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The Applications of MnO2 Powder

admin / 2023-05-31 / no Comments

How do you define it? MnO2 Oil ? Manganese dioxide has an inorganic chemical compound, MnO2. It comes in the form of a black powder, or an orthorhombic crystal. It is not soluble in water, weak acid or weak base and cold sulfuric acids. Used as an oxidant and rust remover.
These are some of the properties of MnO2 Pulver
1. pH and Alkalinity. Manganese dioxide is both an acidic and alkalinic oxide. This is a stable, black powdery liquid at room temperatures and can be used for depolarizing dry batteries. The laboratory uses its oxidizing ability to make chlorine gas. It acts with concentrated HCl.
2. Manganese dioxide can be described as an amphoteric ore, with corresponding salts such as BaMnO3 / SrMnO3 (obtained through a compound reaction within a molten acidi system [1]), and also manganese tetrachloride. .
3. The reaction of a reducing agent with an oxidizing agent is known as oxidizing. In order to produce manganese oxide (manganese dioxide), heat the manganese in a hydrogen stream at 1400K. Then, in order to create manganese dioxide, heat the manganese in ammonia streams to melt manganese bioxide. Finally, react with concentrated hydrochloric acids to form chloride manganese and chlorine.
4. The strong oxidants also have a reduced form. When manganese dioxide and potassium carbonate or potassium nitrate are combined and melted, you can get a dark brown melt. After the melt is dissolved in water, it can be cooled and used to produce potassium manganate which is a compound of high-valent manganese. It can cause severe oxidation in an acidic environment.
5. This is a powerful oxidant. It does not go out by itself and supports combustion.
6. It acts as a catalyst for the decomposition of potassium chlorate [KClO3] and hydrogen peroxide [H2O2]

Manganese Dioxide Properties
Additional Names	manganese oxide, MnO2 powder
	1313-13-9
Compound Formula	MnO2
Molecular Weight	86.94
Appearance	Black Powder
Melting Point	535 degC
Boiling Point	N/A
Density	5.03 g/cm3
Solubility of H2O	Insoluble
Exact	86.9279

Manganese Dioxide MnO2 CAS 1313-13-9

Application of MnO2 Pulver
1.Organic Synthesis
In organic chemistry, manganese dioxide can be very helpful. The chemical formula for manganese oxides can be expressed as MnO2x(H2O),n. This is because manganese dioxide has many crystalline forms. You can make manganese dioxide by reacting potassium permanganate with manganese sodium sulfate at different pH.
The conversion of alcohols and aldehydes is one chemical reaction that manganese dioxide has. No matter how double-bonded alcohols are, manganese dioxide won't oxidize them. The product will not again be oxidized, no matter how active it may be. By using manganese dioxide, diols can become dialdehydes. You can use manganese dioxide to react with many other compounds, such as aromatics, trils, and amines.
2.Laboratory Use
When hydrogen peroxide decomposes to produce oxygen, it's used as an catalyst. Useful for pigments, yellow glasses, and other purposes. To produce chloride, heat concentrated hydrochloric Acid in hot water. Also react in air with potassium hydroxide to create potassium manganate. Manganese dioxide is used to decompose potassium permanganate.
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The applications of Molybdenum Carbide Powder

admin / 2023-05-31 / no Comments

Overview Molybdenum Carbide Powder
The molecular formula molybdenum sulfide Mo2C is a metal with a molecular mass of 203.88. The carbon content is 5.89%. It is a dark grey metal powder with tightly packed hexagonal lattice. The melting point is 2690 and the density is 9.18g/cm. This new functional material has a high melting temperature and hardness. It is also good at thermal and mechanical stability and corrosion resistance. It has been used extensively for wear resistance, chemical corrosion resistance, high-temperature resistance, and high temperature resistance. site.
Molybdenum carbide's hexagonal crystal structure is a = 0.30029 and c= 0.472895. The micro Vickers hardness of molybdenum carbide (load 50g), a = 0.30029 nm and c = 0.472895 nm, is 1950kg/mm2 compared to 2080kg in WC. / mm2 has a softer melting point.

