Metal–Polypyridyl Catalysts for Electro- and Photochemical Reduction of Water to Hydrogen

Abstract: CONSPECTUS: Climate change, rising global energy demand, and energy security concerns motivate research into alternative, sustainable energy sources. In principle, solar energy can meet the world's energy needs, but the intermittent nature of solar illumination means that it is temporally and spatially separated from its consumption. Developing systems that promote solar-to-fuel conversion, such as via reduction of protons to hydrogen, could bridge this production−consumption gap, but this effort requires inve… Show more

“…[1][2][3][4][5][6][7][8][9] The wealth of ligand variation can provide an avenuet ot he discovery of homogeneous molecular electro-and photocatalystsb ya llowing the capacityt of ine-tune performance, identify novel motifs for catalystc onstruction,a nd give molecular information on the mechanism of catalysis. At À1.9 Vv s. Fc/Fc + ,t hese catalysts showed 96 %F aradaic efficiency with added water or saturated aqueous saline at rates of up to 316 L(mol cat) À1 (cm 2 ) À1 h À1 using ag lassy carbonw orking electrode.…”

Electro‐ and Photocatalytic Generation of H₂ Using a Distinctive Co^II “PN₃P” Pincer Supported Complex with Water or Saturated Saline as a Hydrogen Source

“…[1][2][3][4][5][6][7][8][9] The wealth of ligand variation can provide an avenuet ot he discovery of homogeneous molecular electro-and photocatalystsb ya llowing the capacityt of ine-tune performance, identify novel motifs for catalystc onstruction,a nd give molecular information on the mechanism of catalysis. At À1.9 Vv s. Fc/Fc + ,t hese catalysts showed 96 %F aradaic efficiency with added water or saturated aqueous saline at rates of up to 316 L(mol cat) À1 (cm 2 ) À1 h À1 using ag lassy carbonw orking electrode.…”

Electro‐ and Photocatalytic Generation of H₂ Using a Distinctive Co^II “PN₃P” Pincer Supported Complex with Water or Saturated Saline as a Hydrogen Source

“…[1][2][3] The kinetic barrierf or such at ransformation is large, hence,c atalysts are required to lower it.Although metallic platinum remains the most effective catalytic materialf or the hydrogen evolution reaction( HER), its limited availability and high cost justifiest he quest for alternative catalysts based on cheaper and more abundant non-noble metals.C urrent research focuses primarily on two types of compounds:h eterogeneousm aterials and homogeneous metal complexes. However,t hese energy sourcess uffer from low energetic density and intermittency.T oo vercome such failings, ac ommon approachi nvolves storage of the generatede nergy by conversion into chemical energy through the formation of chemical bonds.…”

New Cobalt‐Bisterpyridyl Catalysts for Hydrogen Evolution Reaction

“…[12,[20][21][22] Compounds 2a-f are ideal for forming heterodimetallic adducts with 1 due to their single open coordination site and significant chemical and electrochemical stability. [23,24] In this report we discuss the synthesis of a series of complexes that include synthetically accessible first-row transition metals, [ 2 (3a-f; M = Mn, Fe, Co, Ni, Cu, Zn; OTf = trifluoromethylsulfonate), along with their structural, electronic, and electrochemical properties.…”

A Periodic Walk through a Series of First‐Row, Oxido‐Bridged, Heterodimetallic Molecules: Synthesis and Structure