Microporous Zeolites and Related Nanoporous Materials: Synthesis, Characterization and Applications in Catalysis
Microporous zeolites and nanoporous materials are important from an academic and industrial research perspective. These inorganic materials have found application as catalysts in several industrial processes in oil refinery, petro-chemical reactions, fine chemicals, speciality, drug discovery and ph...
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| description | Microporous zeolites and nanoporous materials are important from an academic and industrial research perspective. These inorganic materials have found application as catalysts in several industrial processes in oil refinery, petro-chemical reactions, fine chemicals, speciality, drug discovery and pharmaceutical synthesis, exhaust emission control for stationary and mobile engines and industrial wastewater treatment. The reasons for their versatile applications in several industrial processes are their unique properties of microporous zeolites and nanoporous materials such as uniform pores, channel systems, shape selectivity, resistance to coke formation, thermal and hydrothermal stability. Furthermore, the possibility to tune the amount and strength of Brønsted and Lewis acid sites and their crystal size, as well as the possibility of modification with transition and noble metals, are key to their success as efficient, high selectivity and stable catalysts. |
| doi_str_mv | 10.3390/books978-3-0365-3602-6 |
| format | Book |
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These inorganic materials have found application as catalysts in several industrial processes in oil refinery, petro-chemical reactions, fine chemicals, speciality, drug discovery and pharmaceutical synthesis, exhaust emission control for stationary and mobile engines and industrial wastewater treatment. The reasons for their versatile applications in several industrial processes are their unique properties of microporous zeolites and nanoporous materials such as uniform pores, channel systems, shape selectivity, resistance to coke formation, thermal and hydrothermal stability. Furthermore, the possibility to tune the amount and strength of Brønsted and Lewis acid sites and their crystal size, as well as the possibility of modification with transition and noble metals, are key to their success as efficient, high selectivity and stable catalysts.</description><identifier>ISBN: 9783036536019</identifier><identifier>ISBN: 3036536019</identifier><identifier>ISBN: 3036536027</identifier><identifier>ISBN: 9783036536026</identifier><identifier>DOI: 10.3390/books978-3-0365-3602-6</identifier><language>eng</language><publisher>Basel: MDPI - Multidisciplinary Digital Publishing Institute</publisher><subject>acid sites density ; adsorbent and non-adsorbent membranes ; advanced oxidation process ; advanced oxidation processes ; bisphenol A ; bulk and surface diffusion ; campholenic aldehyde ; carbamazepine ; catalyst characterization ; catalyst preparation ; catalysts synthesis and characterization ; catalytic ozonation ; CHA-type zeolite ; CO2 assisted dehydrogenation ; crystallization mechanism ; dehydration ; diclofenac ; extra-large-pore ; fluorides ; generalized macro-transport theory ; heterogeneous catalysis ; heterogeneous catalyst ; Industrial chemistry and chemical engineering ; Industrial chemistry and manufacturing technologies ; interzeolite conversion method ; isobutane ; isomerization ; isosorbide ; LTL-type zeolite ; mass transfer and effectiveness factor ; mesoporous H-ZSM-5 ; methanol to aromatics ; methanol-to-olefin (MTO) ; MoO3-zeolite BETA ; MTO reaction ; n/a ; operando UV-vis spectroscopy ; oxidation ; ozone ; para-xylene ; phosphorous modified ZSM-5 ; propylene ; SBA-15 ; selectivity ; silicalite-1 ; solid acid catalyst ; sorbitol ; Technology, Engineering, Agriculture, Industrial processes ; Technology: general issues ; Ti-CFI ; Ti-CIT-5 ; titanosilicates ; trans-carveol ; transesterification ; wastewater treatment ; zeolites ; zeolitic imidazolate frameworks ; Zn-Co@N-doped carbon ; α-Pinene oxide</subject><creationdate>2022</creationdate><tpages>228</tpages><format>228</format><oa>free_for_read</oa><woscitedreferencessubscribed>false</woscitedreferencessubscribed></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>306,776,780,782,27902,55285</link.rule.ids></links><search><contributor>Kumar, Narendra</contributor><title>Microporous Zeolites and Related Nanoporous Materials: Synthesis, Characterization and Applications in Catalysis</title><description>Microporous zeolites and nanoporous materials are important from an academic and industrial research perspective. These inorganic materials have