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This eBook is a collection of articles from a Frontiers Research Topic. Frontiers Research Topics are very popular trademarks of the Frontiers Journals Series: they are collections of at least ten articles, all centered on a particular subject. With their unique mix of varied contributions from Original Research to Review Articles, Frontiers Research Topics unify the most influential researchers, the latest key findings and historical advances in a hot research area! Find out more on how to host your own Frontiers Research Topic or contribute to one as an author by contacting the Frontiers Editorial Office: frontiersin.org/about/contact
Science: general issues --- Environmental Catalysis --- Energy Catalysis --- Photocatalysis --- Computational Catalysis --- Catalytic Mechanism --- environment remediation
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This eBook is a collection of articles from a Frontiers Research Topic. Frontiers Research Topics are very popular trademarks of the Frontiers Journals Series: they are collections of at least ten articles, all centered on a particular subject. With their unique mix of varied contributions from Original Research to Review Articles, Frontiers Research Topics unify the most influential researchers, the latest key findings and historical advances in a hot research area! Find out more on how to host your own Frontiers Research Topic or contribute to one as an author by contacting the Frontiers Editorial Office: frontiersin.org/about/contact
Environmental Catalysis --- Energy Catalysis --- Photocatalysis --- Computational Catalysis --- Catalytic Mechanism --- environment remediation
Choose an application
This eBook is a collection of articles from a Frontiers Research Topic. Frontiers Research Topics are very popular trademarks of the Frontiers Journals Series: they are collections of at least ten articles, all centered on a particular subject. With their unique mix of varied contributions from Original Research to Review Articles, Frontiers Research Topics unify the most influential researchers, the latest key findings and historical advances in a hot research area! Find out more on how to host your own Frontiers Research Topic or contribute to one as an author by contacting the Frontiers Editorial Office: frontiersin.org/about/contact
Science: general issues --- Environmental Catalysis --- Energy Catalysis --- Photocatalysis --- Computational Catalysis --- Catalytic Mechanism --- environment remediation
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This Special Issue collects novel contributions from scientists in the interdisciplinary field of biomolecular evolution. Works listed here use information theoretical concepts as a core but are tightly integrated with the study of molecular processes. Applications include the analysis of phylogenetic signals to elucidate biomolecular structure and function, the study and quantification of structural dynamics and allostery, as well as models of molecular interaction specificity inspired by evolutionary cues.
power law --- Brownian process --- Kolmogorov complexity --- entropy --- chaos --- monofractal --- non-linear --- cumulative sum --- sequence analysis --- protein engineering --- direct coupling analysis --- evolutionary coupling analysis --- contact prediction --- phylogenetic bias --- phylogeny --- co-evolution --- coevolutionary analysis --- direct-coupling analysis --- specificity determining contacts --- sequence reweighting --- maximum entropy models --- protein contact predictions --- TEM-1 --- TOHO-1 --- PBP-A --- DD-transpeptidase --- conformational changes --- catalytic mechanism --- evolution --- epistasis --- allostery --- elastic network model --- protein conformational dynamics --- statistical inference --- mutational phenotypes --- interaction specificity --- phosphorylation --- fitness landscape --- bacterial signaling --- n/a
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This Special Issue collects novel contributions from scientists in the interdisciplinary field of biomolecular evolution. Works listed here use information theoretical concepts as a core but are tightly integrated with the study of molecular processes. Applications include the analysis of phylogenetic signals to elucidate biomolecular structure and function, the study and quantification of structural dynamics and allostery, as well as models of molecular interaction specificity inspired by evolutionary cues.
