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The book "Advanced Materials for Electrochemical Energy Conversion and Storage Devices" reports new, improved electrocatalytic materials for batteries, capacitors, and fuel cells. These advances are expected to significantly impact the performance of electrochemical energy conversion and storage devices and, consequently, their commercialisation. This book is intended to be a valuable tool for those from industry and academia interested in knowing more about the field.

Research & information: general --- sol-gel synthesis --- EDTA chelator --- cathode materials --- layered oxide --- doping --- lithium-ion batteries --- alkaline electrolyser --- electrocatalyst --- electrodeposition --- energy material --- nanofilm --- nickel foam --- oxygen evolution reaction --- PANI, LiFePO4 --- conducting polymers --- hybrid materials --- Li-doped NiO --- microwave synthesis --- computational simulation --- electrochemical measurements --- photoluminescence --- MC polymer electrolyte --- impedance study --- ion transport --- ftir analysis --- TNM --- LSV --- CV analyses --- sol-gel synthesis --- EDTA chelator --- cathode materials --- layered oxide --- doping --- lithium-ion batteries --- alkaline electrolyser --- electrocatalyst --- electrodeposition --- energy material --- nanofilm --- nickel foam --- oxygen evolution reaction --- PANI, LiFePO4 --- conducting polymers --- hybrid materials --- Li-doped NiO --- microwave synthesis --- computational simulation --- electrochemical measurements --- photoluminescence --- MC polymer electrolyte --- impedance study --- ion transport --- ftir analysis --- TNM --- LSV --- CV analyses

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The book "Advanced Materials for Electrochemical Energy Conversion and Storage Devices" reports new, improved electrocatalytic materials for batteries, capacitors, and fuel cells. These advances are expected to significantly impact the performance of electrochemical energy conversion and storage devices and, consequently, their commercialisation. This book is intended to be a valuable tool for those from industry and academia interested in knowing more about the field.

sol-gel synthesis --- EDTA chelator --- cathode materials --- layered oxide --- doping --- lithium-ion batteries --- alkaline electrolyser --- electrocatalyst --- electrodeposition --- energy material --- nanofilm --- nickel foam --- oxygen evolution reaction --- PANI, LiFePO4 --- conducting polymers --- hybrid materials --- Li-doped NiO --- microwave synthesis --- computational simulation --- electrochemical measurements --- photoluminescence --- MC polymer electrolyte --- impedance study --- ion transport --- ftir analysis --- TNM --- LSV --- CV analyses --- n/a

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Chelating Agents --- Iron Chelating Agents --- Schiff Bases --- Sulfonamides --- Sulfonamide Mixtures --- Sulfonamide --- Sulfonamide Mixture --- Mixture, Sulfonamide --- Mixtures, Sulfonamide --- Schiff Base --- Base, Schiff --- Bases, Schiff --- Hemoglobins --- Iron Carbonyl Compounds --- Iron Chelates --- Agents, Iron Chelating --- Chelates, Iron --- Chelating Agents, Iron --- Antidotes --- Indicators and Reagents --- Coordination Complexes --- Chelators --- Metal Chelating Agents --- Chelating Agent --- Chelator --- Complexons --- Metal Antagonists --- Agent, Chelating --- Agents, Chelating --- Agents, Metal Chelating --- Antagonists, Metal --- Chelating Agents, Metal --- Chelates --- Sulfamides

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In recent years, heavy metals have been widely used in agricultural, chemical, domestic, and technological applications, causing environmental and soil contaminations. Heavy metals enter the plant system through soil or via the atmosphere, and can accumulate, affecting physiological processes, plant growth, yield, and human health if heavy metals are stored in edible tissues. Understanding the regulation mechanisms of plant heavy metals accumulation and partitioning is important to improve the safety of the food chain. In this Special Issue book, a total of 19 articles were included; four reviews covering phytoremediation, manganese phytotoxicity in plants, the effect of cadmium on plant development, the genetic characteristics of Cd accumulation, and the research status of genes and QTLs in rice, respectively, as well as fifteen original research articles, mainly regarding the impact of cadmium on plants. Cadmium was therefore the predominant topic of this Special Issue, increasing the attention of the research community on the negative impacts determined by cadmium or cadmium associated with other heavy metals. The articles have highlighted a great genetic variability, suggesting different possibilities for accumulation, translocation and the reduction or control of heavy metal toxicity in plants.

