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Permanent URI for this communityhttps://hdl.handle.net/20.500.14288/2
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Publication Restricted Comparison of hydrocracking activities and selectivitieshydrocracking activities and selectivities of catalysts prepared by incipient wetness and supercritical deposition(Koç University, 2014) Şahin, İbrahim; Erkey, Can; 0000-0001-6539-7748; Koç University Graduate School of Sciences and Engineering; Chemical and Biological Engineering; 29633Publication Restricted Controlled hydrogenation of graphene films grown on a modified Pt(111) substrate(Koç University, 2019) Panahi, Mohammad; Kaya, Sarp; 0000-0002-2591-5843; Koç University Graduate School of Sciences and Engineering; Materials Science and Engineering; 116541Publication Restricted Kinetic modeling and simulation of an industrial diesel hydroprocessing plant(Koç University, 2014) Çelebi, Ayşe Dilan; Arkun, Yaman; 0000-0002-3740-379X; Koç University Graduate School of Sciences and Engineering; Chemical and Biological Engineering; 108526Publication Restricted Modeling of an industrial hydrocracker reactor(Koç University, 2011) Canan, Ümmühan; Arkun, Yaman; 0000-0002-3740-379X; Koç University Graduate School of Sciences and Engineering; Chemical and Biological Engineering; 108526Publication Restricted Plant-wide modeling, optimization and control of an industrial diesel hydroprocessing plant(Koç University, 2015) Aydın, Erdal; Arkun, Yaman; 0000-0002-3740-379X; Koç University Graduate School of Sciences and Engineering; Chemical and Biological Engineering; 108526
Publication Metadata only Solvent-free methods in nanocatalysis: from catalyst design to applications(Wiley-Vch Verlag, 2023) Luque, Rafael; Gawande, Manoj B.; Goswami, Anandarup; Department of Chemistry; Doustkhah, Esmail; Department of Chemistry; Koç University Tüpraş Energy Center (KUTEM) / Koç Üniversitesi Tüpraş Enerji Merkezi (KÜTEM); College of SciencesSolvent-Free Methods in Nanocatalysis Discover solvent-free approaches for the synthesis of nanocatalysts as well as various catalytic transformations in this unique one-stop resource Solvent-free methods have attracted wide attention in organic synthesis and catalysis as a promising approach towards "greener" and more sustainable chemical transformations. In this regard, nanocatalysis has seen particular growth in recent years. Solvent-Free Methods in Nanocatalysis gives an in-depth overview of nanocatalysts and their catalytic applications using solvent-free methods. After a brief introduction, it covers various synthetic techniques for the preparation of nanocatalysts and supports using solvent-free methods, e.g. ball-milling, microwave- and plasma-assisted methods. The book discusses in detail different catalyst classes, such as metal oxides, doped and functionalized nanocarbons, as well as nitride- and silica-based materials to help researchers to understand the efficiency and nature of these catalysts/supports based on their chemical structure. In the book readers will also find: • A brief account of the history, challenges, and recent advances in the field • Detailed discussion of advantages and disadvantages of solvent-free techniques for nanocatalyst preparation • Treatment of important solvent- and catalyst-free organic transformations (i.e. oxidation, coupling and multicomponent reactions) • A chapter on supported ionic liquids for solvent-free catalysis Written by leading researchers in the field, Solvent-Free Methods in Nanocatalysis is a useful reference for researchers and students working in organic synthesis, catalysis, and nanomaterials science. © 2023 WILEY-VCH GmbH, Boschstr. 12, 69469 Weinheim, Germany. All rights reserved.