Molybdenum Crbide Mo2C Pulp CAS 12069-89-5

What are the possible uses of Molybdenum Carbide Powder
Molybdenum carbide is a novel type of functional material. It has an excellent melting point, hardness, and resistance to corrosion. It has been used extensively in many high temperature, wear and chemical corrosion areas. It also has similar electronic structures and catalytic characteristics to the noble metal.
1. Because of its electronic structure and catalytic performance similar to noble metals, molybdenum carbide can be widely used as a catalyst for reactions involving hydrogens, such as the isomerization of alkanes, the hydrogenation of unsaturated hydrocarbons, hydrodesulfurization, and denitrification;
2. Molybdenum carbide is an important part of molybdenum-molybdenum carbide hard coatings and other cermet coatings, and can also be used alone as wear-resistant and wear-resistant coatings;
3. Molybdenum-carbide is widely used in hydrogen related reactions such as alkanes.
4. Molybdenum-free special alloys and engineering clays can be made using molybdenum carbide.
5. Molybdenum carbide is used as a super-hard tool material. It can also be used as a wear-resistant material. A heating element material or high-temperature structure material.
6. Molybdenum caride is used for the production of wear-resistant films as well as semiconductor films.
7. Molybdenum-carbide can be used to make special alloys and engineering ceramics without chromium.
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Properties and Applications of Ti6Al4V TC4 Powder

admin / 2023-05-30 / no Comments

Introduction to Ti6Al4V TC4 powder Material for the TC4 titanium alloy Also known as Ti-6Al-4V - titanium alloy It is a member of the (a+b), type of titanium alloy. It is characterized by good mechanical properties, high stability, good toughness and plasticity, as well as high-temperature deformation performance. Hot pressure processing, quenching and ageing can make it more robust. The heat treatment yields a strength about 50-100% greater than the annealed. It is strong at high temperatures and can operate at 400500 degrees for long periods.
TC4 has excellent low-temperature performance. It is still strong below -196 so it can be used to make low-temperature highpressure vessels like liquid hydrogen fuel tanks for rockets or missiles.

Physicochemical properties of Ti6Al4V Powder. TC4 powder
Material for the TC4 titanium alloy It has lightweight, excellent mechanical and corrosion resistance properties as well as biocompatibility. It has low thermal conductivity, and is not magnetic.
Titanium-based metal It is a new type or metal whose properties depend on other elements, such as carbon, nitrogen, hydrogen and oxygen. It generally has:
1, High strength . Titanium has a density of 4.51g per cubic centimeter. This is less than half the steel's. The density of pure Titanium is comparable to that of regular steel. Some high-strength, titanium alloys have higher strength than those of many alloy structural metals. This means that titanium alloy's specific strength (strength/density), is significantly higher than those of other metallic structural metals.
2, High thermal strength . The titanium alloy can maintain its required strength at medium temperature and can operate at 450500 for a prolonged time.
3, Excellent resistance to corrosion . Titanium alloy can be used in humid conditions and seawater. Its corrosion resistance is superior to stainless steel pitting corrosion, acid corrosion, stress corrosion, especially strong alkali and chloride, as well as nitric acid and sulfuric acid.
4, good low-temperature performance . Titanium alloys are capable of maintaining their mechanical properties at ultra-low and low temperatures. TA7 is a high-performance titanium alloy that can withstand low temperatures and has very few gap elements. It can also maintain some plasticity below -253. Also, titanium alloy can be used as a low-temperature structural material.
5, Chemical activity high . Titanium exhibits high chemical activity. It can be used to react with oxygen and nitrogen as well as hydrogen, CO, CO2, CO2, water vapour, ammonia and other elements in the atmosphere. If the carbon content in titanium is higher than 0.2%, hard TiC forms in titanium. At high temperatures, a hard TiN is formed. Titanium can absorb oxygen and form hard hardening layers if its carbon content is greater than 600. High temperatures can cause a hardening layer to form. This is due to an increase in hydrogen. Inhalation can make the surface hard brittle to a depth of 0.1-0.15mm. The hard brittle can also reach 20%-30%. It has a strong chemical affinity and is easily adhered to the friction surfaces.
6, Thermal conductivity small elasticity . The thermal conductivity in titanium is 1/4 of nickel, 1/5th of iron, and 1/14th of aluminum. Different titanium alloys have a different thermal conductivity at around 50%. The elastic modulus is half of that of steel. However, titanium has poor stiffness. It is not suitable to be used in thin-walled or slender parts.

