Fume: TWA 5 mg/m ST 10 mg/m
54-454: Zinc oxide is an inorganic compound with the formula Zn O . It is a white powder which is insoluble in water. ZnO is used as an additive in numerous materials and products including cosmetics, food supplements , rubbers, plastics, ceramics, glass, cement, lubricants, paints, sunscreens, ointments, adhesives, sealants, pigments, foods, batteries, ferrites, fire retardants, semi conductors, and first-aid tapes. Although it occurs naturally as
108-594: A bag house. This indirect method was popularized by Edme Jean LeClaire of Paris in 1844 and therefore is commonly known as the French process. Its product normally consists of agglomerated zinc oxide particles with an average size of 0.1 to a few micrometers. By weight, most of the world's zinc oxide is manufactured via French process. The direct or American process starts with diverse contaminated zinc composites, such as zinc ores or smelter by-products. The zinc precursors are reduced ( carbothermal reduction ) by heating with
162-580: A base. According to the Brønsted-Lowry theory of acids and bases , acids are proton donors and bases are proton acceptors. An amphiprotic molecule (or ion) can either donate or accept a proton , thus acting either as an acid or a base . Water , amino acids , hydrogencarbonate ion (or bicarbonate ion) HCO − 3 , dihydrogen phosphate ion H 2 PO − 4 , and hydrogensulfate ion (or bisulfate ion) HSO − 4 are common examples of amphiprotic species. Since they can donate
216-630: A base. The bicarbonate ion, HCO − 3 , is amphoteric as it can act as either an acid or a base: Note: in dilute aqueous solution the formation of the hydronium ion , H 3 O (aq) , is effectively complete, so that hydration of the proton can be ignored in relation to the equilibria. Other examples of inorganic polyprotic acids include anions of sulfuric acid , phosphoric acid and hydrogen sulfide that have lost one or more protons. In organic chemistry and biochemistry, important examples include amino acids and derivatives of citric acid . Although an amphiprotic species must be amphoteric,
270-465: A basic group −NH 2 and an acidic group −COOH , and exists as several structures in chemical equilibrium : In approximately neutral aqueous solution (pH ≅ 7), the basic amino group is mostly protonated and the carboxylic acid is mostly deprotonated, so that the predominant species is the zwitterion H 3 N −RCH−COO . The pH at which the average charge is zero is known as the molecule's isoelectric point . Ampholytes are used to establish
324-451: A cementation process where copper was reacted with zinc oxide. The zinc oxide is thought to have been produced by heating zinc ore in a shaft furnace. This liberated metallic zinc as a vapor, which then ascended the flue and condensed as the oxide. This process was described by Dioscorides in the 1st century AD. Zinc oxide has also been recovered from zinc mines at Zawar in India , dating from
378-426: A comparatively low coefficient of expansion are desirable properties in the production of ceramics. ZnO affects the melting point and optical properties of the glazes, enamels, and ceramic formulations. Zinc oxide as a low expansion, secondary flux improves the elasticity of glazes by reducing the change in viscosity as a function of temperature and helps prevent crazing and shivering. By substituting ZnO for BaO and PbO,
432-491: A compound that is not an organic compound . The study of inorganic compounds is a subfield of chemistry known as inorganic chemistry . Inorganic compounds comprise most of the Earth's crust , although the compositions of the deep mantle remain active areas of investigation. All allotropes (structurally different pure forms of an element) and some simple carbon compounds are often considered inorganic. Examples include
486-454: A light absorbing layer. However, these solar cells have so far proven highly inefficient. Most ZnO has n -type character, even in the absence of intentional doping . Nonstoichiometry is typically the origin of n-type character, but the subject remains controversial. An alternative explanation has been proposed, based on theoretical calculations, that unintentional substitutional hydrogen impurities are responsible. Controllable n-type doping
540-406: A maximum of ~2000 cm/(V·s) at 80 K. Data on hole mobility are scarce with values in the range 5–30 cm/(V·s). ZnO discs, acting as a varistor , are the active material in most surge arresters . Zinc oxide is noted for its strongly nonlinear optical properties, especially in bulk. The nonlinearity of ZnO nanoparticles can be fine-tuned according to their size. For industrial use, ZnO
