Enhancing The Catalytic Activity Of Site Isolated Heterogeneous Transition Metal Expoxidation Catalysts Prepared Via The Thermolytic Molecular Precursor Method

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Enhancing the Catalytic Activity of Site-Isolated Heterogeneous Transition Metal Expoxidation Catalysts Prepared Via the Thermolytic Molecular Precursor Method

Author : Paul Joseph Cordeiro
Publisher :
ISBN 13 :
Total Pages : 242 pages
Book Rating : 4.:/5 (858 download)

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Book Synopsis Enhancing the Catalytic Activity of Site-Isolated Heterogeneous Transition Metal Expoxidation Catalysts Prepared Via the Thermolytic Molecular Precursor Method by : Paul Joseph Cordeiro

Download or read book Enhancing the Catalytic Activity of Site-Isolated Heterogeneous Transition Metal Expoxidation Catalysts Prepared Via the Thermolytic Molecular Precursor Method written by Paul Joseph Cordeiro and published by . This book was released on 2010 with total page 242 pages. Available in PDF, EPUB and Kindle. Book excerpt: This dissertation describes the application of the thermolytic molecular precursor (TMP) method for the synthesis of new heterogeneous catalysts and the performance of these catalysts in the epoxidation of olefins with simple peroxides. The precursors used in this method include complexes of the form LnM[OE(X)3]m, where Ln = OiPr, E = Si or Ge, X = iPr or OtBu, and M = Ti(IV) or Ta(V). These precursors were employed to introduce site-isolated metal centers onto the surface of mesoporous silica (SBA-15), and represent excellent models for the supported metal sites generated. The precursors and materials were characterized using a variety of analytical techniques, and structural comparisons are presented. Surface modification has been used to introduce new functionalities designed to enhance the catalytic activity of two types of supported catalysts, and the effect of the new functionalities was explored. Additionally, a new precursor containing some of these new functionalities has been synthesized and employed to generate new catalytic materials. Site-isolated Ta(V) centers were introduced onto the surface of a mesoporous SBA-15 support via the thermolytic molecular precursor method. After treatment in oxygen, the resulting Si-OH and Ta-OH sites of TaSBA15-O2 were modified with a series of trimethyl group 14 species, Me3E-, by treatment with Me3E-NMe2 (E = Si, Ge, Sn) reagents. The surface modified catalysts, (Me3E)capTaSBA15, exhibit a significantly increased rate of cyclohexene epoxidation with H2O2 as an oxidant, and a decreased amount of allylic oxidation products with respect to the unmodified material, TaSBA15-O2. The rate of non-productive H2O2 decomposition, as monitored via 1H NMR spectroscopy, significantly decreased after the surface modification. The structure of the TaSBA15 catalysts and potential Ta(V) epoxidation intermediates (formed upon treatment of Ta(V) materials with H2O2) were probed using UV-visible absorbance and diffuse-reflectance UV-visible spectroscopy. A Ta(V)([eta]2-O2) intermediate species is proposed for the TaSBA15-O2, (Me3Si)capTaSBA15, and (Me3Ge)capTaSBA15 catalysts, while intermediate species for the (Me3Sn)capTaSBA15 catalysts could not be characterized. The thermolytic molecular precursor method was used to introduce site-isolated Ti(IV) centers onto the surface of a mesoporous SBA-15 support. Prior to thermal treatment to generate Ti-OH sites, residual silanol groups were capped via reaction with Me2N-SiMe3 to give TiMecapSBA15. After low-temperature treatment in oxygen, the resulting Ti-OH sites of TiMecapSBA15-O2 were modified by reaction with a series of protic reagents: phenol, pentafluorophenol, acetic acid, and trifluoroacetic acid. The structure of the resulting TiSBA15 catalysts and the Ti(IV) epoxidation intermediates (formed upon treatment of Ti(IV) materials with tert-butyl hydroperoxide or H2O2) were probed using diffuse-reflectance UV-visible spectroscopy and infrared spectroscopy. A titanium-hydroperoxo species similar to that found in TS-1 is proposed for all catalysts. Samples modified with phenol and pentafluorophenol exhibited conversions of 1-octene that are 20 to 50% higher than those for TiMecapSBA15-O2, without a significant drop in selectivity for the epoxide product, 1,2-epoxyoctane, when TBHP was used as the oxidant. With aqueous H2O2 as the oxidant, the phenol-treated materials exhibited 1-octene conversions that are 15 to 50% greater than those observed for TiMecapSBA15-O2, and an increased selectivity for 1,2-epoxyoctane of 10 to 30%. Additionally, the efficiency of H2O2 usage, as monitored via 1H NMR spectroscopy, increased by a factor of two to three for catalysts modified with phenol and pentafluorophenol, with respect to the efficiency observed over TiMecapSBA15-O2. Catalysts modified with acetic acid and trifluoroacetic acid displayed decreased catalytic turnover numbers and epoxide selectivities when TBHP was used as the oxidant, but exhibited catalytic turnover numbers and epoxide selectivities similar to TiMecapSBA15-O2 when H2O2 was used as the oxidant. After treatment of TiMecapSBA15-O2 with acetic acid, the H2O2 efficiency decreased by a factor of two for the epoxidation of 1-octene with H2O2. The complex Ti[OGe(iPr)3]4 (1) was prepared via the reaction of Ti(OiPr)4 with (iPr)3GeOH, and is a useful structural and spectroscopic model for titanium-germanium species dispersed on silica. This precursor was used to introduce site-isolated Ti(IV) centers onto the surface of a mesoporous SBA-15 support via the thermolytic molecular precursor method. The supported materials, TiGe4SBA15, are active catalysts for the epoxidation of cyclic and terminal olefins with alkyl hydroperoxides under anhydrous conditions. Compared to catalysts synthesized from siloxide-only precursors (TiSi4SBA15), the new catalysts (TiGe4SBA15) displayed two to three times higher catalytic turnover numbers during identical cyclohexene and 1-octene epoxidation reactions, while simultaneously maintaining higher selectivity. The new materials did not significantly leach under these conditions, demonstrating the robustness of this new complex as a molecular precursor to supported titanium(IV) epoxidation catalysts.

