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Chalcogenides are chemical compounds that contain one or more sulfides, selenides, and tellurides (S, Se, Te) paired with an electropositive counterpart. They are developed through a strong covalent bond creating a variety of morphological structures, frequently organized by hexagonal or monoclinic geometry. The derivatives of chalcogenide materials such as binary, ternary, and quaternary are pertinent in various applications, including sensors, batteries, opto-electronics, photovoltaics, fuel cells, and photocatalysts. Chalcogenide-based materials can be developed through a variety of physical and chemical methodologies. This book provides a general overview of these methodologies and discusses the various chalcogen materials and their different applications. It includes eight chapters in three sections: "Chalcogen Fabrication", "Solar Cells and Batteries" and "Nanoscale Devices".

Chalcogenides.

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Chalcogenides are chemical compounds that contain one or more sulfides, selenides, and tellurides (S, Se, Te) paired with an electropositive counterpart. They are developed through a strong covalent bond creating a variety of morphological structures, frequently organized by hexagonal or monoclinic geometry. The derivatives of chalcogenide materials such as binary, ternary, and quaternary are pertinent in various applications, including sensors, batteries, opto-electronics, photovoltaics, fuel cells, and photocatalysts. Chalcogenide-based materials can be developed through a variety of physical and chemical methodologies. This book provides a general overview of these methodologies and discusses the various chalcogen materials and their different applications. It includes eight chapters in three sections: "Chalcogen Fabrication", "Solar Cells and Batteries" and "Nanoscale Devices".

Chalcogenides.

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Chalcogenides --- Chalcogenides. --- Chalkogenides --- Inorganic compounds

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Chalcogenides are chemical compounds that contain one or more sulfides, selenides, and tellurides (S, Se, Te) paired with an electropositive counterpart. They are developed through a strong covalent bond creating a variety of morphological structures, frequently organized by hexagonal or monoclinic geometry. The derivatives of chalcogenide materials such as binary, ternary, and quaternary are pertinent in various applications, including sensors, batteries, opto-electronics, photovoltaics, fuel cells, and photocatalysts. Chalcogenide-based materials can be developed through a variety of physical and chemical methodologies. This book provides a general overview of these methodologies and discusses the various chalcogen materials and their different applications. It includes eight chapters in three sections: "Chalcogen Fabrication", "Solar Cells and Batteries" and "Nanoscale Devices".

Chalcogenides. --- Chalkogenides --- Inorganic compounds

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The magnetic and related properties of lanthanide and actinide pnictides and chalcogenides have been compiled in subvolume 27B. While subvolumes 27B1, 27B2, 27B3, 27B4 and 27B5 (already published) deal with lanthanide pnictides and lanthanide chalcogenides of different type, the properties of actinide pnictides and chalcogenides are covered in subvolumes 27B6, 27B7 and 27B8 (already published). The present subvolume 27B7 deals with binary actinide pnictides and chalcogenides. Binary actinide pnictides and chalcogenides form a large family of phases with different crystal and magnetic structures and a variety of physical properties. The literature has been reviewed up to the beginning of 2004. An index of substances at the end of this subvolume lists all binary actinide pnictides and chalcogenides treated in this subvolume.

Chalcogenides. --- Condensed matter.