Verfügbarkeit: Prebiotic photochemistry :

Prebiotic photochemistry :: from Urey-Miller-like experiments to recent findings /

This book covers the photochemical aspects of the study of prebiotic and origin of life chemistry an ideal companion for postgraduates and researchers in prebiotic chemistry, photochemistry, photobiology, chemical biology and astrochemistry.

Gespeichert in:

Bibliographische Detailangaben
Weitere Verfasser:	Saija, Franz (HerausgeberIn), Cassone, Giuseppe (HerausgeberIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	London : Royal Society of Chemistry, [2021]
Schriftenreihe:	Comprehensive series in photochemistry & photobiology ; v. 20.
Schlagworte:	Molecular evolution. Évolution moléculaire. Molecular evolution
Online-Zugang:	Volltext
Zusammenfassung:	This book covers the photochemical aspects of the study of prebiotic and origin of life chemistry an ideal companion for postgraduates and researchers in prebiotic chemistry, photochemistry, photobiology, chemical biology and astrochemistry.
Beschreibung:	1 online resource
Bibliographie:	Includes bibliographical references and index.
ISBN:	9781839164361 1839164360 9781839164354 1839164352

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505	0		\|a Intro -- Halftitle -- Series -- Title -- Copyright -- Preface -- Contents -- Chapter 1 The Light of Photophysics and Photochemistry -- References -- Chapter 2 Extraterrestrial Photochemistry: Principles and Applications -- 2.1 Introduction: Photochemistry in Space -- 2.1.1 Photons in Space -- 2.1.2 Gas-phase Extraterrestrial Photochemistry -- 2.1.3 Condensed-phase Extraterrestrial Photochemistry -- 2.2 Principles of Photochemistry -- 2.2.1 Photochemistry and Electronically Excited States -- 2.2.2 Photochemistry vs. Radiation Chemistry -- 2.2.3 Laws of Photochemistry -- 2.2.4 Quantum Yields
505	8		\|a 2.3 Photochemistry Dynamics -- 2.3.1 Potential Energy Curves Give Static, Dynamic, and Spectroscopic Information -- 2.3.2 Five Scenarios for Photon-induced Dissociation of a Diatomic Molecule -- 2.3.3 Selection Rules -- 2.3.4 Application to Gaseous Molecular Oxygen -- 2.3.5 Photochemistry of Polyatomic Molecules -- 2.4 Photochemistry in the Condensed Phase -- 2.4.1 Exciton Diffusion Competing with Photochemistry -- 2.4.2 Excimers and Exciplexes -- 2.4.3 Kasha's Rule -- 2.4.4 Ionization Energy in the Condensed Phase Lowered because of Screening
505	8		\|a 2.4.5 Mean Free Path of Photons in the Condensed Phase -- 2.5 Conclusions -- Acknowledgements -- References -- Chapter 3 Gas-phase Prebiotic Chemistry Driven by Ultraviolet Photolysis of Simple Molecules -- 3.1 How did Massive Synthesis of Organic Molecules Occur before the Emergence of Life? -- 3.2 The Chemistry of the Atmosphere of Titan and a New Endogenous Synthesis Paradigm -- 3.3 The Study of the Chemistry of Planetary Atmospheres: Beyond a Holistic Approach -- 3.3.1 Photochemical Models -- 3.3.2 The Study of Elementary Reactions
505	8		\|a 3.4 The Role of the First Electronically Excited State of Atomic Nitrogen, N(2D), in the Neutral Chemistry Leading to N-bearing Organic Compounds -- 3.5 Conclusion -- Acknowledgements -- References -- Chapter 4 Unveiling Early Earth Photochemistry Through Experimental Simulations of Planetary Atmospheres -- 4.1 Habitability of the Early Earth -- 4.1.1 Origin of Volatiles on Early Earth -- 4.1.2 Chemical Composition of the Early Earth Atmosphere at Late Hadean -- 4.1.3 Summary of the Atmospheric Composition on Early Earth Supporting the Emergence of Life -- 4.2 Early Earth Photochemistry
505	8		\|a 4.2.1 Atmospheric Photochemistry Triggered by the Young Sun -- 4.2.2 Experimental Simulation of Early Earth Photochemistry -- 4.3 Prebiotic Potential of Atmospheric Chemistry on Early Earth -- 4.3.1 Prebiotic Molecules -- 4.3.2 Climate Impact -- 4.4 Conclusion and Perspectives: what Do We Learn from Other Planets? -- Acknowledgements -- References -- Chapter 5 Rethinking UV-induced Prebiotic Selection of Biomolecules -- 5.1 Introduction -- 5.1.1 Introduction to UV Fluxes -- 5.2 Photostability of RNA and DNA Building Blocks in the Gas Phase
520			\|a This book covers the photochemical aspects of the study of prebiotic and origin of life chemistry an ideal companion for postgraduates and researchers in prebiotic chemistry, photochemistry, photobiology, chemical biology and astrochemistry.