Applications of the Thermolytic Molecular Precursor Method in the Syntheses of Site-isolated Heterogeneous Catalysts

Author : Daniel Anthony Ruddy
Publisher :
ISBN 13 :
Total Pages : 328 pages
Book Rating : 4.:/5 (34 download)

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Book Synopsis Applications of the Thermolytic Molecular Precursor Method in the Syntheses of Site-isolated Heterogeneous Catalysts by : Daniel Anthony Ruddy

Download or read book Applications of the Thermolytic Molecular Precursor Method in the Syntheses of Site-isolated Heterogeneous Catalysts written by Daniel Anthony Ruddy and published by . This book was released on 2008 with total page 328 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Mechanisms in Homogeneous and Heterogeneous Epoxidation Catalysis

Author : S. Ted Oyama
Publisher : Elsevier
ISBN 13 : 0080558011
Total Pages : 524 pages
Book Rating : 4.0/5 (85 download)

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Book Synopsis Mechanisms in Homogeneous and Heterogeneous Epoxidation Catalysis by : S. Ted Oyama

Download or read book Mechanisms in Homogeneous and Heterogeneous Epoxidation Catalysis written by S. Ted Oyama and published by Elsevier. This book was released on 2011-10-13 with total page 524 pages. Available in PDF, EPUB and Kindle. Book excerpt: The catalytic epoxidation of olefins plays an important role in the industrial production of several commodity compounds, as well as in the synthesis of many intermediates, fine chemicals, and pharmaceuticals. The scale of production ranges from millions of tons per year to a few grams per year. The diversity of catalysts is large and encompasses all the known categories of catalyst type: homogeneous, heterogeneous, and biological. This book summarizes the current status in these fields concentrating on rates, kinetics, and reaction mechanisms, but also covers broad topics including modeling, computational simulation, process concepts, spectroscopy and new catalyst development. The similarities and distinctions between the different reaction systems are compared, and the latest advances are described. - Comprehensive listing of epoxide products - Broad comparison of turnover frequencies of homogeneous, hetergeneous, main-group, biomimetic and biological catalysts - Analysis of the general strengths and weaknesses of varied catalytic systems - Detailed description of the mechanisms of reaction for classical and emerging catalysts

Surface Organometallic Chemistry: Molecular Approaches to Surface Catalysis

Author : Jean-Marie Basset
Publisher : Springer Science & Business Media
ISBN 13 : 9400929714
Total Pages : 340 pages
Book Rating : 4.4/5 (9 download)

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Book Synopsis Surface Organometallic Chemistry: Molecular Approaches to Surface Catalysis by : Jean-Marie Basset

