M
Michael R. Hoffmann
Researcher at California Institute of Technology
Publications - 522
Citations - 70877
Michael R. Hoffmann is an academic researcher from California Institute of Technology. The author has contributed to research in topics: Aqueous solution & IUCN Red List. The author has an hindex of 109, co-authored 500 publications receiving 63474 citations. Previous affiliations of Michael R. Hoffmann include Clarkson University & International Union for Conservation of Nature and Natural Resources.
Papers
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Trace metal catalysis in aquatic environments
TL;DR: The most important pathways for major organic and inorganic pollutants include redox reactions, autoxidations, and hydrolysis reactions as mentioned in this paper, and these pathways have been identified.
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Trilayer CdS/carbon nanofiber (CNF) mat/Pt-TiO2 composite structures for solar hydrogen production: Effects of CNF mat thickness
TL;DR: In this paper, a trilayer heterostructures of CdS/CNF mat/Pt-deposited TiO_2 was fabricated for solar H2 production by electrospinning and carbonization.
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Absorption of Inhaled NO2
TL;DR: It is found that inhaled NO(2)(g) delivers H(+), HONO, and NO(3)(-) as primary transducers of toxic action without antioxidant participation, and this function will be largely performed by chloride, the major anion in airway lining fluids.
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Isotopic fractionation of carbonyl sulfide in the atmosphere: Implications for the source of background stratospheric sulfate aerosol
TL;DR: In this paper, the contribution of carbonyl sulfide to stratospheric sulfate aerosol (SSA) was assessed using the infrared limb-transmittance spectra acquired by the JPL MkIV instrument.
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The application of a novel fluidised photo reactor under UV–visible and natural solar irradiation in the photocatalytic generation of hydrogen
Nathan Skillen,Morgan Adams,Cathy McCullagh,Su Young Ryu,Federica Fina,Michael R. Hoffmann,John T. S. Irvine,Peter K. J. Robertson +7 more
TL;DR: In this paper, the performance of a novel fluidized photo reactor for the production of H 2 over two catalysts under UV-Visible light and natural solar illumination was described, and the optimum conditions for H 2 evolution were found to be a propeller rotational speed of 1035 rpm and 144 W of UV−Visible irradiation, which produced a rate of 89 μmol h−1) g−1.