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The book represents a collection of papers from Special Issue “Formation of Advanced Nanomaterials by Gas-Phase Aggregation” published in journal Applied Nano. It contains review and original articles covering a range of topics on the growth of clusters/nanoparticles using gas-phase aggregation approaches, the application of cluster beams for the formation of nanomaterials with advanced properties and specific nanostructures as well as providing new fundamental insights on nanoscale properties of materials.

silver nanoparticles --- nano-PALDI MS --- SALDI MS --- laser desorption --- gas-phase synthesis of nanoparticles --- cluster sources --- nanomaterials prepared by gas aggregation --- polymer/metal nanocomposites --- electroactive actuators --- soft robotics --- biosensors --- chemical sensors --- gas phase --- gas sensors --- nanoparticles --- sputtering --- strain sensors --- core@shell nanoparticles --- CoCr nanoparticles --- cluster ion beam --- nanostructures --- potassium titanyl phosphate --- atomic force microscopy --- power spectral density function --- n/a

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Proteins represent one of the most abundant classes of biological macromolecules and play crucial roles in a vast array of physiological and pathological processes. The knowledge of the 3D structure of a protein, as well as the possible conformational transitions occurring upon interaction with diverse ligands, are essential to fully comprehend its biological function.In addition to globular, well-folded proteins, over the past few years, intrinsically disordered proteins (IDPs) have received a lot of attention. IDPs are usually aggregation-prone and may form toxic amyloid fibers and oligomers associated with several human pathologies. Peptides are smaller in size than proteins but similarly represent key elements of cells. A few peptides are able to work as tumor markers and find applications in the diagnostic and therapeutic fields. The conformational analysis of bioactive peptides is important to design novel potential drugs acting as selective modulators of specific receptors or enzymes. Nevertheless, synthetic peptides reproducing different protein fragments have frequently been implemented as model systems in folding studies relying on structural investigations in water and/or other environments.This book contains contributions (seven original research articles and five reviews published in the journal Molecules) on the above-described topics and, in detail, it includes structural studies on globular folded proteins, IDPs and bioactive peptides. These works were conducted usingdifferent experimental methods.

Research & information: general --- mass spectrometric epitope mapping --- gas phase immune complex dissociation --- apparent gas phase dissociation constants --- apparent gas phase activation energies --- ITEM-TWO --- native mass spectrometry --- TRIOBP --- cancer --- deafness --- hearing loss --- mental illness --- schizophrenia --- actin --- cytoskeleton --- disordered structure --- protein aggregation --- solid-state NMR --- ELDOR-detected NMR --- ATP hydrolysis --- ATP analogues --- DnaB helicase --- ABC transporter --- biopesticides --- antifungal activity --- insecticidal activity --- mechanism of action --- transgenic crops --- protein folding --- NMR --- High Hydrostatic Pressure --- ACE2 --- viral spike receptor-binding domain --- SARS-CoV-2 --- transmission --- bioinformatics --- IDP 1 --- binding 2 --- molecular dynamics 3 --- MELD×MD 4 --- advanced sampling 5 --- p53 6 --- MDM2 7 --- NAD(P)H-dependent oxidoreductase --- zinc-containing alcohol dehydrogenase --- cofactor binding and release --- interdomain cleft dynamics --- molecular dynamics simulations --- denatured state ensemble --- protein coil library --- peptides --- intrinsically disordered proteins --- ion-pairing interaction --- side-chain length --- charged amino acids --- β-hairpin --- peptide --- Friedman’s test --- backbone atom coordinate variances and uncertainties --- superimposition --- nanobody --- protein structure --- immunoglobulin domain --- n/a --- Friedman's test

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Proteins represent one of the most abundant classes of biological macromolecules and play crucial roles in a vast array of physiological and pathological processes. The knowledge of the 3D structure of a protein, as well as the possible conformational transitions occurring upon interaction with diverse ligands, are essential to fully comprehend its biological function.In addition to globular, well-folded proteins, over the past few years, intrinsically disordered proteins (IDPs) have received a lot of attention. IDPs are usually aggregation-prone and may form toxic amyloid fibers and oligomers associated with several human pathologies. Peptides are smaller in size than proteins but similarly represent key elements of cells. A few peptides are able to work as tumor markers and find applications in the diagnostic and therapeutic fields. The conformational analysis of bioactive peptides is important to design novel potential drugs acting as selective modulators of specific receptors or enzymes. Nevertheless, synthetic peptides reproducing different protein fragments have frequently been implemented as model systems in folding studies relying on structural investigations in water and/or other environments.This book contains contributions (seven original research articles and five reviews published in the journal Molecules) on the above-described topics and, in detail, it includes structural studies on globular folded proteins, IDPs and bioactive peptides. These works were conducted usingdifferent experimental methods.