Download or read book Surface Organometallic Chemistry: Molecular Approaches to Surface Catalysis written by Jean-Marie Basset and published by Springer Science & Business Media. This book was released on 2012-12-06 with total page 340 pages. Available in PDF, EPUB and Kindle. Book excerpt: Surface organometallic chemistry is a new field bringing together researchers from organometallic, inorganic, and surface chemistry and catalysis. Topics ranging from reaction mechanisms to catalyst preparation are considered from a molecular basis, according to which the "active site" on a catalyst surface has a supra-molecular character. This. the first book on the subject, is the outcome of a NATO Workshop held in Le Rouret. France, in May. 1986. It is our hope that the following chapters and the concluding summary of recommendations for research may help to provide a definition of surface organometallic chemistry. Besides catalysis. the central theme of the Workshop, four main topics are considered: 1) Reactions of organometallics with surfaces of metal oxides, metals. and zeolites; 2) Molecular models of surfaces, metal oxides, and metals; 3) Molecular approaches to the mechanisms of surface reactions; 4) Synthesis and modification of zeolites and related microporous solids. Most surface organometallic chemistry has been carried out on amorphous high-surf ace-area metal oxides such as silica. alumina. magnesia, and titania. The first chapter. contributed by KNOZINGER. gives a short summary of the structure and reactivity of metal oxide surfaces. Most of our understanding of these surfaces is based on acid base and redox chemistry; this chemistry has developed from X-ray and spectroscopic data, and much has been inferred from the structures and reactivities of adsorbed organic probe molecules. There are major opportunities for extending this understanding by use of well-defined (single crystal) oxide surfaces and organometallic probe molecules.

Highly Dispersed Transition Metal Oxide Catalysts Achieved on Hydroxyl-rich Supports for Environmental Catalysis

Author : Murtadha Almousawi
Publisher :
ISBN 13 :
Total Pages : 0 pages
Book Rating : 4.:/5 (14 download)

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Book Synopsis Highly Dispersed Transition Metal Oxide Catalysts Achieved on Hydroxyl-rich Supports for Environmental Catalysis by : Murtadha Almousawi

Download or read book Highly Dispersed Transition Metal Oxide Catalysts Achieved on Hydroxyl-rich Supports for Environmental Catalysis written by Murtadha Almousawi and published by . This book was released on 2023 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt: Air pollution is one of the most substantial challenges of our era. It is a major contributor to climate change and a significant health hazard contributing to increased mortality or severe illness. Environmental catalysis is one of the most sustainable and effective solutions for reducing the emissions of undesirable pollutants in the atmosphere. Nonetheless, the effectiveness of pollutant removal greatly hinges upon the catalyst employed, necessitating the urgent development of exceptionally efficient catalysts. In comparison to the commonly employed precious metal catalysts, there has been a notable surge of interest in non-noble transition metal catalysts, such as copper and nickel-based catalysts. This interest is primarily due to their abundant availability, lower cost, and their considerable activities in environmental related reactions that are comparable to those of noble metal catalysts. However, there is still a pressing need to significantly enhance their low-temperature activity to meet application requirements. Increasing the metal dispersion to create more active sites and establishing a strong interaction between metals and supports are effective strategies to improve the catalytic performance of supported metal catalysts. However, achieving these improvements using simple and scalable preparation methods has posed a considerable challenge in the material science and environmental catalysis field. In this work, using hydroxyl-rich (OH-rich) CeO2 and ZrO2 as supports and a facile incipient wetness impregnation (IWI) method, we report the successful preparation of three sets of catalysts, including CuO/CeO2, CuO/ZrO2, and Ni/CeO2, with high metal dispersion and enhanced metal-support interactions. Our findings show that these catalysts prepared using OH-rich supports exhibited superior catalytic performance in environmental-related reactions, including CO oxidation, NO reduction by CO, selective catalytic oxidation of NH3 (NH3-SCO), and dry reforming of methane (DRM), respectively. Using various experimental techniques, including X-ray diffraction (XRD), Raman spectroscopy, transmission electron microscopy (TEM), N2 physisorption, X-ray photoelectron spectroscopy (XPS), X-ray absorption spectroscopy (XAS), and in situ diffuse reflectance infrared Fourier transform spectroscopy (in situ DRIFTS), the effect of hydroxyls on Ce(OH)x and Zr(OH)x supports on the physicochemical properties of the catalysts was characterized in detail. Additionally, the structure-activity relationship and reaction mechanism on these newly developed catalysts were revealed. This study showcases the utilization of OH-rich supports to improve metal dispersion and strengthen the metal-support interaction, thereby improving the catalytic performance of supported transition metal catalysts. This research suggests that utilizing OH-rich supports holds great promise as an approach to designing highly efficient catalysts for important environmental catalysis applications.