Technology: general issues --- cotton (Gossypium hirsutum L.) --- transcriptome --- Cd stress --- GhHMAD5 --- overexpression --- VIGS (virus induced gene silence) --- cadmium --- glycinebetaine --- photosynthesis --- ultrastructure --- tobacco (Nicotiana tabacum L.) --- Cadmium --- hyperaccumulator --- Viola baoshanensis --- detoxification --- Cd --- PtoABCG36 --- tolerance --- poplar --- accumulation --- efflux --- phytoremediation --- heavy metals --- hyperaccumulation --- plant genotype improvement --- soil management --- cadmium accumulation --- absorption and transport --- QTL location --- mapping population --- rice (Oryza sativa L.) --- selenium --- cadmium stress --- auxin --- root architecture --- phosphate transporter --- Nicotiana tabacum --- oxidative stress --- cell cycle --- cell wall --- germination --- reproduction --- plant growth and development --- antioxidative system --- Brassicaceae family --- mitogen-activated protein kinases --- Ulva compressa --- antioxidant --- metal chelator --- in vivo chlorophyll a florescence --- physiology --- mitogen activated protein kinases --- metal accumulation --- DNA methylation --- ABCC transporters --- HMA2 --- wheat --- metal stress tolerance --- manganese toxicity --- Mn detoxification --- tolerance mechanism --- gene function --- subcellular compartment --- lead --- nicotianamine --- mugineic acid --- heavy metal --- toxic metal --- durum wheat --- Arabidopsis --- small heat shock protein --- OsMSR3 --- copper stress --- reactive oxygen species --- copper and zinc --- expression in bacteria --- metallothioneins --- marine alga --- Brassica campestris L. --- glutathione synthetase --- glutathione S-transferase --- alternative splicing --- Italian ryegrass root --- LmAUX1 --- hormesis --- growth --- chlorophyll a fluorescence --- cotton (Gossypium hirsutum L.) --- transcriptome --- Cd stress --- GhHMAD5 --- overexpression --- VIGS (virus induced gene silence) --- cadmium --- glycinebetaine --- photosynthesis --- ultrastructure --- tobacco (Nicotiana tabacum L.) --- Cadmium --- hyperaccumulator --- Viola baoshanensis --- detoxification --- Cd --- PtoABCG36 --- tolerance --- poplar --- accumulation --- efflux --- phytoremediation --- heavy metals --- hyperaccumulation --- plant genotype improvement --- soil management --- cadmium accumulation --- absorption and transport --- QTL location --- mapping population --- rice (Oryza sativa L.) --- selenium --- cadmium stress --- auxin --- root architecture --- phosphate transporter --- Nicotiana tabacum --- oxidative stress --- cell cycle --- cell wall --- germination --- reproduction --- plant growth and development --- antioxidative system --- Brassicaceae family --- mitogen-activated protein kinases --- Ulva compressa --- antioxidant --- metal chelator --- in vivo chlorophyll a florescence --- physiology --- mitogen activated protein kinases --- metal accumulation --- DNA methylation --- ABCC transporters --- HMA2 --- wheat --- metal stress tolerance --- manganese toxicity --- Mn detoxification --- tolerance mechanism --- gene function --- subcellular compartment --- lead --- nicotianamine --- mugineic acid --- heavy metal --- toxic metal --- durum wheat --- Arabidopsis --- small heat shock protein --- OsMSR3 --- copper stress --- reactive oxygen species --- copper and zinc --- expression in bacteria --- metallothioneins --- marine alga --- Brassica campestris L. --- glutathione synthetase --- glutathione S-transferase --- alternative splicing --- Italian ryegrass root --- LmAUX1 --- hormesis --- growth --- chlorophyll a fluorescence

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In recent years, heavy metals have been widely used in agricultural, chemical, domestic, and technological applications, causing environmental and soil contaminations. Heavy metals enter the plant system through soil or via the atmosphere, and can accumulate, affecting physiological processes, plant growth, yield, and human health if heavy metals are stored in edible tissues. Understanding the regulation mechanisms of plant heavy metals accumulation and partitioning is important to improve the safety of the food chain. In this Special Issue book, a total of 19 articles were included; four reviews covering phytoremediation, manganese phytotoxicity in plants, the effect of cadmium on plant development, the genetic characteristics of Cd accumulation, and the research status of genes and QTLs in rice, respectively, as well as fifteen original research articles, mainly regarding the impact of cadmium on plants. Cadmium was therefore the predominant topic of this Special Issue, increasing the attention of the research community on the negative impacts determined by cadmium or cadmium associated with other heavy metals. The articles have highlighted a great genetic variability, suggesting different possibilities for accumulation, translocation and the reduction or control of heavy metal toxicity in plants.

cotton (Gossypium hirsutum L.) --- transcriptome --- Cd stress --- GhHMAD5 --- overexpression --- VIGS (virus induced gene silence) --- cadmium --- glycinebetaine --- photosynthesis --- ultrastructure --- tobacco (Nicotiana tabacum L.) --- Cadmium --- hyperaccumulator --- Viola baoshanensis --- detoxification --- Cd --- PtoABCG36 --- tolerance --- poplar --- accumulation --- efflux --- phytoremediation --- heavy metals --- hyperaccumulation --- plant genotype improvement --- soil management --- cadmium accumulation --- absorption and transport --- QTL location --- mapping population --- rice (Oryza sativa L.) --- selenium --- cadmium stress --- auxin --- root architecture --- phosphate transporter --- Nicotiana tabacum --- oxidative stress --- cell cycle --- cell wall --- germination --- reproduction --- plant growth and development --- antioxidative system --- Brassicaceae family --- mitogen-activated protein kinases --- Ulva compressa --- antioxidant --- metal chelator --- in vivo chlorophyll a florescence --- physiology --- mitogen activated protein kinases --- metal accumulation --- DNA methylation --- ABCC transporters --- HMA2 --- wheat --- metal stress tolerance --- manganese toxicity --- Mn detoxification --- tolerance mechanism --- gene function --- subcellular compartment --- lead --- nicotianamine --- mugineic acid --- heavy metal --- toxic metal --- durum wheat --- Arabidopsis --- small heat shock protein --- OsMSR3 --- copper stress --- reactive oxygen species --- copper and zinc --- expression in bacteria --- metallothioneins --- marine alga --- Brassica campestris L. --- glutathione synthetase --- glutathione S-transferase --- alternative splicing --- Italian ryegrass root --- LmAUX1 --- hormesis --- growth --- chlorophyll a fluorescence --- n/a