594-412: A pigment in oil painting started in the middle of 18th century. It has partly replaced the poisonous lead white and was used by painters such as Böcklin , Van Gogh , Manet , Munch and others. It is also a main ingredient of mineral makeup (CI 77947). Inorganic compound An inorganic compound is typically a chemical compound that lacks carbon–hydrogen bonds — that is,
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#1732782488383648-466: A proton, all amphiprotic substances contain a hydrogen atom. Also, since they can act like an acid or a base, they are amphoteric. The water molecule is amphoteric in aqueous solution. It can either gain a proton to form a hydronium ion H 3 O , or else lose a proton to form a hydroxide ion OH . Another possibility is the molecular autoionization reaction between two water molecules, in which one water molecule acts as an acid and another as
702-435: A source of carbon such as anthracite to produce zinc vapor, which is then oxidized as in the indirect process. Because of the lower purity of the source material, the final product is also of lower quality in the direct process as compared to the indirect one. A small amount of industrial production involves wet chemical processes, which start with aqueous solutions of zinc salts, from which zinc carbonate or zinc hydroxide
756-413: A stable pH gradient for use in isoelectric focusing . Metal oxides which react with both acids as well as bases to produce salts and water are known as amphoteric oxides. Many metals (such as zinc , tin , lead , aluminium , and beryllium ) form amphoteric oxides or hydroxides. Aluminium oxide ( Al 2 O 3 ) is an example of an amphoteric oxide. Amphoterism depends on the oxidation states of
810-453: A topical skin treatment. Historically, the name calamine was ascribed to a mineral that contained zinc used in powdered form as medicine, but it was determined in 1803 that ore described as calamine was actually a mixture of the zinc minerals smithsonite and hemimorphite . Zinc oxide is widely used to treat a variety of skin conditions, including atopic dermatitis , contact dermatitis , itching due to eczema , diaper rash and acne . It
864-711: A variety of emerging applications: transparent electrodes in liquid crystal displays , energy-saving or heat-protecting windows, and electronics as thin-film transistors and light-emitting diodes . ZnO has a relatively wide direct band gap of ~3.3 eV at room temperature. Advantages associated with a wide band gap include higher breakdown voltages , ability to sustain large electric fields, lower electronic noise , and high-temperature and high-power operation. The band gap of ZnO can further be tuned to ~3–4 eV by its alloying with magnesium oxide or cadmium oxide . Due to this large band gap, there have been efforts to create visibly transparent solar cells utilising ZnO as
918-597: A yellow to red color. Crystalline zinc oxide is thermochromic , changing from white to yellow when heated in air and reverting to white on cooling. This color change is caused by a small loss of oxygen to the environment at high temperatures to form the non-stoichiometric Zn 1+x O, where at 800 °C, x = 0.00007. Zinc oxide is an amphoteric oxide . It is nearly insoluble in water, but it will dissolve in most acids , such as hydrochloric acid: Solid zinc oxide will also dissolve in alkalis to give soluble zincates: ZnO reacts slowly with fatty acids in oils to produce
972-567: Is hopeite , Zn 3 (PO 4 ) 2 ·4H 2 O. ZnO decomposes into zinc vapor and oxygen at around 1975 °C with a standard oxygen pressure. In a carbothermic reaction , heating with carbon converts the oxide into zinc vapor at a much lower temperature (around 950 °C). Zinc oxide crystallizes in two main forms , hexagonal wurtzite and cubic zincblende . The wurtzite structure is most stable at ambient conditions and thus most common. The zincblende form can be stabilized by growing ZnO on substrates with cubic lattice structure. In both cases,
1026-783: Is a molecule or ion that can react both as an acid and as a base . What exactly this can mean depends on which definitions of acids and bases are being used. One type of amphoteric species are amphiprotic molecules, which can either donate or accept a proton ( H ). This is what "amphoteric" means in Brønsted–Lowry acid–base theory . For example, amino acids and proteins are amphiprotic molecules because of their amine ( −NH 2 ) and carboxylic acid ( −COOH ) groups. Self-ionizable compounds like water are also amphiprotic. Ampholytes are amphoteric molecules that contain both acidic and basic functional groups . For example, an amino acid H 2 N−RCH−CO 2 H has both