Nanotechnology in Catalysis 3

Author : Bing Zhou
Publisher : Springer Science & Business Media
ISBN 13 : 0387346880
Total Pages : 342 pages
Book Rating : 4.3/5 (873 download)

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Book Synopsis Nanotechnology in Catalysis 3 by : Bing Zhou

Download or read book Nanotechnology in Catalysis 3 written by Bing Zhou and published by Springer Science & Business Media. This book was released on 2007-09-05 with total page 342 pages. Available in PDF, EPUB and Kindle. Book excerpt: This volume continues the tradition formed in Nanotechnology in Catalysis 1 and 2. As with those books, this one is based upon an ACS symposium. Some of the most illustrious names in heterogeneous catalysis are among the contributors. The book covers: Design, synthesis, and control of catalysts at nanoscale; understanding of catalytic reaction at nanometer scale; characterization of nanomaterials as catalysts; nanoparticle metal or metal oxides catalysts; nanomaterials as catalyst supports; new catalytic applications of nanomaterials.

Rational Design of Transition Metal-Nitrogen-Carbon Electrocatalysts for Oxygen Reduction Reaction

Author : Zhuang Liu
Publisher :
ISBN 13 :
Total Pages : 172 pages
Book Rating : 4.:/5 (14 download)

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Book Synopsis Rational Design of Transition Metal-Nitrogen-Carbon Electrocatalysts for Oxygen Reduction Reaction by : Zhuang Liu

Download or read book Rational Design of Transition Metal-Nitrogen-Carbon Electrocatalysts for Oxygen Reduction Reaction written by Zhuang Liu and published by . This book was released on 2018 with total page 172 pages. Available in PDF, EPUB and Kindle. Book excerpt: ABSTRACT OF THE DISSERTATION Rational Design of Transition Metal-Nitrogen-Carbon Electrocatalysts for Oxygen Reduction Reaction by Zhuang Liu Doctor of Philosophy in Chemical Engineering University of California, Los Angeles, 2018 Professor Yunfeng Lu, Chair The harvest and conversion of energy is of crucial importance for human civilization. Today, the fast growth in energy consumption, together with the environmental problems caused by fossil fuel usage, calls for renewable and clean energy supply, such as solar, wind, geothermal, and tidal energy. However, such energies are not consistent in both time and location, bringing energy storage on request. Intensive research has been focused on the development of electrochemical energy storage (EES) devices. Among these EES devices, hydrogen fuel cells and metal-air batteries have attracted the special attention because of their high theoretical energy densities. Yet, one major issue lies in the sluggish oxygen reduction reaction (ORR) that takes place at the cathodes. For example, the theoretical voltage of a hydrogen-oxygen fuel cell is 1.23 V (standard condition). However, the voltage output obtained under a meaningful current density is only about 0.7 V, where the voltage loss is primarily caused by the overpotential in the cathodes. Developing efficient electro-catalysts, which can lower the overpotential of ORR, is indispensable for achieving high performance devices. The state-of-the-art ORR electro-catalysts are generally based on platinum, which is limited by cost and scarcity. Developing electro-catalysts based on earth abundant metal elements is critical for large-scale application of fuel cells and metal-air batteries. Among the non-precious-metal catalysts (NPMCs) explored in recent decades, pyrolyzed iron-nitrogen-carbon (Fe-N-C) catalysts is widely regarded as the most promising candidate for replacing platinum due to their high activity. However, the traditional method for preparing Fe-N-C catalysts involves high-temperature pyrolysis of the precursors, which is a highly complex and unpredictable process. As-prepared Fe-N-C catalysts usually contain mixed chemical phases (e.g., Fe-based nanoparticles, Fe-N coordination site and various nitrogen species), as well as carbon scaffolds with random morphology. Such complexity makes it difficult to identify the active site and control the porous structure. Though progress has been made in improving their performance through delicate selection of precursors, such process is largely based on test-and-trial method, shedding little light on the understanding of the material. In this dissertation, we designed a novel "post iron decoration" synthetic strategy towards efficient Fe-N-C catalysts, which de-convolutes the growth of iron and nitrogen species, enables the rational design of the catalyst structure, and provides a series of effective model materials for active site probing. Specifically, liquid iron penta-carbonyl was used to wet the surface of mesoporous N-doped carbon spheres (NMC), whose porous structure is determined by the template used for preparation. The obtained Fe(CO)5/NMC complex was then pyrolyzed to generate the Fe/NMC catalysts. Through comparative study and thorough material characterization, we demonstrated that the pyridinic-N of NMC anchors the Fe atoms to form Fe-Nx active sites during pyrolysis, while the graphitic-N remains ORR active. The excessive Fe atoms were aggregated forming fine nanoparticles, which were subsequently oxidized forming amorphous-iron oxide/iron crystal core-shell structure. All the composing elements of Fe/NMC catalysts are uniformly distributed on the NMC scaffold, whose porous structure is shown to be not affected by Fe decoration, guaranteeing the effective exposure of active sites. The best performing Fe/NMC catalysts exhibited a high half-wave potential of 0.862 V, which is close to that of the benchmark 40% Pt/C catalyst. Such high activity is primarily attributed to the Fe-Nx active sites in the catalysts. While the surface oxidized Fe crystallites though not being the major active site, is revealed to catalyze the reduction of HO2-, the 2e ORR product, facilitating the 4e reduction of oxygen. Finally, such synthetic strategy is successfully extended to prepare other Me-N-C materials. Based on the established understanding of the active sites, we then complexed the active Fe(CO)5 molecules with a N-rich metal-organic framework (ZIF-8) to form a precursor, which was subsequently pyrolyzed to form Fe-NC catalysts. During the pyrolysis, Fe(CO)5 reacts homogeneously with the ZIF-8 scaffold, leading to the formation of uniform distribution of Fe-related active sites on the N-rich porous carbon derived from ZIF-8. The zinc atoms in the crystalline structure of ZIF-8 serves as thermo-sacrificial template, resulting in the formation of hierarchical pores that provide abundant easily accessible ORR active sites. In virtue of these advantageous features, the best performing Fe-NC catalyst exhibited a high half-wave potential of 0.91 V in rotating disk electrode experiment in 0.1 M NaOH. Furthermore, zinc-air battery constructed with Fe-NC-900-M as the cathode catalyst exhibited high open-circuit voltage (1.5 V) and a peak power density of 271 mW cm-2, which outperforms those made with 40% Pt/C catalyst (1.48 V, 1.19 V and 242 mW cm-2), and most noble-metal free ORR catalysts reported so far. Finally, such a synthetic method is economic and easily-scalable, offering possibility for further activity and durability improvement.

