Iron phosphide nanocrystals as an air-stable heterogeneous catalyst for liquid-phase nitrile hydrogenation

被引:0
|
作者
Tomohiro Tsuda
Min Sheng
Hiroya Ishikawa
Seiji Yamazoe
Jun Yamasaki
Motoaki Hirayama
Sho Yamaguchi
Tomoo Mizugaki
Takato Mitsudome
机构
[1] Osaka University,Department of Materials Engineering Science, Graduate School of Engineering Science
[2] Tokyo Metropolitan University,Department of Chemistry
[3] Osaka University,Research Center for Ultra
[4] The University of Tokyo,High Voltage Electron Microscopy
[5] RIKEN Center for Emergent Matter Science (CEMS),Department of Applied Physics
[6] PRESTO,Innovative Catalysis Science Division, Institute for Open and Transdisciplinary Research Initiatives (ICS
[7] Japan Science and Technology Agency (JST),OTRI)
[8] Osaka University,undefined
来源
Nature Communications | / 14卷
关键词
D O I
暂无
中图分类号
学科分类号
摘要
Iron-based heterogeneous catalysts are ideal metal catalysts owing to their abundance and low-toxicity. However, conventional iron nanoparticle catalysts exhibit extremely low activity in liquid-phase reactions and lack air stability. Previous attempts to encapsulate iron nanoparticles in shell materials toward air stability improvement were offset by the low activity of the iron nanoparticles. To overcome the trade-off between activity and stability in conventional iron nanoparticle catalysts, we developed air-stable iron phosphide nanocrystal catalysts. The iron phosphide nanocrystal exhibits high activity for liquid-phase nitrile hydrogenation, whereas the conventional iron nanoparticles demonstrate no activity. Furthermore, the air stability of the iron phosphide nanocrystal allows facile immobilization on appropriate supports, wherein TiO2 enhances the activity. The resulting TiO2-supported iron phosphide nanocrystal successfully converts various nitriles to primary amines and demonstrates high reusability. The development of air-stable and active iron phosphide nanocrystal catalysts significantly expands the application scope of iron catalysts.
引用
下载
收藏
相关论文
共 50 条
  • [31] LIQUID-PHASE HYDROGENATION OF ALKYLPHENOLS WITH A NICKEL-CHROMIUM CATALYST
    PAVLENKO, NV
    SAMCHENKO, NP
    GALICH, PN
    SKLYAR, VT
    DOPOVIDI AKADEMII NAUK UKRAINSKOI RSR SERIYA B-GEOLOGICHNI KHIMICHNI TA BIOLOGICHNI NAUKI, 1981, (04): : 46 - 48
  • [32] Kinetics of liquid-phase hydrogenation of isooctenes on a Pd/γ-alumina catalyst
    Sarkar, A
    Seth, D
    Ng, FTT
    Rempel, GL
    AICHE JOURNAL, 2006, 52 (03) : 1142 - 1156
  • [33] KINETICS OF THE LIQUID-PHASE HYDROGENATION OF BENZENE ON A RUTHENIUM CATALYST.
    Konyukhov, V.Yu.
    Tret'yakov, S.D.
    Kul'kova, N.V.
    Temkin, M.I.
    Kinetics and Catalysis, 1987, 28 (2 pt 2) : 436 - 440
  • [34] BENZENE LIQUID-PHASE HYDROGENATION ON NICKEL-CHROMIUM CATALYST
    MURZIN, DY
    SOKOLOVA, NA
    KULKOVA, NV
    TEMKIN, MI
    KHIMICHESKAYA PROMYSHLENNOST, 1989, (09): : 654 - 656
  • [35] Liquid-phase hydrogenation of citral for production of citronellol:: catalyst selection
    Mäki-Arvela, P
    Tiainen, LP
    Lindblad, M
    Demirkan, K
    Kumar, N
    Sjöholm, R
    Ollonqvist, T
    Väyrynen, J
    Salmi, T
    Murzin, DY
    APPLIED CATALYSIS A-GENERAL, 2003, 241 (1-2) : 271 - 288
  • [36] EXPERIMENTAL INVESTIGATION OF A COPPER CATALYST FOR LIQUID-PHASE HYDROGENATION OF OLEFINS
    CLARKE, A
    LLOYDLANGSTON, J
    THOMAS, WJ
    TRANSACTIONS OF THE INSTITUTION OF CHEMICAL ENGINEERS, 1977, 55 (02): : 93 - 112
  • [37] Chemoselective Hydrogenation of Alkynes to (Z)-Alkenes Using an Air-Stable Base Metal Catalyst
    Zubar, Viktoriia
    Sklyaruk, Jan
    Brzozowska, Aleksandra
    Rueping, Magnus
    ORGANIC LETTERS, 2020, 22 (14) : 5423 - 5428
  • [38] PROPERTIES AND PRODUCT SELECTIVITIES OF IRON ULTRAFINE PARTICLES AS A CATALYST FOR LIQUID-PHASE HYDROGENATION OF CARBON-MONOXIDE
    ITOH, H
    HOSAKA, H
    ONO, T
    KIKUCHI, E
    APPLIED CATALYSIS, 1988, 40 (1-2): : 53 - 66
  • [39] VAPOR-PHASE AND LIQUID-PHASE HYDROGENATION OF ACETONE ON ADSORPTION PLATINUM CATALYST
    RUSALINA, LV
    MARTYSHKINA, LE
    STRELNIKOVA, ZV
    ZHURNAL FIZICHESKOI KHIMII, 1976, 50 (01): : 87 - 90
  • [40] Liquid-phase heterogeneous catalytic transfer hydrogenation of citral on basic catalysts
    Aramendía, MA
    Borau, V
    Jiménez, C
    Marinas, JM
    Ruiz, JR
    Urbano, FJ
    JOURNAL OF MOLECULAR CATALYSIS A-CHEMICAL, 2001, 171 (1-2) : 153 - 158
12345