|
基本信息Personal Information
副研究员(自然科学) 硕士生导师
性别 : 男
毕业院校 : 中国科学院大连化学物理研究所
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 : 杭州高等研究院
入职时间 : 2019年11月14日
办公地点 : 杭州高等研究院童趣楼101-2
联系方式 : 0571-82257902
Email :
扫描关注
- [21]56. Defect-driven nanostructuring of low-nuclearity Pt-Mo ensembles for continuous gas-phase formic acid dehydrogenation.Nature Commnications.2023,14 :7518
- [22]55. Nanostructured PtBi Alloy Enables Direct Oxidation of Linear a-Alcohols to Fatty Acids.ACS Catalysis.2023,13 :12571-12581
- [23]54. Melamine Modification of the Carrier Regulating the Performance of PtBi/AC in Heptanol Oxidation.ChemCatChem.2023 :e202300703
- [24]53. A solid-state synthetic strategy toward nickel-based bimetallic interstitial compounds (MNi3Cx, M = Zn, In, Ga).Dalton Transactions.2023,52 :11571-11580
- [25]52. Oxygen vacancy-rich Fe@Fe3O4 boosting Fenton chemistry.Catalysts.2023,13 (7):1057
- [26]51. Refining reaction kinetics of butadiene hydrogenation on zeolite-confined palladium clusters.Molecular Catalysis.2023,546 :113278
- [27]50. Full Metal Species Quantification of Supported Catalysts: Beyond Metal Dispersion.ChemPlusChem.2023,88 (6):e202300111
- [28]49. Nickel-Catalyzed Dry Reforming of Methane via Modulating the Zirconia Shapes.ChemCatChem.2023 :e202300136
- [29]48. Carbonaceous deposits on cobalt particles reverse the catalytic patterns in butadiene hydrogenation.Catalysis Science & Technology.2023,13 :968-974
- [30]47.Synergistic copper nanoparticles and adjacent single atoms on biomass-derived N-doped carbon toward overall water splitting.Inorganic Chemistry Frontiers.2023,10 :443-453
- [31]46.Discerning the Contributions of Gold Species in Butadiene Hydrogenation: From Single Atoms to Nanoparticles.ANGEWANDTE CHEMIE-INTERNATIONAL EDITION.2022,61 (49):e202214166
- [32]45. Full Metal Species Quantification of Metal Supported Catalysts Through Massive TEM Images Recognition.Chemical Research in Chinese Universities.2022,38 (5):1263-1267
- [33]44. Host-induced alteration of the neighbors of single platinum atom enables selective and stable hydrogenation of butadiene.Nanoscale.2022,14 (29):10506-10513
- [34]43. Triton X-100-directed synthesis of carbon nitride and nitrogen-doped carbon for ethylene dichloride dehydrochlorination.CARBON.2022,196 :110-119
- [35]42. Selective hydrogenation of 1,3-butadiene on iridium nanostructures: Structure sensitivity, host effect, and deactivation mechanism.JOURNAL OF ENERGY CHEMISTRY.2022,69 :541-554
- [36]41. Stable ethanol synthesis via dimethyl oxalate hydrogenation over the bifunctional rhenium-copper nanostructures: Influence of support.JOURNAL OF CATALYSIS.2022,407 :241-252
- [37]40. Design strategies and structure-performance relationships of heterogeneous catalysts for selective hydrogenation of 1,3-butadiene.CHINESE JOURNAL OF CATALYSIS.2022,43 (4):1017-1041
- [38]39. M/C3N4/AC (M = Au, Pt, Ru) catalyzed acetylene coupling with ethylene dichloride: How capable are the bi-functionalities?.CHINESE JOURNAL OF CATALYSIS.2022,43 (3):820-831
- [39]38. Assembly of N- and P-functionalized carbon nanostructures derived from precursor-defined ternary copolymers for high-capacity lithium-ion batteries.Chinese Journal of Chemical Engineering.2023,53 :280-288
- [40]37. Interface-directed epitaxially growing nickle ensembles as efficient catalysts in dry reforming of methane.JOURNAL OF ENERGY CHEMISTRY.2022,66 :502-513