Catalyst Preparation

Author : John Regalbuto
Publisher : CRC Press
ISBN 13 : 1420006509
Total Pages : 490 pages
Book Rating : 4.4/5 (2 download)

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Book Synopsis Catalyst Preparation by : John Regalbuto

Download or read book Catalyst Preparation written by John Regalbuto and published by CRC Press. This book was released on 2016-04-19 with total page 490 pages. Available in PDF, EPUB and Kindle. Book excerpt: This text explores the optimization of catalytic materials through traditional and novel methods of catalyst preparation, characterization, and monitoring for oxides, supported metals, zeolites, and heteropolyacids. It focuses on the synthesis of bulk materials and of heterogeneous materials, particularly at the nanoscale. The final chapters examine pretreatment, drying, finishing effects, and future applications involving catalyst preparation and the technological advances necessary for continued progress. Topics also include heat and mass transfer limitations, computation methods for predicting properties, and catalyst monitoring on laboratory and industrial scales.

Synthesis of Crystalline, Mesoporous Metal Oxide Catalysts for Environmental and Energy Applications

Author : Zhu Luo
Publisher :
ISBN 13 :
Total Pages : 202 pages
Book Rating : 4.:/5 (953 download)

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Book Synopsis Synthesis of Crystalline, Mesoporous Metal Oxide Catalysts for Environmental and Energy Applications by : Zhu Luo

Download or read book Synthesis of Crystalline, Mesoporous Metal Oxide Catalysts for Environmental and Energy Applications written by Zhu Luo and published by . This book was released on 2016 with total page 202 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Development of Molecular Catalysts to Bridge the Gap Between Heterogeneous and Homogeneous Catalysts

Author : Rong Ye
Publisher :
ISBN 13 :
Total Pages : 133 pages
Book Rating : 4.:/5 (12 download)

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Book Synopsis Development of Molecular Catalysts to Bridge the Gap Between Heterogeneous and Homogeneous Catalysts by : Rong Ye

