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2024-2030 Global 2D Metal Carbides and Nitrides Industry Research & Trends Analysis Report

2024-2030 Global 2D Metal Carbides and Nitrides Industry Research & Trends Analysis Report

MXene is a class of two-dimensional (2D) materials that were first discovered in 2011. MXene materials are derived from layered transition metal carbides, nitrides, or carbonitrides, known as MAX phases. The term "MAX" refers to the combination of M (transition metal), A (group 13 or 14 element), and X (carbon and/or nitrogen). 2D layered materials derived from MAX or non-MAX phases were not predicted to exist before this discovery. Unlike most 2D ceramics, MXenes have inherently good conductivity and excellent volumetric capacitance because they are molecular sheets made from the carbides and nitrides of transition metals like titanium. MXenes have already found applications ranging from energy storage to medicine and optoelectronics.

date 2024-06-11
industry Chemical & Material

MXene is a class of two-dimensional (2D) materials that were first discovered in 2011. MXene materials are derived from layered transition metal carbides, nitrides, or carbonitrides, known as MAX phases. The term "MAX" refers to the combination of M (transition metal), A (group 13 or 14 element), and X (carbon and/or nitrogen). 2D layered materials derived from MAX or non-MAX phases were not predicted to exist before this discovery. Unlike most 2D ceramics, MXenes have inherently good conductivity and excellent volumetric capacitance because they are molecular sheets made from the carbides and nitrides of transition metals like titanium. MXenes have already found applications ranging from energy storage to medicine and optoelectronics.

date 2024-06-11
industry Chemical & Material
2024-2030 Global MXene and MBene Industry Research & Trends Analysis Report

2024-2030 Global MXene and MBene Industry Research & Trends Analysis Report

MXene is a class of two-dimensional (2D) materials that were first discovered in 2011. MXene materials are derived from layered transition metal carbides, nitrides, or carbonitrides, known as MAX phases. The term "MAX" refers to the combination of M (transition metal), A (group 13 or 14 element), and X (carbon and/or nitrogen). 2D layered materials derived from MAX or non-MAX phases were not predicted to exist before this discovery. Unlike most 2D ceramics, MXenes have inherently good conductivity and excellent volumetric capacitance because they are molecular sheets made from the carbides and nitrides of transition metals like titanium. MXenes have already found applications ranging from energy storage to medicine and optoelectronics.

date 2024-06-11
industry Chemical & Material

MXene is a class of two-dimensional (2D) materials that were first discovered in 2011. MXene materials are derived from layered transition metal carbides, nitrides, or carbonitrides, known as MAX phases. The term "MAX" refers to the combination of M (transition metal), A (group 13 or 14 element), and X (carbon and/or nitrogen). 2D layered materials derived from MAX or non-MAX phases were not predicted to exist before this discovery. Unlike most 2D ceramics, MXenes have inherently good conductivity and excellent volumetric capacitance because they are molecular sheets made from the carbides and nitrides of transition metals like titanium. MXenes have already found applications ranging from energy storage to medicine and optoelectronics.

date 2024-06-11
industry Chemical & Material
2024-2030 Global Chromium Molybdenum Steel Industry Research & Trends Analysis Report

2024-2030 Global Chromium Molybdenum Steel Industry Research & Trends Analysis Report

Chromium Molybdenum Steel, an alloy steel, is made by adding chromium (about 1%) and molybdenum (0.15-0.3%) to carbon steel. This composition enhances the steel's strength at high temperatures, making it a type of heat-resistant steel. The addition of molybdenum helps in reducing temper brittleness.

date 2024-06-11
industry Chemical & Material

Chromium Molybdenum Steel, an alloy steel, is made by adding chromium (about 1%) and molybdenum (0.15-0.3%) to carbon steel. This composition enhances the steel's strength at high temperatures, making it a type of heat-resistant steel. The addition of molybdenum helps in reducing temper brittleness.

date 2024-06-11
industry Chemical & Material
2024-2030 Global Filter Paper Sheet Industry Research & Trends Analysis Report

2024-2030 Global Filter Paper Sheet Industry Research & Trends Analysis Report

According to YH Research, the global market for Filter Paper Sheet should grow from US$ 75.9 million in 2023 to US$ 99 million by 2030, with a CAGR of 3.8% for the period of 2024-2030.

date 2024-06-11
industry Chemical & Material

According to YH Research, the global market for Filter Paper Sheet should grow from US$ 75.9 million in 2023 to US$ 99 million by 2030, with a CAGR of 3.8% for the period of 2024-2030.

date 2024-06-11
industry Chemical & Material
2024-2030 Global Zinc Chloride Anhydrous Industry Research & Trends Analysis Report

2024-2030 Global Zinc Chloride Anhydrous Industry Research & Trends Analysis Report

Zinc Chloride Anhydrou is an inorganic compound, a white crystalline powder, easily soluble in water, soluble in methanol, ethanol, glycerin, acetone, ether, and insoluble in liquid ammonia. It is mainly used as a dehydrating agent, catalyst, and preservative. , also used in electroplating, medicine, pesticide and other industries.