1080-401: Is added to cotton fabric, rubber, oral care products, and food packaging. Enhanced antibacterial action of fine particles compared to bulk material is not exclusive to ZnO and is observed for other materials, such as silver . The mechanism of ZnO's antibacterial effect has been variously described as the generation of reactive oxygen species , the release of Zn ions, and a general disturbance of
1134-524: Is also mentioned by the Greek physician Dioscorides (1st century AD). Galen suggested treating ulcerating cancers with zinc oxide, as did Avicenna in his The Canon of Medicine . It is used as an ingredient in products such as baby powder and creams against diaper rashes , calamine cream, anti- dandruff shampoos , and antiseptic ointments. The Romans produced considerable quantities of brass (an alloy of zinc and copper ) as early as 200 BC by
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#17327824883831188-501: Is complicated by the inhomogeneity of samples. Current limitations to p-doping limit electronic and optoelectronic applications of ZnO, which usually require junctions of n-type and p-type material. Known p-type dopants include group-I elements Li, Na, K; group-V elements N, P and As; as well as copper and silver. However, many of these form deep acceptors and do not produce significant p-type conduction at room temperature. Electron mobility of ZnO strongly varies with temperature and has
1242-428: Is easily achieved by substituting Zn with group-III elements such as Al, Ga, In or by substituting oxygen with group-VII elements chlorine or iodine . Reliable p-type doping of ZnO remains difficult. This problem originates from low solubility of p-type dopants and their compensation by abundant n-type impurities. This problem is observed with GaN and ZnSe . Measurement of p-type in "intrinsically" n-type material
1296-568: Is in the rubber industry. Zinc oxide along with stearic acid is used in the sulfur vulcanization of rubber. ZnO additives in the form of nanoparticles are used in rubber as a pigment and to enhance its durability, and have been used in composite rubber materials such as those based on montmorillonite to impart germicidal properties. Ceramic industry consumes a significant amount of zinc oxide, in particular in ceramic glaze and frit compositions. The relatively high heat capacity, thermal conductivity and high temperature stability of ZnO coupled with
1350-405: Is often cited as the starting point of modern organic chemistry . In Wöhler's era, there was widespread belief that organic compounds were characterized by a vital spirit . In the absence of vitalism, the distinction between inorganic and organic chemistry is merely semantic. Amphoteric oxide In chemistry , an amphoteric compound (from Greek amphoteros 'both')
1404-527: Is precipitated. The solid precipitate is then calcined at temperatures around 800 °C. Numerous specialised methods exist for producing ZnO for scientific studies and niche applications. These methods can be classified by the resulting ZnO form (bulk, thin film, nanowire ), temperature ("low", that is close to room temperature or "high", that is T ~ 1000 °C), process type (vapor deposition or growth from solution) and other parameters. Large single crystals (many cubic centimeters) can be grown by
1458-429: Is produced at levels of 10 tons per year by three main processes: In the indirect or French process, metallic zinc is melted in a graphite crucible and vaporized at temperatures above 907 °C (typically around 1000 °C). Zinc vapor reacts with the oxygen in the air to give ZnO, accompanied by a drop in its temperature and bright luminescence. Zinc oxide particles are transported into a cooling duct and collected in
1512-514: Is used in mouthwash products and toothpastes as an anti-bacterial agent proposed to prevent plaque and tartar formation, and to control bad breath by reducing the volatile gases and volatile sulfur compounds (VSC) in the mouth. Along with zinc oxide or zinc salts, these products also commonly contain other active ingredients, such as cetylpyridinium chloride , xylitol , hinokitiol , essential oils and plant extracts . Powdered zinc oxide has deodorizing and antibacterial properties. ZnO
