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Life depends on the ability of living organisms to effectively harness the chemical potential of their environment, namely the sun, for energy, and a certain number of molecules which exist on the Earth’s surface, such as water, oxygen, carbon dioxide, nitrogen, etc. These molecules need to be activated if benefit is to be derived from them, which requires profound electronic modifications that only metal ions can provide. Truly extraordinary metalloenzymes with highly subtle mechanisms are responsible for this activation. Bioinorganic chemistry straddles the disciplines of chemistry and biology and is in full expansion today. This discipline was born of the recent realisation that life is not solely organic but also “mineral”, and that no life can exist without metals.
Biology --- Health & Biological Sciences --- Biology - General --- chemistry --- bioinorganic chemistry --- molecule --- biological chemistry
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Life depends on the ability of living organisms to effectively harness the chemical potential of their environment, namely the sun, for energy, and a certain number of molecules which exist on the Earth’s surface, such as water, oxygen, carbon dioxide, nitrogen, etc. These molecules need to be activated if benefit is to be derived from them, which requires profound electronic modifications that only metal ions can provide. Truly extraordinary metalloenzymes with highly subtle mechanisms are responsible for this activation. Bioinorganic chemistry straddles the disciplines of chemistry and biology and is in full expansion today. This discipline was born of the recent realisation that life is not solely organic but also “mineral”, and that no life can exist without metals.
Biology --- Health & Biological Sciences --- Biology - General --- chemistry --- bioinorganic chemistry --- molecule --- biological chemistry
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Metal ions play an important role in analytical chemistry, organometallic chemistry, bioinorganic chemistry, and materials chemistry. This book, Descriptive Inorganic Chemistry Researches of Metal Compounds, collects research articles, review articles, and tutorial description about metal compounds. To perspective contemporary researches of inorganic chemistry widely, the kinds of metal elements (typical and transition metals including rare earth; p, d, f-blocks) and compounds (molecular coordination compounds, ionic solid materials, or natural metalloenzyme) or simple substance (bulk, clusters, or alloys) to be focused are not limited. In this way, review chapters of current researches are collected in this book.
Metals. --- Metallic elements --- Chemical elements --- Ores --- Metallurgy --- Physical Sciences --- Engineering and Technology --- Chemistry --- Bioinorganic Chemistry --- Inorganic Chemistry
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Arsenic - Analytical and Toxicological Studies is a collection of original works focused on arsenic occurrence and chemistry, methods for arsenic determination and removal and arsenic toxicity and health risks. The most commonly used techniques for arsenic quantification and speciation, such as atomic absorption spectrometry, inductively coupled plasma-mass spectrometry, and inductively coupled plasma-emission spectrometry, among others, and the various procedures applied for arsenic separation and removal are exhaustively described. The mechanism of arsenic-induced toxicology, involving arsenic interaction with critical thiols in proteins and the health risks associated with exposure to arsenic, is also discussed.
Arsenic. --- Group 15 elements --- Native element minerals --- Nonmetals --- Physical Sciences --- Engineering and Technology --- Chemistry --- Bioinorganic Chemistry --- Inorganic Chemistry
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Bioinorganic chemistry --- Bioinorganic chemistry. --- Bio-inorganic chemistry --- Biological inorganic chemistry --- Inorganic biochemistry --- Biochemistry. --- Inorganic Chemistry. --- Chemistry, Bioinorganic --- Biochemistry --- Chemistry, Inorganic --- Biological Inorganic Chemistry --- Biochemistry, Inorganic --- Bioinorganic Chemistry --- Biochemistries, Inorganic --- Bioinorganic Chemistries --- Biological Inorganic Chemistries --- Chemistries, Bioinorganic --- Chemistries, Biological Inorganic --- Chemistry, Biological Inorganic --- Inorganic Biochemistries --- Inorganic Biochemistry --- Inorganic Chemistries, Biological --- Inorganic Chemistry, Biological --- Chemistry, Bioinorganic. --- Inorganic chemistry --- General biochemistry --- Biotechnology --- biochemie --- biotechnologie --- Chemistry --- Health Sciences --- Life Sciences --- Inorganic Chemistry --- Physiology
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The goal of this book is to provide readers with a broad appraisal of topics in global advancements in theoretical and experimental facts, and practical applications of nano-HAp materials based on their synthesis, properties, prospects, and potential biomedical treatments. The perspective of this book involves the preparation of crystalline nano-HAP materials including preferential orientation, various properties and new prospects in biomimetics, bone tissue infections, biomedical implants, regenerative medicinal treatments and a wide range of technological applications. This book is categorized into two main sections: Hydroxyapatite: synthesis, properties, perspectives, and prospects; and the application of hydroxyapatite: a synergistic outlook. Individual chapters provide a base for a wide range of readers from diversified fields, including students and researchers, who will find in this book simply explained basics as well as advanced techniques of specific subjects related to these phenomena. The book is made up of nine contributions, compiled by experts from wide-ranging fields involved in biomaterials/materials in science and technology from over 15 research institutes across the globe.
