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Full-Text Articles in Chemistry
Prospects Of D-Π-A Structured Porphyrins And Their Photoelectrochemical Application, Shuang-Shuang Liu, Jian-Feng Lu, Ming-Kui Wang
Prospects Of D-Π-A Structured Porphyrins And Their Photoelectrochemical Application, Shuang-Shuang Liu, Jian-Feng Lu, Ming-Kui Wang
Journal of Electrochemistry
Porphyrins and their metalloderivatives are a class of compounds exhibiting a wide variety of interesting and highly useful properties, such as chlorophyll. Porphyrins are particularly interesting in photoelectrochemical applications due to their structural similarity to chlorophylls in natural photosynthetic systems, as well as their strong and tunable absorption properties. Recently, various porphyrins have been extensively studied for their applications in solar cells, photocatalytic hydrogen production, optical information storage and others. This review will focus on the unique physical and chemical properties of D-π-A structured porphyrins, and their photovoltaic performances in dye-sensitized solar cells. A brief discussion in the future development …
Aqueous Photochemistry Of Glyoxylic Acid, Alexis J. Eugene, Sha-Sha Xia, Marcelo I. Guzman
Aqueous Photochemistry Of Glyoxylic Acid, Alexis J. Eugene, Sha-Sha Xia, Marcelo I. Guzman
Chemistry Faculty Publications
Aerosols affect climate change, the energy balance of the atmosphere, and public health due to their variable chemical composition, size, and shape. While the formation of secondary organic aerosols (SOA) from gas phase precursors is relatively well understood, studying aqueous chemical reactions contributing to the total SOA budget is the current focus of major attention. Field measurements have revealed that mono-, di-, and oxo-carboxylic acids are abundant species present in SOA and atmospheric waters. This work explores the fate of one of these 2-oxocarboxylic acids, glyoxylic acid, which can photogenerate reactive species under solar irradiation. Additionally, the dark thermal aging …
Efficient Bimolecular Mechanism Of Photochemical Hydrogen Production Using Halogenated Boron-Dipyrromethene (Bodipy) Dyes And A Bis(Dimethylglyoxime) Cobalt(Iii) Complex, Randy Pat Sabatini, Brian M. Lindley, Theresa M. Mccormick, Theodore Lazarides, William Brennessel, David W. Mccamant, Richard Eisenberg
Efficient Bimolecular Mechanism Of Photochemical Hydrogen Production Using Halogenated Boron-Dipyrromethene (Bodipy) Dyes And A Bis(Dimethylglyoxime) Cobalt(Iii) Complex, Randy Pat Sabatini, Brian M. Lindley, Theresa M. Mccormick, Theodore Lazarides, William Brennessel, David W. Mccamant, Richard Eisenberg
Chemistry Faculty Publications and Presentations
A series of Boron-dipyrromethene (Bodipy) dyes were used as photosensitizers for photochemical hydrogen production in conjunction with [CoIII(dmgH)2pyCl] (where dmgH = dimethylglyoximate, py = pyridine) as the catalyst and triethanolamine (TEOA) as the sacrificial electron donor. The Bodipy dyes are fully characterized by electrochemistry, x-‐ray crystallography, quantum chemistry calculations, femtosecond transient absorption and time-‐resolved fluorescence, as well as in long-‐term hydrogen production assays. Consistent with other recent reports, only systems containing halogenated chromophores were active for hydrogen production, as the long-‐lived triplet state is necessary for efficient bimolecular electron transfer. Here, it is shown that the photostability of …