1566-451: Is used in products such as baby powder and barrier creams to treat diaper rashes , calamine cream, anti- dandruff shampoos , and antiseptic ointments. It is often combined with castor oil to form an emollient and astringent , zinc and castor oil cream, commonly used to treat infants. It is also a component in tape (called "zinc oxide tape") used by athletes as a bandage to prevent soft tissue damage during workouts. Zinc oxide
1620-421: The rubber industry to resist corrosion . In the 1970s, the second largest application of ZnO was photocopying . High-quality ZnO produced by the "French process" was added to photocopying paper as a filler. This application was soon displaced by titanium . Pure ZnO is a white powder. However, in nature, it occurs as the rare mineral zincite , which usually contains manganese and other impurities that confer
1674-467: The vapor–liquid–solid method . The synthesis is typically carried out at temperatures of about 90 °C, in an equimolar aqueous solution of zinc nitrate and hexamine , the latter providing the basic environment. Certain additives, such as polyethylene glycol or polyethylenimine, can improve the aspect ratio of the ZnO nanowires. Doping of the ZnO nanowires has been achieved by adding other metal nitrates to
Zinc oxide - Misplaced Pages Continue
1728-541: The allotropes of carbon ( graphite , diamond , buckminsterfullerene , graphene , etc.), carbon monoxide CO , carbon dioxide CO 2 , carbides , and salts of inorganic anions such as carbonates , cyanides , cyanates , thiocyanates , isothiocyanates , etc. Many of these are normal parts of mostly organic systems, including organisms ; describing a chemical as inorganic does not necessarily mean that it cannot occur within living things. Friedrich Wöhler 's conversion of ammonium cyanate into urea in 1828
1782-442: The bacterial cell membrane by nanoparticles. Zinc oxide is used in sunscreen to absorb ultraviolet light . It is the broadest spectrum UVA and UVB absorber that is approved for use as a sunscreen by the U.S. Food and Drug Administration (FDA), and is completely photostable. When used as an ingredient in sunscreen, zinc oxide blocks both UVA (320–400 nm) and UVB (280–320 nm) rays of ultraviolet light . Zinc oxide and
1836-599: The bonding in ZnO is largely ionic (ZnO) with the corresponding radii of 0.074 nm for Zn and 0.140 nm for O. This property accounts for the preferential formation of wurtzite rather than zinc blende structure, as well as the strong piezoelectricity of ZnO. Because of the polar Zn−O bonds, zinc and oxygen planes are electrically charged. To maintain electrical neutrality, those planes reconstruct at atomic level in most relative materials, but not in ZnO – its surfaces are atomically flat, stable and exhibit no reconstruction. However, studies using wurtzoid structures explained
1890-1059: The converse is not true. For example, a metal oxide such as zinc oxide , ZnO, contains no hydrogen and so cannot donate a proton. Nevertheless, it can act as an acid by reacting with the hydroxide ion, a base: This reaction is not covered by the Brønsted–Lowry acid–base theory . Because zinc oxide can also act as a base: it is classified as amphoteric rather than amphiprotic. Zinc oxide (ZnO) reacts with both acids and with bases: This reactivity can be used to separate different cations , for instance zinc(II), which dissolves in base, from manganese(II), which does not dissolve in base. Lead oxide (PbO): Lead oxide ( PbO 2 ): Aluminium oxide ( Al 2 O 3 ): Stannous oxide (SnO): Stannic oxide ( SnO 2 ): Vanadium dioxide ( VO 2 ): Some other elements which form amphoteric oxides are gallium , indium , scandium , titanium , zirconium , chromium , iron , cobalt , copper , silver , gold , germanium , antimony , bismuth , beryllium , and tellurium . Aluminium hydroxide
1944-420: The corresponding carboxylates , such as oleate or stearate . When mixed with a strong aqueous solution of zinc chloride , ZnO forms cement-like products best described as zinc hydroxy chlorides. This cement was used in dentistry. ZnO also forms cement-like material when treated with phosphoric acid ; related materials are used in dentistry. A major component of zinc phosphate cement produced by this reaction