Hydroxyapatite. --- Chemistry, Inorganic. --- Inorganic chemistry --- Chemistry --- Inorganic compounds --- Calcium phosphate hydroxide --- Hydroxylapatite --- Apatite --- Physical Sciences --- Engineering and Technology --- Bioinorganic Chemistry --- Inorganic Chemistry
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The book Ligand describes the diversity and versatility of ligands, covering structural features, donor-acceptor properties and secondary functions like molecular recognition. Moreover, this book also provides a comprehensive account on the applicability like catalysis, sensors, supramolecular assembly, photochemical property, bioinorganic chemistry, and so on. The advancement of fundamentals in ligand design and the control of physicochemical properties of coordination compounds has largely increased emphasis on understanding the structural and electronic features toward different perspectives in materials science. In this regard, this book has a special appeal to chemists, biologists and others. This book will be beneficial for the graduate students, teachers, researchers and other professionals who are interested to fortify and expand their knowledge in chemistry, biology, microbiology, biotechnology, materials science, environmental science and so on.
Ligand binding (Biochemistry) --- Binding, Ligand (Biochemistry) --- Biochemistry --- Dye-ligand affinity chromatography --- Radioligand assay --- Physical Sciences --- Engineering and Technology --- Chemistry --- Bioinorganic Chemistry --- Inorganic Chemistry
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chemistry --- chemical education --- chemical history --- analytics and detection --- electrochemistry --- medicinal chemistry --- supramolecular and nanoscale chemistry --- computational and modeling chemistry --- crystallography and physical methods --- molecular chemistry --- medicinal and bioinorganic chemistry --- catalysis and organometallic chemistry --- Chemistry --- Physical sciences --- Chemistry.
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Reactive oxygen species (ROS) are produced by healthy cells and are maintained at physiological levels by antioxidant systems. However, when ROS increase in number, a condition of oxidative stress occurs, leading to many human diseases, including cancer. The relationship between oxidative stress and cancer is complex since ROS play a double-edged role in cancer development and under therapy response. This paradox represents a great challenge for researchers and needs to be investigated. The articles collected in this Special Issue can help to clarify the role of ROS modulation in cancer prevention and treatment, and to dissect the molecular mechanisms underlying its paradoxical role in order to counteract carcinogenesis or enhance sensitivity to anticancer therapy.
sonodynamic therapy --- carbon doped titanium dioxide --- sonosensitizers --- ultrasound --- cancer treatment --- breast cancer treatment --- radiotherapy --- hematological malignancies --- oxidative stress --- lymphoma --- leukemia --- multiple myeloma --- apoptosis --- mitochondria --- ultraviolet-C (UVC) --- withanolide --- combined treatment --- oral cancer --- DNA damage --- cancer therapy --- immune system --- Hypericum perforatum --- hyperforin --- reactive oxygen species --- pH regulation --- tumor prevention --- tumor therapy --- cancerogenesis --- inflammatory signaling --- natural compounds --- pancreatic cancer --- antitumor agents --- coordination polymers --- bioinorganic chemistry --- cold atmospheric plasma --- reactive oxygen and nitrogen species --- nitrite --- cancer stem cells --- chemoresistance --- glutathione --- lipid peroxidation --- ZEB-1 --- GPX4 --- ferroptosis --- HO-1 --- Nrf2 --- cancer progression --- patients --- therapy --- prognosis --- biomarker --- Eprenetapopt --- Erastin --- glutathione (GSH) --- SLC7A11 --- iron --- NRF2 --- n/a
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A collection of essential research articles and scientific reviews covering some of the most pertinent and topical areas of study that currently constitute Inorganic Chemistry in the early 21st century.
Research & information: general --- Chemistry --- Inorganic chemistry --- cyanoguanidine --- silver --- crystal structure --- chemical bonding --- CuII --- pyridine amides --- pyrazine amide --- amino benzamides --- EPR spectroscopy --- lanthanides --- Schiff base --- synthetic strategies --- single-molecule magnets --- Atomic Layer Deposition --- Ni catalyst --- reforming catalyst --- thermodynamics --- metallopharmaceuticals --- cancer stem cells --- copper --- bioinorganic chemistry --- medicinal inorganic chemistry --- reactive oxygen species --- metal-carbonyl complexes --- [FeFe]-hydrogenases --- density functional theory --- time-dependent DFT --- organometallic photochemistry --- crystalline borosilicate --- actinides --- supercritical hydrothermal synthesis --- waste forms --- thorium --- rhenium --- ruthenium --- metal–metal bonds --- uranium --- ceria --- hydrothermal --- catalysis --- nanomaterials --- crystallisation --- 4,2′:6′,4″-terpyridine --- 3,2′:6′,3″-terpyridine --- coordination polymer --- isomers --- lithium --- potassium --- Nacnac --- β-diketiminate --- tricyclohexylphenyl --- steric bulk --- silver complexes --- permanganates --- perchlorates --- perrhenate --- pyridine --- structure --- spectroscopy --- thermal behavior --- heterogenous catalyst --- metal–organic framework (MOF) --- olefin epoxidation --- carbon dioxide cycloaddition --- f-element --- lanthanide --- actinide --- multidentate ligand --- macrocycle --- ammonothermal synthesis --- fluoride --- aluminum --- speciation --- equilibria --- thermodynamic stability --- peptides --- multivariate linear regression --- poisoning effect of polar monomers --- Brookhart-type catalysts --- Zintl clusters --- X-ray crystallography --- Density Functional Theory --- n/a --- metal-metal bonds --- 4,2':6',4"-terpyridine --- 3,2':6',3"-terpyridine --- metal-organic framework (MOF)
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