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contents	Intro -- Halftitle -- Series -- Title -- Copyright -- Preface -- Contents -- Chapter 1 The Light of Photophysics and Photochemistry -- References -- Chapter 2 Extraterrestrial Photochemistry: Principles and Applications -- 2.1 Introduction: Photochemistry in Space -- 2.1.1 Photons in Space -- 2.1.2 Gas-phase Extraterrestrial Photochemistry -- 2.1.3 Condensed-phase Extraterrestrial Photochemistry -- 2.2 Principles of Photochemistry -- 2.2.1 Photochemistry and Electronically Excited States -- 2.2.2 Photochemistry vs. Radiation Chemistry -- 2.2.3 Laws of Photochemistry -- 2.2.4 Quantum Yields 2.3 Photochemistry Dynamics -- 2.3.1 Potential Energy Curves Give Static, Dynamic, and Spectroscopic Information -- 2.3.2 Five Scenarios for Photon-induced Dissociation of a Diatomic Molecule -- 2.3.3 Selection Rules -- 2.3.4 Application to Gaseous Molecular Oxygen -- 2.3.5 Photochemistry of Polyatomic Molecules -- 2.4 Photochemistry in the Condensed Phase -- 2.4.1 Exciton Diffusion Competing with Photochemistry -- 2.4.2 Excimers and Exciplexes -- 2.4.3 Kasha's Rule -- 2.4.4 Ionization Energy in the Condensed Phase Lowered because of Screening 2.4.5 Mean Free Path of Photons in the Condensed Phase -- 2.5 Conclusions -- Acknowledgements -- References -- Chapter 3 Gas-phase Prebiotic Chemistry Driven by Ultraviolet Photolysis of Simple Molecules -- 3.1 How did Massive Synthesis of Organic Molecules Occur before the Emergence of Life? -- 3.2 The Chemistry of the Atmosphere of Titan and a New Endogenous Synthesis Paradigm -- 3.3 The Study of the Chemistry of Planetary Atmospheres: Beyond a Holistic Approach -- 3.3.1 Photochemical Models -- 3.3.2 The Study of Elementary Reactions 3.4 The Role of the First Electronically Excited State of Atomic Nitrogen, N(2D), in the Neutral Chemistry Leading to N-bearing Organic Compounds -- 3.5 Conclusion -- Acknowledgements -- References -- Chapter 4 Unveiling Early Earth Photochemistry Through Experimental Simulations of Planetary Atmospheres -- 4.1 Habitability of the Early Earth -- 4.1.1 Origin of Volatiles on Early Earth -- 4.1.2 Chemical Composition of the Early Earth Atmosphere at Late Hadean -- 4.1.3 Summary of the Atmospheric Composition on Early Earth Supporting the Emergence of Life -- 4.2 Early Earth Photochemistry 4.2.1 Atmospheric Photochemistry Triggered by the Young Sun -- 4.2.2 Experimental Simulation of Early Earth Photochemistry -- 4.3 Prebiotic Potential of Atmospheric Chemistry on Early Earth -- 4.3.1 Prebiotic Molecules -- 4.3.2 Climate Impact -- 4.4 Conclusion and Perspectives: what Do We Learn from Other Planets? -- Acknowledgements -- References -- Chapter 5 Rethinking UV-induced Prebiotic Selection of Biomolecules -- 5.1 Introduction -- 5.1.1 Introduction to UV Fluxes -- 5.2 Photostability of RNA and DNA Building Blocks in the Gas Phase
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series	Comprehensive series in photochemistry & photobiology ;
series2	Comprehensive series in photochemical and photobiological sciences ;
spelling	Prebiotic photochemistry : from Urey-Miller-like experiments to recent findings / edited by Franz Saija and Giuseppe Cassone. London : Royal Society of Chemistry, [2021] 1 online resource text txt rdacontent computer c rdamedia online resource cr rdacarrier Comprehensive series in photochemical and photobiological sciences ; no. 20 Includes bibliographical references and index. Online resource; title from digital title page (viewed on June 25, 2021). Intro -- Halftitle -- Series -- Title -- Copyright -- Preface -- Contents -- Chapter 1 The Light of Photophysics and Photochemistry -- References -- Chapter 2 Extraterrestrial Photochemistry: Principles and Applications -- 2.1 Introduction: Photochemistry in Space -- 2.1.1 Photons in Space -- 2.1.2 Gas-phase Extraterrestrial