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This book focuses on nanomaterials and strategies to fabricate the electrode for electrochemistry-based sensors. Excellent nanomaterials are essential for high-performance electrochemical sensors, while strategies for controllable assembly of nanomaterials on the electrode and the fabrication of sensing devices can be also important. This book covers the preparation of nanomaterials (magnesium phyllosilicate, metal–organic frameworks (MOF), and covalent–organic frameworks (COF), the fabrication of electrodes with unique several attracting properties (e.g., transparency) using carbon nanomaterials or novel nanotechnologies, and applications of electrochemical sensors.

Research & information: general --- Physics --- electrochemical biosensors --- self-assembly --- nanomaterials --- hybridization --- peptide --- streptavidin --- micro electrochemical sensor --- multi-analyte detection --- graphene oxide (GO) --- biofouling --- oxo functionalities --- copper cobalt sulfide --- porous structures --- nonenzymatic glucose sensing --- electrocatalysts --- analytical methods --- biosensors --- carbon materials --- electrochemical sensing --- H2O2 --- nanomaterial --- pH --- graphene --- graphene oxide --- defect --- surface functionalization --- SWCNT --- layer-by-layer --- transparent electrode --- DFTB --- DFT --- binding energies --- nanoprobe --- pathogen heat-treatment --- adenosine triphosphate luminescence --- graphene transparent electrode --- stretchable electrodes --- PDMS --- Ag --- contact point --- tunneling effect --- sol–gel processing --- talc-like clay --- amino-functionalized clay --- glassy carbon electrode --- Pb(II) detection --- water bioremediation --- covalent organic frameworks --- electrochemical sensor --- hydrazine --- nitrophenol --- nitrogen doped carbon --- reduced glutathione --- disposable immunosensor --- electrochemical detection --- nanochannel array --- patterned ITO electrode --- prostate-specific antigen --- n/a --- sol-gel processing

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This book describes the results of both theoretical and experimental research on many topical issues in intramolecular hydrogen bonding. Its great advantage is that the presented research results have been obtained using many different techniques. Therefore, it is an excellent review of these methods, while showing their applicability to the current scientific issues regarding intramolecular hydrogen bonds. The experimental techniques used include X-ray diffraction, infrared and Raman spectroscopy (IR), nuclear magnetic resonance spectroscopy (NMR), nuclear quadrupole resonance spectroscopy (NQR), incoherent inelastic neutron scattering (IINS), and differential scanning calorimetry (DSC). The solvatochromic and luminescent studies are also described. On the other hand, theoretical research is based on ab initio calculations and the Car–Parrinello Molecular Dynamics (CPMD). In the latter case, a description of nuclear quantum effects (NQE) is also possible. This book also demonstrates the use of theoretical methods such as Quantum Theory of Atoms in Molecules (QTAIM), Interacting Quantum Atoms (IQA), Natural Bond Orbital (NBO), Non-Covalent Interactions (NCI) index, Molecular Tailoring Approach (MTA), and many others.

Research & information: general --- intramolecular interaction --- interaction energy --- hydrogen bond --- intramolecular hydrogen bonds --- deuterium isotope effects on chemical shifts --- isotope ratios --- hydrogen bond energies --- intramolecular hydrogen bonding --- high-accuracy extrapolation methods --- QTAIM --- non-covalent interactions --- local vibrational modes --- hydrogen bond (HB) --- intramolecular hydrogen bond (IHB) --- molecular tailoring approach (MTA) --- fragmentation methods --- bond energy estimation --- noncovalent interactions --- structures and binding energies --- charge-transfer interactions --- spin–spin coupling constants --- polymorphism --- isomerization --- phase transition --- nitro group --- matrix isolation --- IINS --- FT-IR --- Raman --- X-ray --- NQR --- DSC --- DFT --- Schiff base --- N-salicylidene aniline derivative --- photophysical properties --- solvatochromism --- Hirshfeld surface analysis --- amino-alcohols --- α-substitution --- beryllium bonds --- calculated infrared spectra --- interacting quantum atoms --- resonance-assisted hydrogen bond --- Schiff bases --- inelastic incoherent neutron scattering --- isotopic effect --- excited-state intramolecular proton transfer --- photochemistry --- photobiology --- quantum chemistry --- molecular dynamics --- ultrafast processes --- gas phase --- crystalline phase --- MP2 --- CCSD --- AIM --- SAPT --- nuclear quantum effects --- CPMD --- n/a --- spin-spin coupling constants