Ti6Al4V Powder Properties
Other Names	Ti6Al4V powder, TC4 powder
No.	N/A
Formula compound	TA0,TA1,TC4,TC4 ELI,TC11,TC17,TC18,TC21,TA7,TA12,TA15,TA17,TA19, Ti40,Ti60,TiAl(Ti36Al,Ti48Al2Cr2Nb)
Molecular Weight	N/A
Appearance	grey powder
Melting Point	N/A
Boiling Point	N/A
Density	N/A
Solubility of H2O	N/A
Exact Mass	N/A

3D printing Ti6Al4V Powder

Applications of Ti6Al4V TC4 Powder
Ti6Al4V has many uses in high-performance engineering, including aerospace, automotive, medical device manufacturing, and other areas.
Aerospace: Components for jet engines
Manufacturing: Industrial turbines
Car: muffler
Medical: implants, artificial bones
The petrochemical industry: TC4 Titanium rods are inert and extremely resistant to corrosion. The electrolyte for electrolytic Mn02 is a neutral solution of MnSO4 which requires the electrode be resistant to sulfate corrosive. Telegraph machines made from lead alloy and graphite have a negative effect. The anode becomes semi-permanent after switching to titanium.
The rods of TC4 titanium alloy are resistant to almost all organic acids, organic media and except formic and oxalic acids. Additionally to methanol resistance, titanium is also resistant to corrosion by organic aldehydes and ketones.
Acetaldehyde, for example, is the main ingredient in acetic acids. The corrosion problems of stainless steel equipment are caused by acetic, acetaldehyde and chloride. Titanium material is used to fix this problem in acetic Acid production. For example, acetone can be made from propylene or can be produced using titanium production facilities. Japan built a plant capable of producing 30,000 tons per year of Acetone. It also used 40 tons of Titanium.
TC4 Titanium rods are also resistant to wet H2S and wet SO4 gas.
In the oil refining business, equipment is frequently corroded by H2S or NH8, sulfide or chloride. However, titanium equipment can resolve this problem. Titanium is used primarily in distillation towers and condensers. Titanium is ideal for ammonia and/or urea production because it resists corrosion.

Main supplier of Ti6Al4V Powder, TC4 powder
Technology Co. Ltd. is a trusted global supplier and manufacturer of chemicals and Nanomaterials. They have over 12 years experience in producing super high-quality chemicals, such as silicon powder.
High-quality products are what you want Ti6Al4V Powder, TC4 Powder Please feel free and contact us to send an inquiry. (brad@ihpa.net)

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The Applications of Magnesium Nitride Powder

admin / 2023-05-29 / no Comments

Magnesium Nitride Pulver Overview
Magnesium-nitride The chemical formula Mg3N2 refers to an inorganic compound of nitrogen and magnesium. It is a green-yellow liquid at room temperature and under pressure. Magnesium-nitride, an inorganic compound made up of magnesium and nitrogen, has a molecular formula Mg3N2 (molecular weight 100.9494). It belongs to the cubic-crystalline system. Magnesium Nitride reacts with ammonia to make it, just like other metal nitrides. To make magnesium nitride the magnesium ribbon can also be burned in nitrogen. A catalyst is sometimes used.

Magnesium Nitride Mg3N2 powder CAS 12057 71-5

What are the possible uses for Magnesium Nitride Pulver?
The nano-magnesium dioxide has an obvious surface and quantum effect as well as a small size and micro tunnel effect. It also has broad potential applications. It is an important new material of the 21st Century. Nano-magnesium oxide is widely used in electronics,catalysis,ceramics, petroleum products,coatings and other fields. Different products use them in different ways. They are used as flame retardants in the chemical fiber and plastic industries;high-temperature dehydrating agents for the production of silicon steel plates,advanced ceramic materials,electronic industry materials,and adhesives and additives in chemical raw materials; high-frequency magnetic rod antennas in the radio industry, Fillers for magnetic equipment, fillers for insulating materials and various carriers; refractory fibers and refractory materials, magnesia chrome bricks,fillers for heat-resistant coatings, high-temperature insulation meters, electrical, cables, optical materials and steelmaking; electrical insulation materials, Manufacturing crucibles, furnaces, insulated pipes(tubular elements), electrode rods, electrode plates.
With the growing demand for high-performance flame retardant fibers in the textile sector, synthetic flame retardants have become a popular material for the creation of functional fabrics. Nano-magnesiumoxid is commonly combined with wood chips and shavings to create refractory material such as lightweight, sound insulation, heat isolation, and cermet. It is non-toxic, tasteless and requires very little addition, as opposed to traditional organic flame retardants that contain phosphorus, halogen or halogen. Nano-magnesium oxide is also good for coatings because it has excellent cleaning and corrosion inhibition abilities.
Because of its exceptional electrical, thermal, mechanical and physical properties, magnesium oxide is widely employed in the field semiconductor electronic packaging.
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What is lithium nitride and its application?