Download or read book Development of Molecular Catalysts to Bridge the Gap Between Heterogeneous and Homogeneous Catalysts written by Rong Ye and published by . This book was released on 2017 with total page 133 pages. Available in PDF, EPUB and Kindle. Book excerpt: Catalysts, heterogeneous, homogeneous, and enzymatic, are comprised of nanometer-sized inorganic and/or organic components. They share molecular factors including charge, coordination, interatomic distance, bonding, and orientation of catalytically active atoms. By controlling the governing catalytic components and molecular factors, catalytic processes of a multichannel and multiproduct nature could be run in all three catalytic platforms to create unique end-products. Unifying the fields of catalysis is the key to achieving the goal of 100% selectivity in catalysis. Recyclable catalysts, especially those that display selective reactivity, are vital for the development of sustainable chemical processes. Among available catalyst platforms, heterogeneous catalysts are particularly well-disposed toward separation from the reaction mixture via filtration methods, which renders them readily recyclable. Furthermore, heterogeneous catalysts offer numerous handles - some without homogeneous analogues - for performance and selectivity optimization. These handles include nanoparticle size, pore profile of porous supports, surface ligands and interface with oxide supports, and flow rate through a solid catalyst bed. Despite these available handles, however, conventional heterogeneous catalysts are themselves often structurally heterogeneous compared to homogeneous catalysts, which complicates efforts to optimize and expand the scope of their reactivity and selectivity. Ongoing efforts are aimed to address the above challenge by heterogenizing homogeneous catalysts, which can be defined as the modification of homogeneous catalysts to render them in a separable (solid) phase from the starting materials and products. Specifically, we grow the small nanoclusters in dendrimers, a class of uniform polymers with the connectivity of fractal trees and generally radial symmetry. Thanks to their dense multivalency, shape persistence and structural uniformity, dendrimers have proven to be versatile scaffolds for the synthesis and stabilization of small nanoclusters. Then these dendrimer-encapsulated metal clusters (DEMCs) are adsorbed onto mesoporous silica. Through this method, we have achieved selective transformations that had been challenging to accomplish in a heterogeneous setting, e.g. [pi]-bond activation and aldol reactions. Extensive investigation into the catalytic systems under reaction conditions allowed us to correlate the structural features (e.g. oxidation states) of the catalysts and their activity. Moreover, we have demonstrated that supported DEMCs are also excellent catalysts for typical heterogeneous reactions, including hydrogenation and alkane isomerization. Critically, these investigations also confirmed that the supported DEMCs are heterogeneous and stable against leaching. Catalysts optimization is achieved through the modulation of various parameters. The clusters are oxidized (e.g., with PhICl2) or reduced (e.g., with H2) in situ. Changing the dendrimer properties (e.g., generation, terminal functional groups) is analogous to ligand modification in homogeneous catalysts, which affect both catalytic activity and selectivity. Similarly, pore size of the support is another factor in determining product distribution. In a flow reactor, the flow rate is adjusted to control the residence time of the starting material and intermediates, and thus the final product selectivity. Our approach to heterogeneous catalysis affords various advantages: (1) the catalyst system can tap into the reactivity typical to homogeneous catalysts, which conventional heterogeneous catalysts could not achieve; (2) unlike most homogeneous catalysts with comparable performance, the heterogenized homogeneous catalysts can be recycled; (3) improved activity or selectivity compared to conventional homogeneous catalysts is possible because of uniquely heterogeneous parameters for optimization. While localized surface plasmon resonance (LSPR) provides a powerful platform for nanoparticle catalysis, our studies suggest that in some cases interband transitions should be considered as an alternative mechanism of light-driven nanoparticle catalysis. The benefits already demonstrated by plasmonic nanostructures as catalysts provided the impetus for examining complementary activation modes based on the metal nanoparticle itself. Leveraging these transitions has the potential to provide a means to highly active catalysis modes that would otherwise be challenging to access. For example, for the preparation of highly active metal catalysts on a subnanosized scale is challenging, thus limiting their exploitation and study in catalysis. Our work suggests a novel and facile strategy for the formation of highly active gold nanocluster catalysts by light illumination of the interband transitions in the presence of the appropriate substrate.

Supported Metal Single Atom Catalysis

Author : Philippe Serp
Publisher : Wiley-VCH
ISBN 13 : 9783527348442
Total Pages : 688 pages
Book Rating : 4.3/5 (484 download)

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Book Synopsis Supported Metal Single Atom Catalysis by : Philippe Serp

Download or read book Supported Metal Single Atom Catalysis written by Philippe Serp and published by Wiley-VCH. This book was released on 2022-02-22 with total page 688 pages. Available in PDF, EPUB and Kindle. Book excerpt: b”Supported Metal Single Atom CatalysisCovers all key aspects of supported metal single atom catalysts, an invaluable resource for academic researchers and industry professionals alike Single atom catalysis is one of the most innovative and dynamic research areas in catalysis science. Supported metal catalysts are used extensively across the chemical industry, ranging from fine and bulk chemical production to petrochemicals. Single atom catalysts (SACs) combine the advantages of both homogeneous and heterogeneous catalysts such as catalyst stability, activity, and high dispersion of the active phase. Supported Metal Single Atom Catalysis provides an authoritative and up-to-date overview of the emerging field, covering the synthesis, preparation, characterization, modeling, and applications of SACs. This comprehensive volume introduces the basic principles of single atom catalysis, describes metal oxide and carbon support materials for SAC preparation, presents characterization techniques and theoretical calculations, and discusses SACs in areas including selective hydrogenation, oxidation reactions, activation of small molecules, C-C bond formation, and biomedical applications. Highlights the activity, selectivity, and stability advantages of supported metal SACs compared to other heterogeneous catalysts Covers applications of SACs in thermal catalysis, electrocatalysis, and photocatalysis Includes chapters on single atom alloys and supported double and triple metal atom catalysts Discusses the prospects, challenges, and potential industrial applications of SACs Supported Metal Single Atom Catalysis is an indispensable reference for all those working in the fields of catalysis, solid-state chemistry, materials science, and spectroscopy, including catalytic chemists, organic chemists, electrochemists, theoretical chemists, and industrial chemists.