found application as catalysts in several industrial processes in oil refinery, petro-chemical reactions, fine chemicals, speciality, drug discovery and pharmaceutical synthesis, exhaust emission control for stationary and mobile engines and industrial wastewater treatment. The reasons for their versatile applications in several industrial processes are their unique properties of microporous zeolites and nanoporous materials such as uniform pores, channel systems, shape selectivity, resistance to coke formation, thermal and hydrothermal stability. Furthermore, the possibility to tune the amount and strength of Brønsted and Lewis acid sites and their crystal size, as well as the possibility of modification with transition and noble metals, are key to their success as efficient, high selectivity and stable catalysts.</description><subject>acid sites density</subject><subject>adsorbent and non-adsorbent membranes</subject><subject>advanced oxidation process</subject><subject>advanced oxidation processes</subject><subject>bisphenol A</subject><subject>bulk and surface diffusion</subject><subject>campholenic aldehyde</subject><subject>carbamazepine</subject><subject>catalyst characterization</subject><subject>catalyst preparation</subject><subject>catalysts synthesis and characterization</subject><subject>catalytic ozonation</subject><subject>CHA-type zeolite</subject><subject>CO2 assisted dehydrogenation</subject><subject>crystallization mechanism</subject><subject>dehydration</subject><subject>diclofenac</subject><subject>extra-large-pore</subject><subject>fluorides</subject><subject>generalized macro-transport theory</subject><subject>heterogeneous catalysis</subject><subject>heterogeneous catalyst</subject><subject>Industrial chemistry and chemical engineering</subject><subject>Industrial chemistry and manufacturing technologies</subject><subject>interzeolite conversion method</subject><subject>isobutane</subject><subject>isomerization</subject><subject>isosorbide</subject><subject>LTL-type zeolite</subject><subject>mass transfer and effectiveness factor</subject><subject>mesoporous H-ZSM-5</subject><subject>methanol to aromatics</subject><subject>methanol-to-olefin (MTO)</subject><subject>MoO3-zeolite BETA</subject><subject>MTO reaction</subject><subject>n/a</subject><subject>operando UV-vis spectroscopy</subject><subject>oxidation</subject><subject>ozone</subject><subject>para-xylene</subject><subject>phosphorous modified ZSM-5</subject><subject>propylene</subject><subject>SBA-15</subject><subject>selectivity</subject><subject>silicalite-1</subject><subject>solid acid catalyst</subject><subject>sorbitol</subject><subject>Technology, Engineering, Agriculture, Industrial processes</subject><subject>Technology: general issues</subject><subject>Ti-CFI</subject><subject>Ti-CIT-5</subject><subject>titanosilicates</subject><subject>trans-carveol</subject><subject>transesterification</subject><subject>wastewater treatment</subject><subject>zeolites</subject><subject>zeolitic imidazolate frameworks</subject><subject>Zn-Co@N-doped carbon</subject><subject>α-Pinene oxide</subject><isbn>9783036536019</isbn><isbn>3036536019</isbn><isbn>3036536027</isbn><isbn>9783036536026</isbn><fulltext>true</fulltext><rsrctype>book</rsrctype><creationdate>2022</creationdate><recordtype>book</recordtype><sourceid>V1H</sourceid><recordid>eNo1kMtKxDAUhgMiKGOfQJA8gNEkp0kbd0NRR5hR8LJxM5y0CRMtTWnqYnx6O1VXP-f7L4tDyIXgVwCGX9sYP5MpSgaMg1YMNJdMH5FsYnAgExDmhGQpfXDOpRGCm_KU9JtQD7GPQ_xK9N3FNowuUewa-uxaHF1DH7H79zcTGAK26Ya-7Ltx51JIl7Ta4YD1wfnGMcRubi_7vg31fCcaOlrhiO1-yp-RYz8tuOxPF-Tt7va1WrH10_1DtVwzC1wb5mXBBfjaea0LAQXnjRdW5sZ6bYxSDmuovcvzwlurZKmUz3PAKS8LmUuEBTn_3Y3Yu27bRJxftC2FMAJ-APmQXPA</recordid><startdate>2022</startdate><enddate>2022</enddate><general>MDPI - Multidisciplinary Digital Publishing Institute</general><scope>V1H</scope></search><sort><creationdate>2022</creationdate><title>Microporous Zeolites and Related Nanoporous Materials: Synthesis, Characterization and Applications in Catalysis</title></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-b3069-f27013fcef66713700df1b249bf69955eac3cfe447fbb52855f443acef27242a3</frbrgroupid><rsrctype>books</rsrctype><prefilter>books</prefilter><language>eng</language><creationdate>2022</creationdate><topic>acid sites density</topic><topic>adsorbent and non-adsorbent membranes</topic><topic>advanced oxidation process</topic><topic>advanced oxidation processes</topic><topic>bisphenol A</topic><topic>bulk and surface diffusion</topic><topic>campholenic aldehyde</topic><topic>carbamazepine</topic><topic>catalyst characterization</topic><topic>catalyst preparation</topic><topic>catalysts synthesis and characterization</topic><topic>catalytic