Photochemistry -- 2.1.3 Condensed-phase Extraterrestrial Photochemistry -- 2.2 Principles of Photochemistry -- 2.2.1 Photochemistry and Electronically Excited States -- 2.2.2 Photochemistry vs. Radiation Chemistry -- 2.2.3 Laws of Photochemistry -- 2.2.4 Quantum Yields 2.3 Photochemistry Dynamics -- 2.3.1 Potential Energy Curves Give Static, Dynamic, and Spectroscopic Information -- 2.3.2 Five Scenarios for Photon-induced Dissociation of a Diatomic Molecule -- 2.3.3 Selection Rules -- 2.3.4 Application to Gaseous Molecular Oxygen -- 2.3.5 Photochemistry of Polyatomic Molecules -- 2.4 Photochemistry in the Condensed Phase -- 2.4.1 Exciton Diffusion Competing with Photochemistry -- 2.4.2 Excimers and Exciplexes -- 2.4.3 Kasha's Rule -- 2.4.4 Ionization Energy in the Condensed Phase Lowered because of Screening 2.4.5 Mean Free Path of Photons in the Condensed Phase -- 2.5 Conclusions -- Acknowledgements -- References -- Chapter 3 Gas-phase Prebiotic Chemistry Driven by Ultraviolet Photolysis of Simple Molecules -- 3.1 How did Massive Synthesis of Organic Molecules Occur before the Emergence of Life? -- 3.2 The Chemistry of the Atmosphere of Titan and a New Endogenous Synthesis Paradigm -- 3.3 The Study of the Chemistry of Planetary Atmospheres: Beyond a Holistic Approach -- 3.3.1 Photochemical Models -- 3.3.2 The Study of Elementary Reactions 3.4 The Role of the First Electronically Excited State of Atomic Nitrogen, N(2D), in the Neutral Chemistry Leading to N-bearing Organic Compounds -- 3.5 Conclusion -- Acknowledgements -- References -- Chapter 4 Unveiling Early Earth Photochemistry Through Experimental Simulations of Planetary Atmospheres -- 4.1 Habitability of the Early Earth -- 4.1.1 Origin of Volatiles on Early Earth -- 4.1.2 Chemical Composition of the Early Earth Atmosphere at Late Hadean -- 4.1.3 Summary of the Atmospheric Composition on Early Earth Supporting the Emergence of Life -- 4.2 Early Earth Photochemistry 4.2.1 Atmospheric Photochemistry Triggered by the Young Sun -- 4.2.2 Experimental Simulation of Early Earth Photochemistry -- 4.3 Prebiotic Potential of Atmospheric Chemistry on Early Earth -- 4.3.1 Prebiotic Molecules -- 4.3.2 Climate Impact -- 4.4 Conclusion and Perspectives: what Do We Learn from Other Planets? -- Acknowledgements -- References -- Chapter 5 Rethinking UV-induced Prebiotic Selection of Biomolecules -- 5.1 Introduction -- 5.1.1 Introduction to UV Fluxes -- 5.2 Photostability of RNA and DNA Building Blocks in the Gas Phase This book covers the photochemical aspects of the study of prebiotic and origin of life chemistry an ideal companion for postgraduates and researchers in prebiotic chemistry, photochemistry, photobiology, chemical biology and astrochemistry. Molecular evolution. http://id.loc.gov/authorities/subjects/sh85022912 Évolution moléculaire. Molecular evolution fast Saija, Franz, editor. Cassone, Giuseppe, editor. Print version: 1839161779 9781839161773 (OCoLC)1201655173 Comprehensive series in photochemistry & photobiology ; v. 20. http://id.loc.gov/authorities/names/no2003067323 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=2948711 Volltext
spellingShingle	Prebiotic photochemistry : from Urey-Miller-like experiments to recent findings / Comprehensive series in photochemistry & photobiology ; Intro -- Halftitle -- Series -- Title -- Copyright -- Preface -- Contents -- Chapter 1 The Light of Photophysics and Photochemistry -- References -- Chapter 2 Extraterrestrial Photochemistry: Principles and Applications -- 2.1 Introduction: Photochemistry in Space -- 2.1.1 Photons in Space -- 2.1.2 Gas-phase Extraterrestrial Photochemistry -- 2.1.3 Condensed-phase Extraterrestrial Photochemistry -- 2.2 Principles of Photochemistry -- 2.2.1 Photochemistry and Electronically Excited States -- 2.2.2 Photochemistry vs. Radiation Chemistry -- 2.2.3 Laws