Organometallic Chemistry and Catalysis

Author : Didier Astruc
Publisher : Springer Science & Business Media
ISBN 13 : 3540461280
Total Pages : 598 pages
Book Rating : 4.5/5 (44 download)

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Book Synopsis Organometallic Chemistry and Catalysis by : Didier Astruc

Download or read book Organometallic Chemistry and Catalysis written by Didier Astruc and published by Springer Science & Business Media. This book was released on 2007-08-02 with total page 598 pages. Available in PDF, EPUB and Kindle. Book excerpt: This volume covers both basic and advanced aspects of organometallic chemistry of all metals and catalysis. In order to present a comprehensive view of the subject, it provides broad coverage of organometallic chemistry itself. The catalysis section includes the challenging activation and fictionalization of the main classes of hydrocarbons and the industrially crucial heterogeneous catalysis. Summaries and exercises are provides at the end of each chapter, and the answers to these exercises can be found at the back of the book. Beginners in inorganic, organic and organometallic chemistry, as well as advanced scholars and chemists from academia and industry will find much value in this title.

Microelectronics Processing

Author : Dennis W. Hess
Publisher :
ISBN 13 :
Total Pages : 572 pages
Book Rating : 4.3/5 (91 download)

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Book Synopsis Microelectronics Processing by : Dennis W. Hess

Download or read book Microelectronics Processing written by Dennis W. Hess and published by . This book was released on 1989 with total page 572 pages. Available in PDF, EPUB and Kindle. Book excerpt: Although chemical engineering principles are at the heart of solid state process technology, until now no reference volume addressing this relationship was available. This is the first book of its kind to tie fundamental engineering concepts to solid state process technology. Discussing the basic concepts involved--liquid-phase epitaxy, physical and chemical vapor deposition, diffusion and oxidation in silicon, resists in microlithography, etc.--this volume will be particularly useful in chemical engineering courses. It offers a framework within which specialized courses in microelectronics processing can be organized. In addition, it serves as a valuable reference source for all industrial engineers working with the individual process steps covered.

Vanadium Catalysis

Author : Manas Sutradhar
Publisher : Royal Society of Chemistry
ISBN 13 : 1839160896
Total Pages : 526 pages
Book Rating : 4.8/5 (391 download)

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Book Synopsis Vanadium Catalysis by : Manas Sutradhar

Download or read book Vanadium Catalysis written by Manas Sutradhar and published by Royal Society of Chemistry. This book was released on 2020-11-05 with total page 526 pages. Available in PDF, EPUB and Kindle. Book excerpt: Vanadium is one of the more abundant elements in the Earth’s crust and exhibits a wide range of oxidation states in its compounds making it potentially a more sustainable and more economical choice as a catalyst than the noble metals. A wide variety of reactions have been found to be catalysed by homogeneous, supported and heterogeneous vanadium complexes and the number of applications is growing fast. Bringing together the research on the catalytic uses of this element into one essential resource, including theoretical perspectives on proposed mechanisms for vanadium catalysis and an overview of its relevance in biological processes, this book is a useful reference for industrial and academic chemists alike.

Design, Synthesis, and Characterization of Transition Metal Oxide Based Functional Materials for Multi-phase Catalytic Applications

Download Design, Synthesis, and Characterization of Transition Metal Oxide Based Functional Materials for Multi-phase Catalytic Applications PDF Online Free

Author :
Publisher :
ISBN 13 :
Total Pages : 276 pages
Book Rating : 4.:/5 (927 download)

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Book Synopsis Design, Synthesis, and Characterization of Transition Metal Oxide Based Functional Materials for Multi-phase Catalytic Applications by :

Download or read book Design, Synthesis, and Characterization of Transition Metal Oxide Based Functional Materials for Multi-phase Catalytic Applications written by and published by . This book was released on 2015 with total page 276 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Modern Heterogeneous Oxidation Catalysis

Author : Noritaka Mizuno
Publisher : John Wiley & Sons
ISBN 13 : 3527627553
Total Pages : 356 pages
Book Rating : 4.5/5 (276 download)

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Book Synopsis Modern Heterogeneous Oxidation Catalysis by : Noritaka Mizuno

Download or read book Modern Heterogeneous Oxidation Catalysis written by Noritaka Mizuno and published by John Wiley & Sons. This book was released on 2009-11-18 with total page 356 pages. Available in PDF, EPUB and Kindle. Book excerpt: Filling a gap in the current literature, this comprehensive reference presents all important catalyst classes, including metal oxides, polyoxometalates, and zeolites. Readers will find here everything they need to know -- from structure design to characterization, and from immobilization to industrial processes. A true must-have for anyone working in this key technology.

