Ge3N4 powder is the name of Germanium Nitride. Germanium nitride powder Ge3N4 is used as an anti reflection layer in integrated circuit devices. Purity: 99.999%
Particle Size: -100 Mesh

Description of Germanium Nitride Ge3N4 Pulp:

Germanium nitride (GeN) has essential physical and chemical properties. Its crystal structure and electronic behavior mainly influence its properties.

The germanium nitride prepared under high pressure has a face-centered cubic structure, while the germanium nitride designed under low pressure has a hexagonal structure. Both of these structures exhibit different physical properties.

In terms of physical properties, germanium nitride has a high melting point, high hardness, low thermal conductivity, and excellent chemical stability. Its hardness is similar to diamond, and its thermal conductivity is much lower than silicon but comparable to gallium arsenide. These properties make germanium nitride potentially valuable for high-temperature and high-speed electronic devices.

In terms of electronic behavior, germanium nitride is 3.5 eV. This high bandgap energy gives germanium nitride an advantage in manufacturing high-power, high-temperature electronic devices. In addition, the electron mobility of germanium nitride is high, which improves the performance of electronic devices.

Regarding chemical stability, germanium nitride has excellent chemical stability and can be used in high-temperature and corrosive environments. This stability makes germanium nitride potentially advantageous for applications in extreme environments.

Germanium Nitride powder Ge3N4 Technical data:

Part name	Germanium Nitride Powder of High Purity
MF	Ge3N4
Purity	99.999%
Particle Size	-100 Mesh
Application	Germanium Nitride Ge3N4 Powder is used as anti-reflection in integrated circuit devices. ;

How does Germanium Nitride ge3N4 powder get made?

Thermal reaction method

Thermal reaction is a standard method for producing germanium nitride. The technique is to react germanium and nitrogen at high temperatures to make germanium nitride. The thermal reaction method usually uses a high-temperature furnace or a reactor to respond.

High-temperature furnace method: Germanium and nitrogen are heated to more than 1000 ° C in a high-temperature furnace and maintained for a specific time so that germanium and nitrogen entirely react to generate germanium nitride. The high-temperature furnace method can obtain high-purity germanium nitride, but the equipment cost is high, and the production cycle is long.

Reactor method: Germanium and nitrogen are passed into the reactor and react at high temperatures to produce germanium nitride. The reactor can obtain a large production capacity, but the reaction conditions must be strictly controlled, such as temperature, pressure, reaction time, etc.

Chemical vapor deposition method

Chemical vapor deposition (CVD) is a standard method for preparing germanium nitride. The technique is to synthesize germanium nitride in the gas phase and react with the germanium source and nitrogen source at high temperatures to produce germanium nitride.

Hydride method: Germanide (such as GeH4) and ammonia are reacted at high temperatures to produce germanium nitride. The advantage of this method is that it can react at lower temperatures, but it requires the use of the toxic GeH4 as the germanium source.

Direct ammoniation method: germanium powder and ammonia gas directly react at high temperatures to produce germanium nitride. This method requires higher temperature and pressure but can now use the metal germanium as the raw material.

Sputtering method

Sputtering is a standard method for preparing germanium nitride. The technique is to produce germanium nitride by sputtering the germanium target and nitrogen under the action of the electric field.

DC sputtering method: the germanium target is connected to the cathode, and nitrogen is used as a working gas. Under the action of the electric field, nitrogen ions bombard the germanium target so that the atoms on the surface of the target are sputtered out and react with nitrogen to generate germanium nitriding. The advantage of this method is that high-purity germanium nitride can be obtained, but the equipment cost is high.

Radio frequency sputtering method: the germanium target is connected to the anode, and nitrogen is used as a working gas. Under the action of the electric field, nitrogen ions bombard the surface of the target so that the atoms on the surface of the target are sputtered out and react with nitrogen to generate germanium nitriding. The advantage of this method is that a higher deposition rate can be obtained, but the equipment cost is high.