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This Special Issue of Nanomaterials collects a series of original research articles providing new insight into the application of computational quantum physics and chemistry in research on nanomaterials. It illustrates the extension and diversity of the field and indicates some future directions. It provides the reader with an overall view of the latest prospects in this fast evolving and cross-disciplinary field

BTF --- TATB --- CL-20 --- cocrystal --- energetic materials --- shock sensitivity --- large-scale ab initio molecular dynamics simulations --- AlN --- low-dimensional material --- atomic cluster --- electronic structure --- HSE06 hybrid functional --- CsPbBr3 --- CsPb2Br5 --- solvent polarity --- CTAB --- phase transition --- high-entropy alloys --- generalized stacking fault energy --- first-principles --- interfacial energy --- surface energy --- nanoparticles --- gold --- ab initio --- molecular mechanics --- fcc Ni --- tilt Σ5(210) grain boundary --- vacancy --- Si and Al impurity --- grain boundary energy --- segregation energy --- defects binding energies --- magnetism --- ferroelectricity --- SnTe --- nanoribbon --- nanoflakes --- critical size --- density-functional theory --- thermodynamics --- silver --- decahedron --- excess energy --- ab initio calculations --- dye-sensitized solar cells --- azobenzene --- density functional theory --- topological insulators --- magnetic doping --- defects --- environment and health --- first-principles physics --- DFT --- hazardous gas --- n/a

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This book describes the results of both theoretical and experimental research on many topical issues in intramolecular hydrogen bonding. Its great advantage is that the presented research results have been obtained using many different techniques. Therefore, it is an excellent review of these methods, while showing their applicability to the current scientific issues regarding intramolecular hydrogen bonds. The experimental techniques used include X-ray diffraction, infrared and Raman spectroscopy (IR), nuclear magnetic resonance spectroscopy (NMR), nuclear quadrupole resonance spectroscopy (NQR), incoherent inelastic neutron scattering (IINS), and differential scanning calorimetry (DSC). The solvatochromic and luminescent studies are also described. On the other hand, theoretical research is based on ab initio calculations and the Car–Parrinello Molecular Dynamics (CPMD). In the latter case, a description of nuclear quantum effects (NQE) is also possible. This book also demonstrates the use of theoretical methods such as Quantum Theory of Atoms in Molecules (QTAIM), Interacting Quantum Atoms (IQA), Natural Bond Orbital (NBO), Non-Covalent Interactions (NCI) index, Molecular Tailoring Approach (MTA), and many others.

Research & information: general --- intramolecular interaction --- interaction energy --- hydrogen bond --- intramolecular hydrogen bonds --- deuterium isotope effects on chemical shifts --- isotope ratios --- hydrogen bond energies --- intramolecular hydrogen bonding --- high-accuracy extrapolation methods --- QTAIM --- non-covalent interactions --- local vibrational modes --- hydrogen bond (HB) --- intramolecular hydrogen bond (IHB) --- molecular tailoring approach (MTA) --- fragmentation methods --- bond energy estimation --- noncovalent interactions --- structures and binding energies --- charge-transfer interactions --- spin-spin coupling constants --- polymorphism --- isomerization --- phase transition --- nitro group --- matrix isolation --- IINS --- FT-IR --- Raman --- X-ray --- NQR --- DSC --- DFT --- Schiff base --- N-salicylidene aniline derivative --- photophysical properties --- solvatochromism --- Hirshfeld surface analysis --- amino-alcohols --- α-substitution --- beryllium bonds --- calculated infrared spectra --- interacting quantum atoms --- resonance-assisted hydrogen bond --- Schiff bases --- inelastic incoherent neutron scattering --- isotopic effect --- excited-state intramolecular proton transfer --- photochemistry --- photobiology --- quantum chemistry --- molecular dynamics --- ultrafast processes --- gas phase --- crystalline phase --- MP2 --- CCSD --- AIM --- SAPT --- nuclear quantum effects --- CPMD