admin / 2023-05-28 / no Comments

What is lithium nitride? Lithium-nitride This is a metallic nitrogen compound with a molecular structure of Li3N. It is a purple or red crystalline liquid with a light green color in reflected and a ruby-colored in transmitted light. The lithium carbonate will eventually form if exposed to the air for prolonged periods. The basic metal nitrides are very difficult to chemistry. Of all the binary compounds, lithium nitride has the best stability and is easy to prepare.
At room temperature, metallic lithium can partially produce lithium nitride if it is exposed to the air. In a nitrogen stream, lithium nitride is produced by lithium. It's about 10-15 times quicker than in the atmosphere. All of the lithium is converted into lithium Nitride at this point. It is much more difficult for other alkali elements to form nitrides than this property. The only way to prepare sodium nitrite is by heating it slightly and deposition on sapphire using the atomic beam at low temperatures. It is easy to hyrolyze lithium nitride to make ammonia and lithium hyroxide. It is important to keep lithium nitride in an inert environment (such as nitrogen).
Preparation for Lithium Nitride
You can make lithium nitride by directly reacting elemental nitro and lithium. It is typically made by burning lithium in pure oxygen. This is the best method to make lithium Nitride in industry or the laboratory. The most commonly used methods. You can also pass nitrogen into liquid sodium dissolved together with metallic lithium. This produces a lithium nitride that is higher in purity.

Application of Lithium Nitride
Solidity
Lithium-nitride has a high conductivity and is a good ion conductor. Numerous studies have been conducted on the use of lithium nitride for solid electrodes and cathodes in battery manufacturing.
Preparation and use of cubic boron nutride
Apart from being a solid electrolyte lithium nitride also acts as a catalyst for the conversion hexagonal to cubic boron nutride.
Electron injection layer for the organic light emitting device
Lithium nitride, or Li3N, is used as a dopant in the Alq3 layer. This electron transport material improves the OLED device's performance. Literature has shown that Li3N can act as a buffer between the electron injection and the cathode layers to increase the device's performance.

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The Applications of Aluminum Niitride

admin / 2023-05-27 / no Comments

What is it? Aluminum Nitride ? Aluminum nitride or covalent bond compounds, chemical formula is AIN, is an atomic structure that is non-toxic, white, or off-white.
Aluminum Nitride has the following main features
AlN can be stored at temperatures up to 2200°C. The strength of AlN at room temperature is high. With increasing temperatures, it decreases slowly. It is an excellent thermal shock material because it has a low thermal conductivity and small thermal expansion coefficient. It is strong in resisting corrosion to molten steel and makes an excellent crucible material to cast pure iron, aluminum, and aluminum alloy. Aluminum nitride, which is an excellent electrical insulator due to its good dielectric properties, is also promising as an electric component. The aluminum nitride coating protects the gallium arsenide substrate from ionization during annealing. Aluminum nitride also acts as a catalyst in the conversion of hexagonal to cubic boron nutride. It reacts slowly at room temperature with water. Aluminum powder can be made in nitrogen atmosphere or ammonia at 8001000. It is white to gray-blue and can be used as a catalyst. It can also be produced by reaction of Al2O3C–N2 system at 16001750. The product is off-white. Or by the vapor phase reaction of aluminum chloride with ammonia. The vapor phase deposition method for AlCl3/NH3 can produce the coating.

Aluminum Nitride Properties
Other Titles	Aluminium nitride
No.	24304-00-5
Combination Formula	AlN
Molecular Weight	40.9882
Appearance	Powders from pale yellow to white
Melting Point	2200 degC
Boiling Point	2517 degC (dec.)
Density	2.9 to 33% g/cm3
Solubility of H2O	N/A
Electrical Resistivity	10-12 10x 10x O.m
Poisson’s Ratio	0.21 to $0.31
Specific heat	780 J/kg-K
Thermal Conductivity	80 to 200 W/m/K
Thermal Expansion	4.2 to 5.4 um/mK
Young’s Modulus	330 GPa
Exact Mass	40.9846
Monoisotopic	40.9846