Applicationes of Germanium Nitride Ge3N4 Powder :

Electronic field

Integrated circuit chip: Germanium nitride has good electrical and thermal conductivity and high corrosion resistance, so it is one of the essential materials in the manufacture of integrated circuit chips. Using germanium nitride can make more precise and reliable integrated circuit chips to improve the performance and stability of electronic equipment.

Transistor: The high electron mobility and mechanical strength of germanium nitride make it one of the essential materials for the manufacture of transistors. Transistors made using germanium nitride have higher switching speeds and lower leakage currents, which can improve the efficiency and performance of electronic devices.

Capacitors: Germanium nitride has a high dielectric constant and low dielectric loss, so it is one of the essential materials in capacitor manufacturing. Using germanium nitride can lead to smaller, more reliable capacitors, improving the energy efficiency and stability of electronic devices.

The energy sector

In energy, germanium nitride is widely used in battery manufacturing, fuel cells, etc.

Fuel cell electrode materials: Germanium nitride's high electron mobility and mechanical strength, as well as corrosion resistance, make it one of the preferred fuel cell electrode materials. The use of germanium nitride as electrode material can improve the power generation efficiency and reliability of fuel cells and extend their service life.

Aerospace

In the aerospace field, germanium nitride is widely used to manufacture high-temperature structures and aircraft engine parts.

High-temperature structural parts: Germanium nitride has excellent high-temperature performance and mechanical strength, so it is widely used in high-temperature structural components. High-temperature structural components manufactured with germanium nitride have a longer service life and higher reliability, which can improve the safety of aerospace equipment.

Mechanical field

In the field of machinery, germanium nitride is widely used in the manufacture of high-strength, wear resistance, corrosion resistance, and other mechanical parts.

High-strength mechanical parts: Germanium nitride has high strength and mechanical stability, so it is widely used in high-strength mechanical parts. High-strength mechanical parts manufactured with germanium nitride have a longer service life and higher reliability, which can improve the work efficiency and safety of mechanical equipment.

Wear-resistant mechanical parts: Germanium nitride has high hardness and wear resistance, which is widely used in wear-resistant mechanical parts. Wear-resistant mechanical components made of germanium nitride have a longer service life and higher wear resistance, which can improve the work efficiency of mechanical equipment and reduce maintenance costs.

Corrosion-resistant mechanical parts: Germanium nitride has high corrosion resistance, so it is widely used in corrosion-resistant mechanical parts. Corrosion-resistant mechanical parts manufactured with germanium nitride have a longer service life and higher corrosion resistance, which can improve the efficiency of mechanical equipment and reduce maintenance costs.

Shipping and Packing Germanium Nitride, Ge3N4 powder:
There are many kinds of packaging that can be used depending on the amount of germanium Nitride Ge3N4 powder.
Germanium nitride powder Ge3N4 packaging You can vacuum pack 1kg per bag, 25kg/barrel or according to your requirements.
Germanium Nitride Ge3N4 Powder Shipping: could be shipped by air or by sea to you as soon as payment receipt is received.

Germanium Nitride Powder Properties
Other Titles	Germanium(III) nitride; Tris(nitrilogermyl)amine; 1-Nitrilo-N, N-bis(nitrilogermyl)germanamine; Germanium Tetranitride; Trigermanium tetranitride
	12065-36-0
Compound Formula	Ge3N4
Molecular Weight	273.95
Appearance	Crystalline solid
Melting Point	N/A
Solubility In Water	N/A
Density	N/A
Purity	99.999%
Particle Size	-100 Mesh
Bold point	N/A
Specific Heat	N/A
Thermo Conductivity	N/A
Thermal Expansion	N/A
Young's Module	N/A
Exact	271.779797 g/mol
Monoisotopic	277.775829 g/mol
Germanium Nitride powder Safety & Health Information
Safety Notice	Alert
Hazard Statements	H315-H319-H335
Flashing Point	N/A
Hazard Codes	Xi
Risk Codes	36/37/38
Safety statements	26-36
RTECS #	N/A
Transport Information	N/A
WGK Germany	3

Inquiry us