Modern developments in catalysis. Volume 2 /
Catalysis will play a major role in tackling the ... challenges of ... climate change ... [The] world population is projected to grow [to] 9.7 billion by 2050 ... 66% of the world's population is projected to live in cities by 2050 ... which will lead to increased demands for construction and b...
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Group Author: | |
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Published: |
World Scientific,
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Publisher Address: | New Jersey, NJ : |
Publication Dates: | [2023] |
Literature type: | Book |
Language: | English |
Subjects: | |
Summary: |
Catalysis will play a major role in tackling the ... challenges of ... climate change ... [The] world population is projected to grow [to] 9.7 billion by 2050 ... 66% of the world's population is projected to live in cities by 2050 ... which will lead to increased demands for construction and bulk chemicals ... [These] challenges will require advances in catalytic technology in diverse sectors from energy, to water, food production, functional materials, bulk and intermediate materials and pharmaceuticals/fine chemicals. This will only come about through improved understanding and targeted research programmes with collaboration between academia and industry ..."--Foreword (page v). |
Carrier Form: | xxxi, 607 pages : illustrations (some color) ; 24 cm |
Bibliography: | Includes bibliographical references and index. |
ISBN: |
9781800612006 1800612001 |
Index Number: | QD501 |
CLC: | O643.3 |
Call Number: | O643.3/M689-1/v.2 |
Contents: |
Sustainable hydrogen and/or syngas production : new approaches to reforming / In situ and operando measurement of catalysts at synchrotron X-ray and neutron sources / Outperforming nature's catalysts : designing metalloenzymes for chemical synthesis / Immobilisation of homogeneous catalysts in metal-organic frameworks : methods and selected examples / Polymerisation catalysis using CO2 : dinuclear homogeneous catalysts / Precious metals for environmental catalysis : gold / Precious metal catalysts for sustainable energy and environmental remediation / Quantum and statistical mechanical simulations for porous catalyst modelling / Life cycle assessment of emerging catalyst technologies : the case of polymer electrolyte membrane fuel cells / |