1998-478: The form of zinc oxide nanoparticles , or as zinc sulfate , zinc gluconate , zinc acetate , or zinc citrate . Some foods also include trace amounts of ZnO even if it is not intended as a nutrient. Zinc oxide (zinc white) is used as a pigment in paints and is more opaque than lithopone , but less opaque than titanium dioxide . It is also used in coatings for paper. Chinese white is a special grade of zinc white used in artists' pigments. The use of zinc white as
2052-795: The gas transport (vapor-phase deposition), hydrothermal synthesis , or melt growth. However, because of the high vapor pressure of ZnO, growth from the melt is problematic. Growth by gas transport is difficult to control, leaving the hydrothermal method as a preference. Thin films can be produced by a variety of methods including chemical vapor deposition , metalorganic vapour phase epitaxy , electrodeposition , sputtering , spray pyrolysis, thermal oxidation , sol–gel synthesis, atomic layer deposition , and pulsed laser deposition . Zinc oxide can be produced in bulk by precipitation from zinc compounds, mainly zinc acetate , in various solutions, such as aqueous sodium hydroxide or aqueous ammonium carbonate . Synthetic methods characterized in literature since
2106-547: The growth solution. The morphology of the resulting nanostructures can be tuned by changing the parameters relating to the precursor composition (such as the zinc concentration and pH) or to the thermal treatment (such as the temperature and heating rate). Aligned ZnO nanowires on pre-seeded silicon , glass , and gallium nitride substrates have been grown using aqueous zinc salts such as zinc nitrate and zinc acetate in basic environments. Pre-seeding substrates with ZnO creates sites for homogeneous nucleation of ZnO crystal during
2160-421: The heat capacity is decreased and the thermal conductivity is increased. Zinc in small amounts improves the development of glossy and brilliant surfaces. However, in moderate to high amounts, it produces matte and crystalline surfaces. With regard to color, zinc has a complicated influence. Zinc oxide as a mixture with about 0.5% iron(III) oxide (Fe 2 O 3 ) is called calamine and is used in calamine lotion ,
2214-419: The hexagonal and zincblende ZnO, and pyroelectricity of hexagonal ZnO. The hexagonal structure has a point group 6 mm ( Hermann–Mauguin notation ) or C 6v ( Schoenflies notation ), and the space group is P6 3 mc or C 6v . The lattice constants are a = 3.25 Å and c = 5.2 Å; their ratio c/a ~ 1.60 is close to the ideal value for hexagonal cell c/a = 1.633. As in most group II-VI materials,
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2268-539: The mineral zincite , most zinc oxide is produced synthetically. Early humans probably used zinc compounds in processed and unprocessed forms, as paint or medicinal ointment; however, their composition is uncertain. The use of pushpanjan , probably zinc oxide, as a salve for eyes and open wounds is mentioned in the Indian medical text the Charaka Samhita , thought to date from 500 BC or before. Zinc oxide ointment
2322-836: The origin of surface flatness and the absence of reconstruction at ZnO wurtzite surfaces in addition to the origin of charges on ZnO planes. ZnO is a wide-band gap semiconductor of the II-VI semiconductor group . The native doping of the semiconductor due to oxygen vacancies or zinc interstitials is n-type. ZnO is a relatively soft material with approximate hardness of 4.5 on the Mohs scale . Its elastic constants are smaller than those of relevant III-V semiconductors, such as GaN . The high heat capacity and heat conductivity, low thermal expansion and high melting temperature of ZnO are beneficial for ceramics. The E2 optical phonon in ZnO exhibits an unusually long lifetime of 133 ps at 10 K. Among
2376-424: The other most common physical sunscreen, titanium dioxide , are considered to be nonirritating, nonallergenic, and non- comedogenic . Zinc from zinc oxide is, however, slightly absorbed into the skin. Many sunscreens use nanoparticles of zinc oxide (along with nanoparticles of titanium dioxide) because such small particles do not scatter light and therefore do not appear white. The nanoparticles are not absorbed into
2430-403: The oxide. Amphoteric oxides include lead(II) oxide and zinc oxide , among many others. Amphoteric is derived from the Greek word amphoteroi ( ἀμφότεροι ) meaning "both". Related words in acid-base chemistry are amphichromatic and amphichroic , both describing substances such as acid-base indicators which give one colour on reaction with an acid and another colour on reaction with
