G
Galen D. Stucky
Researcher at University of California, Santa Barbara
Publications - 969
Citations - 107402
Galen D. Stucky is an academic researcher from University of California, Santa Barbara. The author has contributed to research in topics: Mesoporous material & Crystal structure. The author has an hindex of 144, co-authored 958 publications receiving 101796 citations. Previous affiliations of Galen D. Stucky include State Street Corporation & The Chinese University of Hong Kong.
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Direct Evidence of the Importance of Electron-Phonon Coupling in La2CuO4: Photoinduced IR Active Vibrational Modes
TL;DR: Direct evidence of the importance of the electron-phonon interaction in pure La2CuO4 is presented, and local in the vicinity of a photogenerated carrier, the CuO6 octahedra become tetragonal (as in the Sr-doped case).
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Inorganic materials for anomalous-dispersion phase-matched second-harmonic generation: rubidium titanyl arsenate isomorphs, Rb[Ti1−2xLnxNbx]OAsO4
TL;DR: The defect chemistry and optical properties of Rb[Ti 1−2 x Ln x Nb x ]OAsO 4 are reported in this paper, where it is shown that the solid solubility of lanthanide ions in these materials decreases exponentially as the size of the ion increases.
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Stability of boron-doped mesoporous SiC with high surface area in water-saturated air at 800 °C for diesel exhaust catalysis
TL;DR: In this paper, the authors explore the hydrothermal stability of high-surface-area mesoporous SiC (m-SiC) prepared using Pluronic F-127 as structure directing agent, with and without boron doping as synthesized by a magnesiothermic reduction method.
Germanium loaded zeolite Y: Preparation and characterization
TL;DR: In this article, the results from the absorption and photoluminescence spectroscopy of the germanium loaded zeolite Y (HY) were discussed, showing that at annealing temperatures higher than 500°C, small Ge crystallites (∼0.2μm) form on the exterior surface of the HY, as documented by TED, TEM and absorption spectroscope.
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MXene-derived Ti3C2-Co-TiO2 nanoparticle arrays via cation exchange for highly efficient and stable electrocatalytic oxygen evolution.
TL;DR: In this article , a cation exchange strategy was proposed to convert layered Ti3C2-Na-TiO2 MXene nanofibers into a 3D structure and numerous heterogeneous interfaces, which deliver excellent oxygen evolution reaction (OER) activity.