Selective Syntheses and Catalytic Properties of Molecular Metal Catalysts in Confining Porous Materials

Author : Chia-Yu Fang
Publisher :
ISBN 13 :
Total Pages : 0 pages
Book Rating : 4.5/5 (825 download)

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Book Synopsis Selective Syntheses and Catalytic Properties of Molecular Metal Catalysts in Confining Porous Materials by : Chia-Yu Fang

Download or read book Selective Syntheses and Catalytic Properties of Molecular Metal Catalysts in Confining Porous Materials written by Chia-Yu Fang and published by . This book was released on 2020 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt: Supported metal catalysts are essential for the petroleum industry, exemplified by alkane hydrocracking and reforming by Pt-containing zeolites. These catalysts, typically consisting of metal nanoparticles, are usually structurally complicated, impeding the fundamental understanding of catalytic processes. Molecular metal complexes/small metal clusters dispersed on the surface of oxide supports have drawn wide attention recently because they can be synthesized in a more structurally well-defined manner than traditional catalysts, leading the way toward the rational design for novel catalysis applications. When molecular-scale metal catalysts meet solid supports, the interaction of metal-support bonding is maximized. That is, supports are considered as giant ligands tuning the chemical properties of the metal centers, primarily explained by electronic effects. In this research, we report how less discussed confinement effects can play a role in (1) modification of catalytic properties of atomically dispersed metal catalysts and (2) selective syntheses of supported metal clusters with desired structures and sizes. Supported single-site Ir(I)(C2H4)2 complexes were prepared in multiple supports, including nearly nonporous materials, MgO and [gamma]-Al2O3, zeolites with large pore sizes, HY (13 Å) and HSSZ-53 (6.4 × 8.7 Å), and with medium pore sizes, H-Beta (5.5 × 7.0 Å). By using ethylene hydrogenation as the model reaction, the catalysis data show that Ir1 in the supports having much larger pore sizes than the molecular dimensions of ethylene, such as MgO, [gamma]-Al2O3, zeolite HSSZ-53 and zeolite HY, catalytic activity of Ir1 sites is majorly modified by electronic effects. In other words, Ir1 sites are more active when interacting with weaker electron-donating supports. However, Ir1 sites dispersed in zeolite H-Beta, having pore sizes comparable to the molecular dimensions of ethylene, perform superior activity although zeolite H-Beta has similar electron-donating strength to zeolite HY. This result was further bolstered by in-situ IR experiments, demonstrating that ethylene has the strongest interaction with Ir1 in zeolite H-Beta. We conclude that the confining environments of zeolite H-Beta stabilize the intermediate species in the catalytic cycle of ethylene hydrogenation and therefore enhance catalytic performance. Selective and precise synthesis of the prototype metal cluster, Rh4(CO)12, in the supercages of zeolite HY was achieved by using supported Rh(I)(CO)2 complexes as the precursor in the presence of CO and water vapor. Rh4(CO)12 is the metastable species and tends to be converted to thermodynamically stable Rh6(CO)16 via the traditional synthesis methods. Therefore, Rh4(CO)12 and Rh6(CO)16 typically present in a mixture, making selective syntheses of each of them challenging. In this work, confining environments of the supercages of zeolite HY were used to stabilize kinetically favored Rh4(CO)12. Selectivity of the Rh4(CO)12 synthesis was 100% with a high yield, >95%, characterized by infrared (IR) and X-ray absorption spectroscopy (XAS). Synthesized Rh4(CO)12 can be fully converted into Rh6(CO)16 by more forcing conditions, confirming that Rh4(CO)12 is the intermediate species of synthesizing Rh6(CO)16. The same approach was used to selectively prepare Ir4(CO)12 clusters in multiple molecular sieves, confirming that confining environments of solid supports can play a role in cluster syntheses. The cluster syntheses of Rh4−6 and Ir4 were observed to be reversible. The chemistry of cluster formation and fragmentation is coupled with the water gas shift-half reactions that add up to a complete water gas shift cycle.