of Photochemistry -- 2.2.4 Quantum Yields 2.3 Photochemistry Dynamics -- 2.3.1 Potential Energy Curves Give Static, Dynamic, and Spectroscopic Information -- 2.3.2 Five Scenarios for Photon-induced Dissociation of a Diatomic Molecule -- 2.3.3 Selection Rules -- 2.3.4 Application to Gaseous Molecular Oxygen -- 2.3.5 Photochemistry of Polyatomic Molecules -- 2.4 Photochemistry in the Condensed Phase -- 2.4.1 Exciton Diffusion Competing with Photochemistry -- 2.4.2 Excimers and Exciplexes -- 2.4.3 Kasha's Rule -- 2.4.4 Ionization Energy in the Condensed Phase Lowered because of Screening 2.4.5 Mean Free Path of Photons in the Condensed Phase -- 2.5 Conclusions -- Acknowledgements -- References -- Chapter 3 Gas-phase Prebiotic Chemistry Driven by Ultraviolet Photolysis of Simple Molecules -- 3.1 How did Massive Synthesis of Organic Molecules Occur before the Emergence of Life? -- 3.2 The Chemistry of the Atmosphere of Titan and a New Endogenous Synthesis Paradigm -- 3.3 The Study of the Chemistry of Planetary Atmospheres: Beyond a Holistic Approach -- 3.3.1 Photochemical Models -- 3.3.2 The Study of Elementary Reactions 3.4 The Role of the First Electronically Excited State of Atomic Nitrogen, N(2D), in the Neutral Chemistry Leading to N-bearing Organic Compounds -- 3.5 Conclusion -- Acknowledgements -- References -- Chapter 4 Unveiling Early Earth Photochemistry Through Experimental Simulations of Planetary Atmospheres -- 4.1 Habitability of the Early Earth -- 4.1.1 Origin of Volatiles on Early Earth -- 4.1.2 Chemical Composition of the Early Earth Atmosphere at Late Hadean -- 4.1.3 Summary of the Atmospheric Composition on Early Earth Supporting the Emergence of Life -- 4.2 Early Earth Photochemistry 4.2.1 Atmospheric Photochemistry Triggered by the Young Sun -- 4.2.2 Experimental Simulation of Early Earth Photochemistry -- 4.3 Prebiotic Potential of Atmospheric Chemistry on Early Earth -- 4.3.1 Prebiotic Molecules -- 4.3.2 Climate Impact -- 4.4 Conclusion and Perspectives: what Do We Learn from Other Planets? -- Acknowledgements -- References -- Chapter 5 Rethinking UV-induced Prebiotic Selection of Biomolecules -- 5.1 Introduction -- 5.1.1 Introduction to UV Fluxes -- 5.2 Photostability of RNA and DNA Building Blocks in the Gas Phase Molecular evolution. http://id.loc.gov/authorities/subjects/sh85022912 Évolution moléculaire. Molecular evolution fast
subject_GND	http://id.loc.gov/authorities/subjects/sh85022912
title	Prebiotic photochemistry : from Urey-Miller-like experiments to recent findings /
title_auth	Prebiotic photochemistry : from Urey-Miller-like experiments to recent findings /
title_exact_search	Prebiotic photochemistry : from Urey-Miller-like experiments to recent findings /
title_full	Prebiotic photochemistry : from Urey-Miller-like experiments to recent findings / edited by Franz Saija and Giuseppe Cassone.
title_fullStr	Prebiotic photochemistry : from Urey-Miller-like experiments to recent findings / edited by Franz Saija and Giuseppe Cassone.
title_full_unstemmed	Prebiotic photochemistry : from Urey-Miller-like experiments to recent findings / edited by Franz Saija and Giuseppe Cassone.
title_short	Prebiotic photochemistry :
title_sort	prebiotic photochemistry from urey miller like experiments to recent findings
title_sub	from Urey-Miller-like experiments to recent findings /
topic	Molecular evolution. http://id.loc.gov/authorities/subjects/sh85022912 Évolution moléculaire. Molecular evolution fast
topic_facet	Molecular evolution. Évolution moléculaire. Molecular evolution
url	https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=2948711
work_keys_str_mv	AT saijafranz prebioticphotochemistryfromureymillerlikeexperimentstorecentfindings AT cassonegiuseppe prebioticphotochemistryfromureymillerlikeexperimentstorecentfindings

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