid State Electrochemistry.2012,Vol.16 (No.4):1313-1321
- [135]Li-Ping Mei.Highly sensitive electrochemical determination of azathioprine using a glassy carbon electrode modified with Au neuronal-like nanostructures.Sensors and Actuators B: Chemical,Vol.240 :996-1002
- [136]Mei, Li-Ping.A glassy carbon electrode modified with porous CuO nanospheres on reduced graphene oxide support for simultaneous sensing of uric acid and dopamine with high selectivity over ascorbic acid..Microchimica Acta.2016,Vol.183 (No.6):2039-2046
- [137]Litong Zhang.Facile one-step synthesis of three-dimensional freestanding hierarchical porous carbon for high energy density supercapacitors in organic electrolyte.Journal of Electroanalytical Chemistry.2018,Vol.818 :51-57
- [138]Wang Jiajun.Nitrogen and sulfur co-doped carbon nanodots toward bovine hemoglobin: A fluorescence quenching mechanism investigation..Journal of molecular recognition.2018 :e2761
- [139]Bimetallic Alloyed PtCu Nanocubic Frames with Three‐Dimensional Molecular Accessible Surfaces for Boosting Oxygen Reduction and Glycerol Oxidation Reactions..ChemCatChem.2018,Vol.10 (No.15):3319-3326
- [140]Liu, Qing.One-pot aqueous fabrication of reduced graphene oxide supported porous PtAg alloy nanoflowers to greatly boost catalytic performances for oxygen reduction and hydrogen evolution..Journal of Colloid & Interface Science.2018,Vol.513 :455-463