Stable iridium dinuclear heterogeneous catalysts supported on metal-oxide substrate for solar water oxidation.

Title Stable iridium dinuclear heterogeneous catalysts supported on metal-oxide substrate for solar water oxidation.
Authors Y. Zhao; K.R. Yang; Z. Wang; X. Yan; S. Cao; Y. Ye; Q. Dong; X. Zhang; J.E. Thorne; L. Jin; K.L. Materna; A. Trimpalis; H. Bai; S.C. Fakra; X. Zhong; P. Wang; X. Pan; J. Guo; M. Flytzani-Stephanopoulos; G.W. Brudvig; V.S. Batista; D. Wang
Journal Proc Natl Acad Sci U S A
DOI 10.1073/pnas.1722137115
Abstract

Atomically dispersed catalysts refer to substrate-supported heterogeneous catalysts featuring one or a few active metal atoms that are separated from one another. They represent an important class of materials ranging from single-atom catalysts (SACs) and nanoparticles (NPs). While SACs and NPs have been extensively reported, catalysts featuring a few atoms with well-defined structures are poorly studied. The difficulty in synthesizing such structures has been a critical challenge. Here we report a facile photochemical method that produces catalytic centers consisting of two Ir metal cations, bridged by O and stably bound to a support. Direct evidence unambiguously supporting the dinuclear nature of the catalysts anchored on ?-FeOis obtained by aberration-corrected scanning transmission electron microscopy (AC-STEM). Experimental and computational results further reveal that the threefold hollow binding sites on the OH-terminated surface of ?-FeOanchor the catalysts to provide outstanding stability against detachment or aggregation. The resulting catalysts exhibit high activities toward HO photooxidation.

Citation Y. Zhao; K.R. Yang; Z. Wang; X. Yan; S. Cao; Y. Ye; Q. Dong; X. Zhang; J.E. Thorne; L. Jin; K.L. Materna; A. Trimpalis; H. Bai; S.C. Fakra; X. Zhong; P. Wang; X. Pan; J. Guo; M. Flytzani-Stephanopoulos; G.W. Brudvig; V.S. Batista; D. Wang.Stable iridium dinuclear heterogeneous catalysts supported on metal-oxide substrate for solar water oxidation.. Proc Natl Acad Sci USA. 2018. doi:10.1073/pnas.1722137115

Related Elements

Iridium

See more Iridium products. Iridium (atomic symbol: Ir, atomic number: 77) is a Block D, Group 9, Period 6 element with an atomic weight of 192.217. The number of electrons in each of iridium's shells is [2, 8, 18, 32, 15, 2] and its electron configuration is [Xe] 4f14 5d7 6s2. Iridium Bohr ModelThe iridium atom has a radius of 136 pm and a Van der Waals radius of 202 pm. Iridium was discovered and first isolated by Smithson Tennant in 1803. In its elemental form, Iridium has a silvery white appearance. Iridium is a member of the platinum group of metals.Elemental Iridium It is the most corrosion resistant metal known and is the second-densest element (after osmium). It will not react with any acid and can only be attacked by certain molten salts, such as molten sodium chloride. Iridium is found as an uncombined element and in iridium-osmium alloys. Iridium's name is derived from the Greek goddess Iris, personification of the rainbow, on account of the striking and diverse colors of its salts.

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