Plasma chemistry is the branch of chemistry that studies chemical processes in low-temperature plasma, including the laws that govern reactions in plasma and the fundamentals of #plasma chemical technology. Plasmas are artificially produced in #plasmatrons at temperatures that range from 103 to 2 × 104 K and pressures that range from 10–6 to 104 atmospheres. Interaction between the reagents in plasma results in the formation of final, or terminal, products

Plasma chemistry is the branch of chemistry that studies chemical processes in low-temperature plasma, including the laws that govern reactions in plasma and the fundamentals of #plasma chemical technology. Plasmas are artificially produced in #plasmatrons at temperatures that range from 103 to 2 × 104 K and pressures that range from 10–6 to 104 atmospheres. Interaction between the reagents in plasma results in the formation of final, or terminal, products

Plasma processing is a #plasma-based material processing technology that aims at modifying the chemical and physical properties of a surface. #Plasma processing techniques include: #Plasma activation, #Plasma etching.

Plasma processing is a #plasma-based material processing technology that aims at modifying the chemical and physical properties of a surface. #Plasma processing techniques include: #Plasma activation, #Plasma etching.

#Plasma spectroscopy is a study of electromagnetic radiation emitted from #ionized media. The #plasma will be considered to have a temperature and degree of ionization sufficiently high so that the radiation is due to atomic rather than #molecular processes.

#Plasma spectroscopy is a study of electromagnetic radiation emitted from #ionized media. The #plasma will be considered to have a temperature and degree of ionization sufficiently high so that the radiation is due to atomic rather than #molecular processes.

#Plasma diagnostics are a pool of methods, instruments, and #experimental techniques used to measure #properties of plasma, such as #plasma components density, distribution function over energy (temperature), their spatial profiles and dynamics, which enable to derive plasma parameters. #Plasma diagnostic techniques are also used to observe physical processes that reveal parameters that characterize plasma.

#Plasma diagnostics are a pool of methods, instruments, and #experimental techniques used to measure #properties of plasma, such as #plasma components density, distribution function over energy (temperature), their spatial profiles and dynamics, which enable to derive plasma parameters. #Plasma diagnostic techniques are also used to observe physical processes that reveal parameters that characterize plasma.

#Plasma in liquids usually has high dielectric constants and high #dielectric strength than gas phases which are useful in various #biological, #environmental and #medical technologies.

#Plasma in liquids usually has high dielectric constants and high #dielectric strength than gas phases which are useful in various #biological, #environmental and #medical technologies.

#Plasma nanotechnology is a branch of technology that deals with dimensions and tolerances of less than 100 nanometers, especially the manipulation of individual atoms and molecules. #Low-temperature #plasmas find numerous applications in growth and #processing of nanomaterial’s such as #carbon nanotubes, #inorganic nanowires and others.

#Plasma nanotechnology is a branch of technology that deals with dimensions and tolerances of less than 100 nanometers, especially the manipulation of individual atoms and molecules. #Low-temperature #plasmas find numerous applications in growth and #processing of nanomaterial’s such as #carbon nanotubes, #inorganic nanowires and others.

#Applied Plasma Technologies (APT) develops and manufactures #plasma assisted combustion systems for reliable #ignition, #flame control, clean and stable combustion of different fuels in gas turbines, high speed propulsion systems, boilers, technological burners, flare stacks, chemical plants, landfills. APT also conducts research and development in some new fields as gaseous, liquid and solid fuels reformation and hydrogen production.

#Applied Plasma Technologies (APT) develops and manufactures #plasma assisted combustion systems for reliable #ignition, #flame control, clean and stable combustion of different fuels in gas turbines, high speed propulsion systems, boilers, technological burners, flare stacks, chemical plants, landfills. APT also conducts research and development in some new fields as gaseous, liquid and solid fuels reformation and hydrogen production.

#Plasma is a hot ionized gas consisting of approximately equal numbers of #positively charged ions and #negatively charged electrons. The characteristics of #plasmas are significantly different from those of ordinary neutral gases so that plasmas are considered a distinct #"fourth state of matter”.

#Plasma is a hot ionized gas consisting of approximately equal numbers of #positively charged ions and #negatively charged electrons. The characteristics of #plasmas are significantly different from those of ordinary neutral gases so that plasmas are considered a distinct #"fourth state of matter”.

Areas of plasma technology: #Plasma has achieved significant importance in a diversity of research and these plasmas are routinely used to clean and surface treat plastic automotive bumpers, performance textiles and #filter media, stainless steel #syringe needles, #angioplasty balloon catheters, plastic lenses, Golf balls and many other diverse products.

Areas of plasma technology: #Plasma has achieved significant importance in a diversity of research and these plasmas are routinely used to clean and surface treat plastic automotive bumpers, performance textiles and #filter media, stainless steel #syringe needles, #angioplasty balloon catheters, plastic lenses, Golf balls and many other diverse products.

Plasma Medicine and Plasma biology: The number of potential applications of non-equilibrium atmospheric pressure discharges in biology and medicine has grown and activity in this direction lead to the formation of a new field in #plasma chemistry titled #'Plasma Medicine'. Some examples of #medical applications of plasma are the use of plasma in the treatment of #dental cavities, #sterilization of various surfaces, #treatment of skin diseases, delicate surgeries and many other applications.

Plasma Medicine and Plasma biology: The number of potential applications of non-equilibrium atmospheric pressure discharges in biology and medicine has grown and activity in this direction lead to the formation of a new field in #plasma chemistry titled #'Plasma Medicine'. Some examples of #medical applications of plasma are the use of plasma in the treatment of #dental cavities, #sterilization of various surfaces, #treatment of skin diseases, delicate surgeries and many other applications.

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