Research & information: general --- mass spectrometric epitope mapping --- gas phase immune complex dissociation --- apparent gas phase dissociation constants --- apparent gas phase activation energies --- ITEM-TWO --- native mass spectrometry --- TRIOBP --- cancer --- deafness --- hearing loss --- mental illness --- schizophrenia --- actin --- cytoskeleton --- disordered structure --- protein aggregation --- solid-state NMR --- ELDOR-detected NMR --- ATP hydrolysis --- ATP analogues --- DnaB helicase --- ABC transporter --- biopesticides --- antifungal activity --- insecticidal activity --- mechanism of action --- transgenic crops --- protein folding --- NMR --- High Hydrostatic Pressure --- ACE2 --- viral spike receptor-binding domain --- SARS-CoV-2 --- transmission --- bioinformatics --- IDP 1 --- binding 2 --- molecular dynamics 3 --- MELD×MD 4 --- advanced sampling 5 --- p53 6 --- MDM2 7 --- NAD(P)H-dependent oxidoreductase --- zinc-containing alcohol dehydrogenase --- cofactor binding and release --- interdomain cleft dynamics --- molecular dynamics simulations --- denatured state ensemble --- protein coil library --- peptides --- intrinsically disordered proteins --- ion-pairing interaction --- side-chain length --- charged amino acids --- β-hairpin --- peptide --- Friedman's test --- backbone atom coordinate variances and uncertainties --- superimposition --- nanobody --- protein structure --- immunoglobulin domain

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Photoactive nanomaterials have been receiving increasing attention due to their potential application in the light-driven degradation of water and gas-phase pollutants. However, to exploit the great potential of photoactive materials and access their properties requires fine-tuning of their size/shape-dependent chemical-physical properties, and on the ability to integrate them in photoreactors or to deposit them onto large surfaces. Therefore, the synthetic approach as well as post-synthesis manipulation could strongly affect the final photocatalytic properties of the nanomaterial. The aim of the present Special Issue is to report on the most recent progress towards the application of photoactive nanomaterials and nanomaterial-based coatings in pollutant degradation, paying particular attention to cases close to real application: scalable synthetic approaches to nanocatalysts, preparation of nanocatalyst-based coatings, degradation of real pollutants and bacterial inactivation, and application in building materials.

toxicity --- polar herbicide --- composite nanorods --- heterojunction --- degradation --- nanocomposites --- nanoparticles --- polyester --- TiO2 nanotube --- environmental remediation --- building materials --- hydroxyapatite --- VOCs --- reactive green 12 --- Pt loaded TiO2 --- nanomaterials --- expansion --- photocatalytic activity --- CuxO/TiO2 --- water remediation --- antimicrobial properties --- sputtering --- diclofenac --- mesoporous --- TiO2 --- advanced oxidation processes --- mortar --- disinfection --- HiPIMS --- microcracks --- Cu2O --- sulfate attack --- NOx --- photocatalysis --- blast furnace slag --- paraquat --- recalcitrant pollutants --- shell thickness --- water treatments --- visible light LEDs --- cement --- deterioration --- transformation products --- gas-phase pollutants --- titanium dioxide --- photoelectrocatalysis --- Z-scheme

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Kinetics and reactor modeling for heterogeneous catalytic reactions are prominent tools for investigating and understanding catalyst functionalities at nanoscale and the related rates of complex reaction networks. This book illustrates some examples related to the transformation of simple to more complex feedstocks, including different types of reactor designs, i.e., steady-state, transient plug flow reactors, and TAP reactors for which there is sometimes a strong gap in the operating conditions from ultra-high-vacuum to high-pressure conditions. In conjunction, new methodologies have emerged, giving rise to more robust microkinetics models. As exemplified, they include the kinetics and the dynamics of the reactors and span a large range of length and time scales. The objective of this Special Issue is to provide contributions that can illustrate recent advances and novel methodologies for elucidating the kinetics of heterogeneous reactions and the necessary multiscale approach for optimizing the reactor design. This book is dedicated to postgraduate and scientific researchers, and experts in heterogeneous catalysis. It may also serve as a source of original information for the elaboration of lessons on catalysis for Master students.

microkinetics --- n/a --- internal effectiveness factor --- FTIR spectroscopy --- automation --- power-law --- AEIR method --- promoter --- TAP reactor --- rhodium --- Temkin model --- mechanism analysis --- H2S --- N2O --- catalytic decomposition --- cracking --- 1 --- 2 --- methanol-to-olefins (MTO) --- zeolite --- ZSM-23 --- kinetic model --- pilot-scale fixed-bed reactor --- methane --- effective diffusion coefficient --- SAPO-18 --- kinetics --- alkali metal --- ZSM-5 --- digitalization --- gas-phase oxidation --- kinetic modeling --- temporal analysis of products --- selective oxidation --- Methyl Ethyl Ketone --- amorphous calcium phosphate --- reactor modeling --- HNO3 --- 3-Butadiene --- transient kinetics --- catalytic combustion --- cobalt mixed oxide --- 3-Butanediol dehydration --- ammonia decomposition --- heats of adsorption --- Pd/?-Al2O3 --- SAPO-34 --- Langmuir–Hinshelwood --- hierarchical graphite felts