Research & information: general --- Biology, life sciences --- power law --- Brownian process --- Kolmogorov complexity --- entropy --- chaos --- monofractal --- non-linear --- cumulative sum --- sequence analysis --- protein engineering --- direct coupling analysis --- evolutionary coupling analysis --- contact prediction --- phylogenetic bias --- phylogeny --- co-evolution --- coevolutionary analysis --- direct-coupling analysis --- specificity determining contacts --- sequence reweighting --- maximum entropy models --- protein contact predictions --- TEM-1 --- TOHO-1 --- PBP-A --- DD-transpeptidase --- conformational changes --- catalytic mechanism --- evolution --- epistasis --- allostery --- elastic network model --- protein conformational dynamics --- statistical inference --- mutational phenotypes --- interaction specificity --- phosphorylation --- fitness landscape --- bacterial signaling --- n/a
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This Special Issue collects novel contributions from scientists in the interdisciplinary field of biomolecular evolution. Works listed here use information theoretical concepts as a core but are tightly integrated with the study of molecular processes. Applications include the analysis of phylogenetic signals to elucidate biomolecular structure and function, the study and quantification of structural dynamics and allostery, as well as models of molecular interaction specificity inspired by evolutionary cues.
Research & information: general --- Biology, life sciences --- power law --- Brownian process --- Kolmogorov complexity --- entropy --- chaos --- monofractal --- non-linear --- cumulative sum --- sequence analysis --- protein engineering --- direct coupling analysis --- evolutionary coupling analysis --- contact prediction --- phylogenetic bias --- phylogeny --- co-evolution --- coevolutionary analysis --- direct-coupling analysis --- specificity determining contacts --- sequence reweighting --- maximum entropy models --- protein contact predictions --- TEM-1 --- TOHO-1 --- PBP-A --- DD-transpeptidase --- conformational changes --- catalytic mechanism --- evolution --- epistasis --- allostery --- elastic network model --- protein conformational dynamics --- statistical inference --- mutational phenotypes --- interaction specificity --- phosphorylation --- fitness landscape --- bacterial signaling
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This book is about supramolecular gold chemistry. This book provides a unique international forum aimed at covering a broad description of results involving the supramolecular chemistry of gold with a special focus on the gold–sulfur interface leading to hybrid materials ranging from gold–thiolate complexes to thiolate-protected gold nanoclusters and gold–thiolate supramolecular assemblies or nanoparticles. The role of thiolates on the structure and optical features of gold nanohybrid systems (ranging from plasmonic gold nanoparticles and fluorescent gold nanoclusters to self-assembled Au-containing thiolated coordination polymers) is highlighted in the 12 papers presented in this book.
Technology: general issues --- alloy --- metal exchange --- atomically precise --- gold nanoclusters --- thiolate --- catenane --- ion mobility --- DFT calculations --- gold nanocluster --- cross-coupling --- Ullmann hetero-coupling --- Sonogashira coupling --- Suzuki coupling --- A3−coupling --- catalytic mechanism --- ligand removal --- gold nanomaterials --- electron dynamics --- phonon dynamics --- optical properties --- Au70S20(PPh3)12 cluster --- superatom network model --- electronic structure --- geometric structure --- gold nanoparticles --- graphene oxide --- laser ablation --- Au-GO nano-hybrid --- coordination polymer structure --- amino acids --- template-assisted synthesis --- fluorescence --- Au(I)-thiolate --- gold nanohybrid materials --- 3-MBA/Au MPCs --- TEA-HFIP --- ESI-MS --- HPLC-MS --- bidentate binding --- gold thiolate --- coordination polymer --- lamellar structure --- luminescence --- polymer composite --- gold --- cluster --- catalyst --- hydrogen evolution reaction --- oxygen evolution reaction --- oxygen reduction reaction --- water splitting --- fuel cells --- ligand-protected --- photoluminescence mechanism --- metal nanoclusters --- quantum confinement effect --- ligand effect --- p band intermediate state (PBIS) --- interface state --- nanocatalysis --- 6-aza-2-thio-thymine --- protein --- n/a
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This book is about supramolecular gold chemistry. This book provides a unique international forum aimed at covering a broad description of results involving the supramolecular chemistry of gold with a special focus on the gold–sulfur interface leading to hybrid materials ranging from gold–thiolate complexes to thiolate-protected gold nanoclusters and gold–thiolate supramolecular assemblies or nanoparticles. The role of thiolates on the structure and optical features of gold nanohybrid systems (ranging from plasmonic gold nanoparticles and fluorescent gold nanoclusters to self-assembled Au-containing thiolated coordination polymers) is highlighted in the 12 papers presented in this book.