AlN powder CAS 24304 00-5

The use of Aluminium Niitride
The majority of current research is in developing a semiconductor-based light emitting device (gallium nutride or alloy aluminum gallium nanonitride) that can operate in ultraviolet light with a wavelength up to 250 nanometers. An inefficient diode can emit light up to 210 nm [1] as reported in May 2006. An aluminum nitride single crystal has an energy difference of 6.2eV, measured by the reflection of UV rays. The energy gap is theoretically large enough to allow some waves with wavelengths of around 200 nanometers to pass through. However, commercial implementation presents many difficulties. Aluminum nitride has many uses in optoelectronics. This includes as dielectric layers for optical storage interfaces and electronic substrates. Also, it is used in military applications as chip carriers with high thermal conductivity.
The properties of aluminum Nitride's piezoelectric effects make epitaxial stretching of aluminum Nitride crystals a good choice for surface acoustic-wave detectors. The detectors can be placed on silicon wafers. It is difficult to produce thin films reliably in these locations.
Aluminum nitride clays can be used for heat exchangers and high-temperature structural parts.
It can be used to resist corrosion properties of aluminum, iron, and other metals.
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Important Applications of Amorphous Boron Powder in Different Fields

admin / 2023-05-27 / no Comments

What is amorphousboron powder?

Amorphous boron dust Is a dark brown or black powder. Crystal boron is either black or dark brown powder. It is hardier than diamond and has a brittle texture. Boron is called boron. Its Arabic name means "flux", which is what it was originally called.

Properties of amorphous Boron powder

The elementalboron is a black or dark brownish powder. When internal boron is oxidized in oxygen, it forms boron Trioxide Film. It can react with fluorine at normal room temperatures and is not corroded if hydrochloric acid or hydrofluoric acid are aqueous solutions.
Amorphous Boron powder is not soluble in water. The powdered form of boron can also be dissolvable in boiling sulfuric acid or nitric acids.

Application of amorphous Boron powder

Amorphous boron is widely used in metallurgy and electronics as well as medicine, ceramics, the nuclear industry, the chemical industry, and many other areas.

Amorphous boron is used as a fine chemical product in metallurgy. It can also be used in aerospace, synthesis and other areas. It is often used as a deoxidizer and initiator of an automobile airbag or pilot of rocket launch fuel.

Because of its hardness, crystalline boron can be used to replace diamond in the making of cutting tools and drill bit. To prevent metal oxidation at high temperatures, a small amount is added to the process of metal melting. On the other side, the mechanical properties can be improved.

Amorphous Boron powder will soon be a major energy material. This is why composite solid propellants have been closely studied. Boron is a solid fuel with a calorific worth that exceeds that of carbon. It also has twice the aluminum and magnesium calorific values. Its volumetric calorific values are almost three times higher than hydrocarbon fuels, while its density is just slightly lower that that of aluminum. It has the highest volumetric value. Boron is the best nonmetallic fuel for energy.

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The Applications of AlMgB14 Powder

admin / 2023-05-26 / no Comments

Overview of AlMgB14 Pulver
Aluminum Boride or Al3Mg3B56 The compound of aluminum, magnesium, and boron, also known as BAM is commonly known. Its nominal molecular formula for boron is AlMgB14. However, its chemical structure is closer to Al0.75Mg0.75B14. It is a wear-resistant ceramic alloy that has an extremely low sliding friction coefficient. This record-breaking value was 0.04 for the AlMgB14–TiB2 unlubricated composite material and 0.02 for the AlMgB14–TiB2 lubricated composite material. In 1970, BAM reported the discovery. Each cell is composed of four icosahedral, B12 units. The superhard material's thermal expansion coefficient is comparable to that of concrete and steel.
AlMgB14 aluminum/magnesium-boride material has a better abrasion resist than diamond and is a novel anti-degradation product. AlMgB14's density is 2.66g/cm3, which compares to other superhard materials such as diamond and cubic-boron nitride. It is also less reactive than carbon steel, stainless and titanium alloys, and is highly thermal stable.