date 2024-06-11
industry Chemical & Material

Zinc Chloride Anhydrou is an inorganic compound, a white crystalline powder, easily soluble in water, soluble in methanol, ethanol, glycerin, acetone, ether, and insoluble in liquid ammonia. It is mainly used as a dehydrating agent, catalyst, and preservative. , also used in electroplating, medicine, pesticide and other industries.

date 2024-06-11
industry Chemical & Material
2024-2030 Global Forsterite Brick Industry Research & Trends Analysis Report

2024-2030 Global Forsterite Brick Industry Research & Trends Analysis Report

Forsterite Bricks are bricks made using forsterite as the main raw material. Forsterite is a magnesium-containing mineral with excellent fire resistance and high temperature resistance, and is often used in the production of refractory materials.

date 2024-06-11
industry Chemical & Material

Forsterite Bricks are bricks made using forsterite as the main raw material. Forsterite is a magnesium-containing mineral with excellent fire resistance and high temperature resistance, and is often used in the production of refractory materials.

date 2024-06-11
industry Chemical & Material
2024-2030 Global Zinc Chloride Hexahydrate Industry Research & Trends Analysis Report

2024-2030 Global Zinc Chloride Hexahydrate Industry Research & Trends Analysis Report

Zinc Chloride Hexahydrate is an inorganic compound. It usually exists in the form of white crystals and is easily soluble in water at room temperature. It is a corrosive compound and is mainly used in the fields of catalysts, dehydrating agents and preservatives. Please pay attention to safety precautions when using, avoid contact with skin and eyes, and avoid inhaling its vapor.

date 2024-06-11
industry Chemical & Material

Zinc Chloride Hexahydrate is an inorganic compound. It usually exists in the form of white crystals and is easily soluble in water at room temperature. It is a corrosive compound and is mainly used in the fields of catalysts, dehydrating agents and preservatives. Please pay attention to safety precautions when using, avoid contact with skin and eyes, and avoid inhaling its vapor.

date 2024-06-11
industry Chemical & Material
2024-2030 Global Zirconia Brick Industry Research & Trends Analysis Report

2024-2030 Global Zirconia Brick Industry Research & Trends Analysis Report

Zirconia Brick is a high-performance ceramic material whose main component is zirconia (ZrO2). Zirconia Bricks have excellent high temperature resistance, wear resistance, and corrosion resistance. They are an ideal refractory material and are often used in linings, refractory structures, and heat insulation layers of high-temperature industrial equipment.

date 2024-06-11
industry Chemical & Material

Zirconia Brick is a high-performance ceramic material whose main component is zirconia (ZrO2). Zirconia Bricks have excellent high temperature resistance, wear resistance, and corrosion resistance. They are an ideal refractory material and are often used in linings, refractory structures, and heat insulation layers of high-temperature industrial equipment.

date 2024-06-11
industry Chemical & Material
2024-2030 Global Magnesia Hercynite Brick Industry Research & Trends Analysis Report

2024-2030 Global Magnesia Hercynite Brick Industry Research & Trends Analysis Report

Magnesia Hercynite Brick is a special type of spinel brick whose main component is mafic-iron spinel. Magnesia spinel is a high-temperature ore with excellent fire resistance and chemical stability, so it is often used in refractory materials and high-temperature industrial fields. Magnesia Hercynite Bricks usually have high strength, wear resistance and corrosion resistance, and are suitable for the construction of high-temperature furnaces, chimneys, furnaces and other refractory structures. Its surface often exhibits a special crystal structure, which is both decorative and practical.

date 2024-06-11
industry Chemical & Material

Magnesia Hercynite Brick is a special type of spinel brick whose main component is mafic-iron spinel. Magnesia spinel is a high-temperature ore with excellent fire resistance and chemical stability, so it is often used in refractory materials and high-temperature industrial fields. Magnesia Hercynite Bricks usually have high strength, wear resistance and corrosion resistance, and are suitable for the construction of high-temperature furnaces, chimneys, furnaces and other refractory structures. Its surface often exhibits a special crystal structure, which is both decorative and practical.

date 2024-06-11
industry Chemical & Material
2024-2030 Global Magnesia Calcium Carbon Brick Industry Research & Trends Analysis Report

2024-2030 Global Magnesia Calcium Carbon Brick Industry Research & Trends Analysis Report

Magnesia Calcium Carbon Brick is a special material usually used for the lining of high-temperature furnaces. It is prepared by mixing magnesia, carbon and other additives in a certain proportion and has excellent fire resistance and corrosion resistance. Magnesia Calcium Carbon Bricks have good stability and wear resistance in high-temperature environments, and can effectively protect the inner wall of the kiln from erosion by high-temperature gases and chemical substances. Therefore, it is widely used in metallurgy, glass, chemical and other industries.

date 2024-06-11
industry Chemical & Material

Magnesia Calcium Carbon Brick is a special material usually used for the lining of high-temperature furnaces. It is prepared by mixing magnesia, carbon and other additives in a certain proportion and has excellent fire resistance and corrosion resistance. Magnesia Calcium Carbon Bricks have good stability and wear resistance in high-temperature environments, and can effectively protect the inner wall of the kiln from erosion by high-temperature gases and chemical substances. Therefore, it is widely used in metallurgy, glass, chemical and other industries.

date 2024-06-11
industry Chemical & Material
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