Chemical photocatalysis /Burkhard König.
Material type: TextPublisher number: : Zafaa Books | : 313/56F, 49A, Anand Nagar, Inderlok, Delhi.Publication details: . KG, Berlin : Walter de Gruyter GmbH & CoF ,2020Description: Xix,512P. : 24cmISBN: 9783110576542Subject(s): Fotokatalyse | Chemie | Photocatalysis | Chemistry Physical & TheoreticalDDC classification: 541.395 KONItem type | Current library | Call number | Status | Notes | Date due | Barcode | Item holds |
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Costly Books | SNU LIBRARY | 541.395 KON (Browse shelf(Opens below)) | Not For Loan | Costly Book | 29071 |
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541.395 COR Catalysis From A to Z | 541.395 COR Catalysis From A to Z | 541.395 COR Catalysis From A to Z | 541.395 KON Chemical photocatalysis | 541.395 MAR Heterogeneous photocatalysis : relationships with heterogeneous catalysis and perspectives. | 541.395 NOR Fundamental Concepts in Heterogeneous Catalysis | 541.395 ROT Catalysis |
Early pioneers of organic photochemistry
Photophysics of photocatalysts
Flavin photocatalysis
Templated enantioselective photocatalysis
Photocatalysis with nucleic acids and peptides
Visible light photoredox catalysis with [Ru(bpy)₃]²+ : general principles and the twentieth century roots
Homogeneous visible light-mediated transition metal photoredox catalysis other than ruthenium and iridium
Synergistic visible light photoredox catalysis
Photoredox catalyzed [alpha]-functionalization of amines
visible light mediated carbon-carbon and carbon-hetero bond forming reactions
Metal complexes for photohydrogenation and hydrogen evolution
Heterogeneous semiconductor photocatalysis
Polyoxometalates in photocatalysis
Description of excited states in photocatalysis with theoretical methods
Transient absorption
Time resolved spectroscopy in photocatalysis
Visible light is an abundant source of energy. While the conversion of light energy into electrical energy (photovoltaics) is highly developed and commercialized, the use of visible light in chemical synthesis is far less explored. Chemical photocatalysts that mimic principles of biological photosynthesis utilize visible light to drive endothermic or kinetically hindered reactions. This work summarizes in 16 chapters the state of the art and the challenges of this emerging future technology
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