Aluminum Magnesium Boride BAM AlMgB14 Powder

What are the uses for AlMgB14 Powder?
BAM is available commercially, and more research is underway to find potential applications. BAM, or BAM+ TiB2, can be applied to pistons, seals, and vanes of a pump to reduce friction and improve wear resistance. Energy consumption will be reduced by reducing friction. BAM can also apply to cutting tools. Reducing friction will decrease the force required to cut objects, increase the tool's lifespan, and increase cutting speed. A 2-to-3 micron thick coating can improve efficiency and reduce tool wear.
The research area of superhard materials is dominated by Ternary Boride AlMgB14 powder. It has received a lot of attention from researchers at home as well as abroad over the past years. AlMgB14 superhard metal is an alternative to traditional metastable materials such as diamond or cubic boron nuitride. This superhard material has good thermoelectric and thermal stability, high hardness and low density.
AlMgB14 aluminum/magnesium-boride material has a better abrasion resist than diamond and is a novel anti-degradation product. AlMgB14's density is 2.66g/cm3, which compares to other superhard materials such as diamond and cubic-boron nitride. It is also less reactive than carbon steel, stainless and titanium alloys, and is highly thermal stable.
AlMgB14 aluminum–magnesium boreide has a higher electrical conductivity than most other superhard materials. It is practically equivalent to polysilicon. AlMgB14 has a low price that is between 5 and 10 times those of cubic boron nuitride or diamond. AlMgB14's excellent properties make it not only wearable.
You can use traditional skills, like cutting and protective coating, in advanced scientific areas such as photodetectors, photodetectors, neutronmasks, micromachines and key aerospace components.
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The Applications of Few Layer Graphene

admin / 2023-05-25 / no Comments

Overview F ew L ayer G raphene
This type is made up of three to ten layers of carbon atoms. They are packed in a benzene ring (that is, hexagonal honeycomb structure) and stacked in various stacking methods (ABC stacking,ABA stacking etc. )Two-dimensional carbon materials.
Singlelayer graphene is a powder that has the two-dimensional structure as a new carbonaceous substance. Graphene powder is a good choice for its electrical, thermal, or mechanical properties.

Anode Material for Lithium Battery Few Layer Graphene (CAS 1034343-398-0

What are the potential applications of F ew L ayer G raphene
With the gradual breakthrough of mass production and large-size problems, the industrial application of graphene is accelerating.Based on existing research results,the first commercial applications may be mobile devices,aerospace,and new energy. The battery field. The electronic structure can also be altered by the induction of gas molecule adhsorption. This changes not only the concentration of carriers but also allows for the doping of graphene with different graphenes.
1.Sensor
Graphene is capable of being made into a chemical sensors. This is achieved mainly through its surface adsorption capabilities. The sensitivity of graphene-based chemical detectors is comparable to that of single molecule detectors, according to some researchers. Graphene's two-dimensional nature makes it extremely sensitive to its surroundings. Graphene is a good material for electrochemical sensors. Graphene sensors have a high sensitivity to detect dopamine in medicine and glucose in medicine.
2.Transistor
Graphene can also be used to create transistors.
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Magnesium nitride introduction and application

admin / 2023-05-24 / no Comments

What is Magnesium nutride? Magnesium-nitride, an inorganic chemical compound with the chemical formula Mg3N2, is part of the cubic crystal system. At room temperature pure magnesium is yellow-green, but it contains some magnesium oxide impurities. Magnesium is gray. Like other metal nitrides like magnesium nitride it reacts with the water to make ammonia. This can be used as a catalyst.

What does magnesium nitride actually look like?
Magnesium-nitride is often called yellow. However, we have never seen any yellow residue after the first heat. Students notice the lack of yellow products often and silently skip or ask about the second heat.
Is magnesium nitride water-soluble?
Magnesium-nitrate, a water-soluble source for crystalline magnesium, is compatible with both nitrates (acidic) and low pH compounds. Magnesium compounds containing nitrates are generally water-soluble. Oxidants are also available for nitrate compounds.
Application of Magnesium Nitride
Magnesium oxide can be used as catalyst to synthesise cubic boron trioxide. This was also used in the successful first synthesis.
Robert Wentorf, a 1957 chemist, attempted to convert hexagonalboron nutride into cubic boron nutride. He tried various methods to convert the boron nitride into cubic boron tiride. He tried all possible catalysts (such those used for diamond synthesis), but nothing worked.
He added magnesium to hexagonal-boron nitride [4] later out of curiosity and desperateness. It was discovered that the magnesium contained tiny dark lumps that could scratch polished boron nitride, which was the only known to cause such scratches at the time.
Wentorf noticed ammonia-like odors in magnesium nitride and moist air. He concluded that magnesium nitride was formed by the reaction between magnesium nitride and boron. This acted as a catalyst to transform hexagonal boron nutride into cubic.
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