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Crown ethers --- Ethers --- Hydroxyl group --- Thiols --- Mercaptans --- Mercapto compounds --- Thiol alcohols --- Organosulfur compounds --- Group, Hydroxyl --- Hydroxyl radical --- Radicals (Chemistry) --- Organic compounds --- Macrocyclic polyethers --- Ionophores --- Ligands --- Macrocyclic compounds

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Active oxygen in the body --- Antioxidants --- Central Nervous System --- Hydroxyl Radical --- Hydroxyl group --- Nervous system --- Neurons --- Nitric Oxide --- Nitric oxide --- Reactive Oxygen Species --- Congresses. --- metabolism --- congresses. --- physiology --- Physiological effect --- Pathophysiology --- drug effects --- Congresses --- Hydroxyl group - Physiological effect - Congresses. --- Active oxygen in the body - Congresses. --- Nervous system - Pathophysiology - Congresses --- Nitric oxide - Physiological effect - Congresses --- Hydroxyl group - Physiological effect - Congresses --- Active oxygen in the body - Congresses --- CENTRAL NERVOUS SYSTEM --- NITRIC OXIDE --- HYDROXYL RADICAL --- REACTIVE OXYGEN SPECIES --- ANTIOXIDANTS --- NEURONS --- PHYSIOLOGY --- METABOLISM --- DRUG EFFECTS

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This book gives an overview of the state of the art in Catalytic Wet Peroxide Oxidation research for the treatment of industrial and urban wastewaters and provides novel solutions to overcome the current challenges of this technology. These solutions include tailoring of the catalysts to exploit the use of additional energy sources and oxidants. The collected papers illustrate the high versatility of this low-cost technology, easily adaptable to any kind of wastewater, either polluted by high-loaded recalcitrant organics in industrial wastewaters or by emerging pollutants at microconcentration levels in urban waters.

toxicity --- autocatalytic kinetics --- n/a --- fouling --- degradation --- H2O2 --- Fenton system --- crystal violet --- goethite --- water treatment --- Fenton reaction --- emerging micro-pollutants --- ligands --- wastewater --- adsorption --- potable reuse --- wet air oxidation --- solar radiation --- iron leaching --- 1 --- catalytic wet peroxidation --- autocombustion --- 4-dioxane --- antibiotics --- iron redox cycle --- advanced oxidation processes --- wet peroxide oxidation --- chemical oxygen demand --- circumneutral pH --- waste valorization --- wastewater treatment --- gold-based catalysts --- chlorobenzenes --- heterogeneous Fenton --- photocatalysis --- WO3/n?-Al2O3 --- CDots/g-C3N4 --- condensation by-products nature --- cost --- hydroxylamine --- biochemical oxygen demand --- condensation by-products --- advanced oxidation technology --- EDTA --- Tris --- hydroxyl radical --- radiation --- wastewater effluent --- water matrix --- catalytic wet peroxide oxidation --- phenol degradation

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Currently, nano/microparticles are widely used in various fields. Silver particles are one of the most vital of the various particles, due to their unique optical–physical–chemical properties. The developed materials have been proposed for use in various fields such as in biosensors, diagnostics, imaging, catalysts, solar cells, and as antibacterials. Their unique, size-dependent plasmonic properties render the particles superior in biomedical applications. This importance of silver materials led to the first edition of Silver Nano/Microparticles: Modification and Applications, which was successfully published last year with ten outstanding papers. This second edition of the Special Issue also provides original contributions detailing the synthesis, modification, and applications of silver materials. Eleven outstanding papers which describe examples of the most recent advances in silver nano/microparticles are included.

Technology: general issues --- antiviral property --- healthcare workers (HCWs) --- medical application --- microbicidal property --- silver nanoparticles (Ag NPs) --- cytotoxicity --- silver nanoparticles --- Candida albicans --- poly(methyl methacrylate) --- dental prostheses --- ultrasensitive detection --- thiram --- internal standard --- gold–silver-alloy-embedded silica nanoparticles --- bamboo --- Ag/TiO2 nanocomposites --- self-sacrificing reduction --- antifungal activity --- cyclophanes --- resorcin[4]arenes --- calix[n]arenes --- thiacalix[n]arenes --- pillar[n]arenes --- self-assembly --- silver nanostructures --- silver islands film --- silver deposition --- metal enhanced luminescence --- silver nanowires --- nanomaterials --- biocompatibility --- AgNP --- peptide array --- biomineralization --- green synthesis --- SIF --- photosynthetic complexes --- biohybrid structures --- MEF --- healthcare workers --- hydroxyl radical --- microbicidal activity --- silver nanoparticles (AgNPs) --- ultraviolet (UV) irradiation --- histamine --- fish --- gold-silver alloy-embedded silica nanoparticles --- surface-enhanced Raman scattering (SERS) --- reliable and sensitive detection --- n/a --- gold-silver-alloy-embedded silica nanoparticles

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The high importance of free radical chemistry for a variety of biological events, including ageing and inflammation, has attracted considerable interest in understanding the related mechanistic steps at the molecular level. Modelling the free radical chemical reactivity of biological systems is an important research area. When studying free-radical-based chemical mechanisms, biomimetic chemistry and the design of established biomimetic models come into play to perform experiments in a controlled environment, suitably designed to be a similar as possible to cellular conditions. This Special Issue provides readers with a wide overview of biomimetic radical chemistry, where molecular mechanisms have been defined and molecular libraries of products are developed to be used as traces for the discoveries of some relevant biological processes. Several subjects are presented, with five articles and five reviews written by specialists in the fields of DNA, proteins, lipids, biotechnological applications and bioinspired synthesis, with “free radicals” as the common denominator.

guanine --- guanyl radical --- tautomerism --- guanine radical cation --- oligonucleotides --- DNA --- G-quadruplex --- time-resolved spectroscopies --- reactive oxygen species (ROS) --- oxidation --- catalase mimics --- peroxide --- diiron-peroxo complexes --- structure/activity --- kinetic studies --- biomimetic chemistry --- cysteine --- ketone reduction --- free radicals --- pulse radiolysis --- kinetics --- DNA oxidation --- DNA hole transfer --- molecular dynamics --- quantum dynamics --- electron transfer --- charge transfer --- quantum coherence --- chemiluminescence --- reaction mechanisms --- singlet oxygen --- reactive oxygen species --- light emission --- crosslink --- dimerization --- protein oxidation --- radicals --- di-tyrosine --- di-tryptophan --- disulfides --- thiols --- aggregation --- proteomics --- mass spectrometry --- collagen --- riboflavin --- hyaluronic acid --- EPR spectroscopy --- keratoconus --- STEM --- DNA biosensor --- chemical nucleases --- DNA-drug interaction --- copper complexes --- metallodrugs --- MEP pathway --- antibiotics --- IspH --- LytB --- [4Fe-4S] cluster --- reductive dehydroxylation --- bioorganometallic intermediate --- inhibitors --- methionine --- neighboring group effect --- hydroxyl radical --- triplet state of carboxybenzophenone --- one-electron oxidants --- laser flash photolysis --- peptides --- proteins --- n/a