A general synthesis approach for supported bimetallic nanoparticles via surface inorganometallic chemistry | Zendy

Kunlun Ding | Zendy; David A. Cullen | Zendy; Laibao Zhang | Zendy; Zhi Cao | Zendy; Amitava Roy | Zendy; Ilia N. Ivanov | Zendy; Dongmei Cao | Zendy

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A general synthesis approach for supported bimetallic nanoparticles via surface inorganometallic chemistry

Author(s) -

Kunlun Ding,

David A. Cullen,

Laibao Zhang,

Zhi Cao,

Amitava Roy,

Ilia N. Ivanov,

Dongmei Cao

Publication year - 2018

Publication title -

science

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 12.556

H-Index - 1186

eISSN - 1095-9203

pISSN - 0036-8075

DOI - 10.1126/science.aau4414

Subject(s) - bimetallic strip , catalysis , adsorption , nanoparticle , acetylene , chemistry , inorganic chemistry , oxide , nanometre , stoichiometry , metal , ethylene oxide , chemical engineering , nanotechnology , materials science , organic chemistry , copolymer , engineering , polymer

More alloying on silica Controlling the stoichiometry and achieving a high degree of alloying of metals at ultrasmall scales for catalysis can be difficult. Double complex salts, formed by a cation like Pd(NH3 )4 2+ and an anion like IrCl6 2− , should be excellent precursors but are poorly soluble and difficult to adsorb directly on metal oxide surfaces. Dinget al. show that sequentially adsorbing the cations and anions from organic solvents onto a silica surface, followed by heating in hydrogen, creates well-mixed nanoparticles, most less than 3 nanometers in diameter, for a variety of alloys. These materials were then tested as catalysts for acetylene hydrogenation to ethylene.Science , this issue p.560

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