2484-567: The principal ones are summarized below. Most applications exploit the reactivity of the oxide as a precursor to other zinc compounds. For material science applications, zinc oxide has high refractive index , high thermal conductivity, binding, antibacterial and UV-protection properties. Consequently, it is added into materials and products including plastics, ceramics, glass, cement, rubber, lubricants, paints, ointments, adhesive, sealants, concrete manufacturing, pigments, foods, batteries, ferrites , and fire retardants. Between 50% and 60% of ZnO use
2538-602: The second half of the first millennium BC. From the 12th to the 16th century, zinc and zinc oxide were recognized and produced in India using a primitive form of the direct synthesis process. From India, zinc manufacturing moved to China in the 17th century. In 1743, the first European zinc smelter was established in Bristol , United Kingdom. Around 1782, Louis-Bernard Guyton de Morveau proposed replacing lead white pigment with zinc oxide. The main usage of zinc oxide (zinc white)
2592-430: The skin more than regular-sized zinc oxide particles are and are only absorbed into the outermost layer of the skin but not into the body. When mixed with eugenol , zinc oxide eugenol is formed, which has applications as a restorative and prosthodontic in dentistry . Zinc oxide is added to many food products, including breakfast cereals , as a source of zinc, a necessary nutrient . Zinc may be added to food in
2646-565: The synthesis. Common pre-seeding methods include in-situ thermal decomposition of zinc acetate crystallites, spin coating of ZnO nanoparticles, and the use of physical vapor deposition methods to deposit ZnO thin films. Pre-seeding can be performed in conjunction with top down patterning methods such as electron beam lithography and nanosphere lithography to designate nucleation sites prior to growth. Aligned ZnO nanowires can be used in dye-sensitized solar cells and field emission devices. The applications of zinc oxide powder are numerous, and
2700-649: The tetrahedrally bonded semiconductors, it has been stated that ZnO has the highest piezoelectric tensor, or at least one comparable to that of GaN and AlN . This property makes it a technologically important material for many piezoelectrical applications, which require a large electromechanical coupling. Therefore, ZnO in the form of thin film has been one of the most studied and used resonator materials for thin-film bulk acoustic resonators . Favourable properties of zinc oxide include good transparency, high electron mobility , wide band gap , and strong room-temperature luminescence . Those properties make ZnO valuable for
2754-527: The traditional white lead : zinc white is essentially permanent in sunlight, it is not blackened by sulfur-bearing air, it is non-toxic and more economical. Because zinc white is so "clean" it is valuable for making tints with other colors, but it makes a rather brittle dry film when unmixed with other colors. For example, during the late 1890s and early 1900s, some artists used zinc white as a ground for their oil paintings. These paintings developed cracks over time. In recent times, most zinc oxide has been used in
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#17327824883832808-455: The year 2000 aim to produce ZnO particles with high surface area and minimal size distribution, including precipitation, mechanochemical , sol-gel, microwave , and emulsion methods. Nanostructures of ZnO can be synthesized into a variety of morphologies, including nanowires, nanorods , tetrapods, nanobelts, nanoflowers, nanoparticles, etc. Nanostructures can be obtained with most above-mentioned techniques, at certain conditions, and also with
2862-402: The zinc and oxide centers are tetrahedral , the most characteristic geometry for Zn(II). ZnO converts to the rocksalt motif at relatively high pressures about 10 GPa. Hexagonal and zincblende polymorphs have no inversion symmetry (reflection of a crystal relative to any given point does not transform it into itself). This and other lattice symmetry properties result in piezoelectricity of
2916-464: Was in paints and as an additive to ointments. Zinc white was accepted as a pigment in oil paintings by 1834 but it did not mix well with oil. This problem was solved by optimizing the synthesis of ZnO. In 1845, Edme-Jean Leclaire in Paris was producing the oil paint on a large scale; by 1850, zinc white was being manufactured throughout Europe. The success of zinc white paint was due to its advantages over
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