M
Marek Pruski
Researcher at Iowa State University
Publications - 228
Citations - 9009
Marek Pruski is an academic researcher from Iowa State University. The author has contributed to research in topics: Catalysis & Solid-state nuclear magnetic resonance. The author has an hindex of 52, co-authored 226 publications receiving 7916 citations. Previous affiliations of Marek Pruski include Indian Institute of Technology Bombay & United States Department of Energy.
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Cooperative Catalysis by General Acid and Base Bifunctionalized Mesoporous Silica Nanospheres
TL;DR: In this article, the authors proposed a polymer-supported Synthesis for the 0.78 Category Polymer supported Synthesis (SPSS) for polymer supported synthesis.
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Solid-state NMR study of MCM-41-type mesoporous silica nanoparticles.
TL;DR: The study shows that the surfactant (CTAB) was almost completely removed by acid extraction, and the residual molecules assumed prone positions along the pores, with the tailgroup being most mobile.
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Upcycling Single-Use Polyethylene into High-Quality Liquid Products
Gokhan Celik,Robert M. Kennedy,Ryan A. Hackler,Magali Ferrandon,Akalanka Tennakoon,Smita Patnaik,Smita Patnaik,Anne M. LaPointe,Salai Cheettu Ammal,Andreas Heyden,Frédéric A. Perras,Marek Pruski,Marek Pruski,Susannah L. Scott,Kenneth R. Poeppelmeier,Aaron D. Sadow,Aaron D. Sadow,Massimiliano Delferro +17 more
TL;DR: Energy-rich polyethylene (PE) macromolecules are catalytically transformed into value-added products by hydrogenolysis using well-dispersed Pt nanoparticles (NPs) supported on SrTiO3 perovskite nanocuboids by atomic layer deposition.
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Gatekeeping layer effect: a poly(lactic acid)-coated mesoporous silica nanosphere-based fluorescence probe for detection of amino-containing neurotransmitters.
TL;DR: The poly(lactic acid) layer of the PLA-MSN sensor showed a unique "sieving" effect that regulates the rates of diffusion of the amino acid-based neurotransmitters into the sensor mesopores of the material.
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Titanium catalyzed solid-state transformations in LiAlH4 during high-energy ball-milling
TL;DR: In this paper, several catalysts were tested and it was established that their activity gradually decreases from TiCl4 to Fe in the series TiCl 4>Al3Ti≫Al22Fe3Ti8>Al 3Ti>Fe>Fe.