Inorganic Chemistry Collection

Gallium nitride nanowires, SEM
Gallium nitride nanowires, coloured scanning electron micrograph (SEM). Nanowires, seen here grown in square plots, are artificially grown crystal filaments that measure only a few nanometres

Silicon nanowire device, held by tweezers. This device is coated with billions of tiny nanowires, each measuring a few nanometres (billionths of a metre) in diameter

Zinc oxide nanowires, SEM
Zinc oxide nanowires, coloured scanning electron micrograph (SEM). Nanowires are artificially grown crystal filaments that measure only a few nanometres (billionths of a metre) in diameter

Thermoelectric silicon nanowire, artwork
Thermoelectric silicon nanowire. Computer artwork showing a silicon nanowire (centre) bridging two heating pads (top and bottom)

Nanowire solar cell. This solar cell is coated with billions of tiny nanowires, each measuring 60 nanometres (billionths of a metre) in diameter and 20 micrometres (thousandths of a metre) in length

Nanowire tweezers, computer artwork
Nanowire tweezers. Computer artwork showing nanowires (grey cylinders) surrounded by an electric field (red and yellow). The electric field, known as an optoelectronic tweezer

Heme group in haemoglobin, diagram
Heme group in haemoglobin. Diagram showing the heme group (centre) in the haemoglobin molecule (partly shown), the chemical unit that is responsible for the transport of oxygen in the blood

Sulphuric and ethanoic acid. Comparison of a strong and a weak acid. Sulphuric acid (H2SO4) is an important industrial chemical. It is used in petroleum refining and paint and fertiliser production

Brass analysis. Image 6 of 7. Performing a titration to determine the percentage of copper in brass. This requires titration of iodine with sodium thiosulphate as the reagent

Manganese and copper voltaic cell. Copper (right) and manganese (left) half cells joined by a salt bridge. When a stick of copper (Cu)

Copper sulphate reactions. Image 3 of 3. This show the product of a reaction between copper sulphate solution with first ammonia and then hydrochloric acid

Manganese (IV) oxide on a watch glass. Manganese (IV) oxide (MnO2) is a strong oxidising agent

Tin granules
Granules of tin (Sn). Tin is a group IV metal which is easily extracted from cassiterite (or tinstone, SnO2) through reduction with carbon

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"Inorganic Chemistry: Exploring the Fascinating World of Nanowires, Solar Cells, and Chemical Reactions" Gallium nitride nanowires under SEM: Unveiling the intricate structures at a microscopic level. Silicon nanowire device delicately held by tweezers: Harnessing the potential of nanotechnology for advanced electronic applications. Zinc oxide nanowires captured through SEM imaging: Unlocking the secrets of this versatile material with endless possibilities. Thermoelectric silicon nanowire depicted as artwork: Merging science and creativity to envision sustainable energy solutions. Nanowire solar cell shining bright with renewable power generation capabilities. Harnessing sunlight efficiently with cutting-edge nanowire solar cells for a greener future. Computer artwork showcasing precision manipulation using nanowire tweezers – paving the way for breakthrough scientific advancements. Diagram illustrating the heme group in haemoglobin – unraveling its role in oxygen transport within our bodies through inorganic chemistry studies. Sulphuric and ethanoic acid reaction – delving into chemical transformations that shape our world on a molecular level. Brass analysis revealing elemental composition and properties – exploring materials used across various industries from musical instruments to plumbing fixtures Exploring brass composition through meticulous analysis - uncovering its unique blend of copper and zinc elements Manganese and copper voltaic cell demonstrating electrochemical reactions.