ozonation</topic><topic>CHA-type zeolite</topic><topic>CO2 assisted dehydrogenation</topic><topic>crystallization mechanism</topic><topic>dehydration</topic><topic>diclofenac</topic><topic>extra-large-pore</topic><topic>fluorides</topic><topic>generalized macro-transport theory</topic><topic>heterogeneous catalysis</topic><topic>heterogeneous catalyst</topic><topic>Industrial chemistry and chemical engineering</topic><topic>Industrial chemistry and manufacturing technologies</topic><topic>interzeolite conversion method</topic><topic>isobutane</topic><topic>isomerization</topic><topic>isosorbide</topic><topic>LTL-type zeolite</topic><topic>mass transfer and effectiveness factor</topic><topic>mesoporous H-ZSM-5</topic><topic>methanol to aromatics</topic><topic>methanol-to-olefin (MTO)</topic><topic>MoO3-zeolite BETA</topic><topic>MTO reaction</topic><topic>n/a</topic><topic>operando UV-vis spectroscopy</topic><topic>oxidation</topic><topic>ozone</topic><topic>para-xylene</topic><topic>phosphorous modified ZSM-5</topic><topic>propylene</topic><topic>SBA-15</topic><topic>selectivity</topic><topic>silicalite-1</topic><topic>solid acid catalyst</topic><topic>sorbitol</topic><topic>Technology, Engineering, Agriculture, Industrial processes</topic><topic>Technology: general issues</topic><topic>Ti-CFI</topic><topic>Ti-CIT-5</topic><topic>titanosilicates</topic><topic>trans-carveol</topic><topic>transesterification</topic><topic>wastewater treatment</topic><topic>zeolites</topic><topic>zeolitic imidazolate frameworks</topic><topic>Zn-Co@N-doped carbon</topic><topic>α-Pinene oxide</topic><toplevel>online_resources</toplevel><collection>DOAB: Directory of Open Access Books</collection></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Kumar, Narendra</au><format>book</format><genre>book</genre><ristype>BOOK</ristype><btitle>Microporous Zeolites and Related Nanoporous Materials: Synthesis, Characterization and Applications in Catalysis</btitle><date>2022</date><risdate>2022</risdate><isbn>9783036536019</isbn><isbn>3036536019</isbn><isbn>3036536027</isbn><isbn>9783036536026</isbn><abstract>Microporous zeolites and nanoporous materials are important from an academic and industrial research perspective. These inorganic materials have found application as catalysts in several industrial processes in oil refinery, petro-chemical reactions, fine chemicals, speciality, drug discovery and pharmaceutical synthesis, exhaust emission control for stationary and mobile engines and industrial wastewater treatment. The reasons for their versatile applications in several industrial processes are their unique properties of microporous zeolites and nanoporous materials such as uniform pores, channel systems, shape selectivity, resistance to coke formation, thermal and hydrothermal stability. Furthermore, the possibility to tune the amount and strength of Brønsted and Lewis acid sites and their crystal size, as well as the possibility of modification with transition and noble metals, are key to their success as efficient, high selectivity and stable catalysts.</abstract><cop>Basel</cop><pub>MDPI - Multidisciplinary Digital Publishing Institute</pub><doi>10.3390/books978-3-0365-3602-6</doi><tpages>228</tpages><oa>free_for_read</oa></addata></record> |
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| subjects | acid sites density adsorbent and non-adsorbent membranes advanced oxidation process advanced oxidation processes bisphenol A bulk and surface diffusion campholenic aldehyde carbamazepine catalyst characterization catalyst preparation catalysts synthesis and characterization catalytic ozonation CHA-type zeolite CO2 assisted dehydrogenation crystallization mechanism dehydration diclofenac extra-large-pore fluorides generalized macro-transport theory heterogeneous catalysis heterogeneous catalyst Industrial chemistry and chemical engineering Industrial chemistry and manufacturing technologies interzeolite conversion method isobutane isomerization isosorbide LTL-type zeolite mass transfer and effectiveness factor mesoporous H-ZSM-5 methanol to aromatics methanol-to-olefin (MTO) MoO3-zeolite BETA MTO reaction n/a operando UV-vis spectroscopy oxidation ozone para-xylene phosphorous modified ZSM-5 propylene SBA-15 selectivity silicalite-1 solid acid catalyst sorbitol Technology, Engineering, Agriculture, Industrial processes Technology: general issues Ti-CFI Ti-CIT-5 titanosilicates trans-carveol transesterification wastewater treatment zeolites zeolitic imidazolate frameworks Zn-Co@N-doped carbon α-Pinene oxide |
| title | Microporous Zeolites and Related Nanoporous Materials: Synthesis, Characterization and Applications in Catalysis |
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