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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Preparation of Noble Metal Nanowires Using Hexagonal Mesoporous Silica SBA-15
TL;DR: In this article, a method for the formation of metallic nanowires from gold, platinum, and silver using mesoporous silica SBA-15 as a template is presented.
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Mesoporous and Mesostructured Materials for Optical Applications
TL;DR: In this article, a review of the techniques used to produce optically functionalized mesostructured and mesoporous materials and the characterization of the final composites is presented.
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Composite mesostructures by nano-confinement.
Yiying Wu,Guosheng Cheng,Kirill Katsov,Scott W. Sides,Jianfang Wang,Jing Tang,Glenn H. Fredrickson,Martin Moskovits,Galen D. Stucky +8 more
TL;DR: A systematic study of the confined assembly of silica–surfactant composite mesostructures within cylindrical nanochannels of varying diameters is presented.
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Quantum confinement and host/guest chemistry: probing a new dimension.
TL;DR: Current approaches for generating nanostructures of conducting materials are briefly reviewed, especially the use of three-dimensional crystalline superlattices as hosts for quantum-confined semiconductor atom arrays (such as quantum wires and dots) with controlled inter-quantum-structure tunneling.
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Direct Visualization of Surfactant Hemimicelles by Force Microscopy of the Electrical Double-Layer
S. Manne,S. Manne,Jason Cleveland,Jason Cleveland,Hermann E. Gaub,Hermann E. Gaub,Galen D. Stucky,Galen D. Stucky,Paul K. Hansma,Paul K. Hansma +9 more
TL;DR: The morphology of ionic surfactant molecules adsorbed from aqueous solution onto hydrophobic substrates has been determined by atomic force microscopy as mentioned in this paper, which represents the first direct imaging of "hemimicelles", liquid-crystalline aggregates of amphiphilic molecules which form at interfaces.