alloy --- metal exchange --- atomically precise --- gold nanoclusters --- thiolate --- catenane --- ion mobility --- DFT calculations --- gold nanocluster --- cross-coupling --- Ullmann hetero-coupling --- Sonogashira coupling --- Suzuki coupling --- A3−coupling --- catalytic mechanism --- ligand removal --- gold nanomaterials --- electron dynamics --- phonon dynamics --- optical properties --- Au70S20(PPh3)12 cluster --- superatom network model --- electronic structure --- geometric structure --- gold nanoparticles --- graphene oxide --- laser ablation --- Au-GO nano-hybrid --- coordination polymer structure --- amino acids --- template-assisted synthesis --- fluorescence --- Au(I)-thiolate --- gold nanohybrid materials --- 3-MBA/Au MPCs --- TEA-HFIP --- ESI-MS --- HPLC-MS --- bidentate binding --- gold thiolate --- coordination polymer --- lamellar structure --- luminescence --- polymer composite --- gold --- cluster --- catalyst --- hydrogen evolution reaction --- oxygen evolution reaction --- oxygen reduction reaction --- water splitting --- fuel cells --- ligand-protected --- photoluminescence mechanism --- metal nanoclusters --- quantum confinement effect --- ligand effect --- p band intermediate state (PBIS) --- interface state --- nanocatalysis --- 6-aza-2-thio-thymine --- protein --- n/a
Choose an application
This book is about supramolecular gold chemistry. This book provides a unique international forum aimed at covering a broad description of results involving the supramolecular chemistry of gold with a special focus on the gold–sulfur interface leading to hybrid materials ranging from gold–thiolate complexes to thiolate-protected gold nanoclusters and gold–thiolate supramolecular assemblies or nanoparticles. The role of thiolates on the structure and optical features of gold nanohybrid systems (ranging from plasmonic gold nanoparticles and fluorescent gold nanoclusters to self-assembled Au-containing thiolated coordination polymers) is highlighted in the 12 papers presented in this book.
Technology: general issues --- alloy --- metal exchange --- atomically precise --- gold nanoclusters --- thiolate --- catenane --- ion mobility --- DFT calculations --- gold nanocluster --- cross-coupling --- Ullmann hetero-coupling --- Sonogashira coupling --- Suzuki coupling --- A3−coupling --- catalytic mechanism --- ligand removal --- gold nanomaterials --- electron dynamics --- phonon dynamics --- optical properties --- Au70S20(PPh3)12 cluster --- superatom network model --- electronic structure --- geometric structure --- gold nanoparticles --- graphene oxide --- laser ablation --- Au-GO nano-hybrid --- coordination polymer structure --- amino acids --- template-assisted synthesis --- fluorescence --- Au(I)-thiolate --- gold nanohybrid materials --- 3-MBA/Au MPCs --- TEA-HFIP --- ESI-MS --- HPLC-MS --- bidentate binding --- gold thiolate --- coordination polymer --- lamellar structure --- luminescence --- polymer composite --- gold --- cluster --- catalyst --- hydrogen evolution reaction --- oxygen evolution reaction --- oxygen reduction reaction --- water splitting --- fuel cells --- ligand-protected --- photoluminescence mechanism --- metal nanoclusters --- quantum confinement effect --- ligand effect --- p band intermediate state (PBIS) --- interface state --- nanocatalysis --- 6-aza-2-thio-thymine --- protein
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