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Perovskites / Spinels- Powders
Calcium Titanate - Nanoparticles
Calcium Titanate - Nanoparticles
Calcium Titanate - Nanoparticles
CaTiO3 is one of the most versatile oxides of the perovskite family for applications in areas such as electronics, photocatalysis and photovoltaics, due to its properties that it can present, such as ionic conduction, ferroelectric, or photoluminescence.
Calcium Silicate - Nanoparticles
Calcium Titanate - Nanoparticles
Calcium Titanate - Nanoparticles
CaSiO3, composed of calcium oxide (CaO) and silica (SiO2), can be used as a filler, thickener, lubricant, and mold-release agent.
ZnFe2O4 - Nanoparticles
Calcium Titanate - Nanoparticles
ZnFe2O4 - Nanoparticles
Magnetic ZnFe2O4 nanostructures have broad applications in various fields such as medicine, catalytic reaction, energy storage, batteries, water splitting, supercapacitors, environmental purposes,
Because of their high opacity, zinc ferrites can be used as pigments, especially in applications requiring heat stability. For example, zinc
Magnetic ZnFe2O4 nanostructures have broad applications in various fields such as medicine, catalytic reaction, energy storage, batteries, water splitting, supercapacitors, environmental purposes,
Because of their high opacity, zinc ferrites can be used as pigments, especially in applications requiring heat stability. For example, zinc ferrite prepared from yellow iron oxide can be used as a substitute for applications in temperatures above 350 °F (177 °C).
zinc ferrite nanoparticles determine the very wide possibilities of their use, inter alia as catalysts, absorbents, gas sensors, and a tool to combat cancer.
conducting polymers
Polyaniline- Nanoparticles
Polythiophene - Nanoparticles
Polyaniline- Nanoparticles
Polyaniline (PANI) is an intrinsically conductive polymer used in various applications, including drug delivery, photovoltaic cells, plastic batteries, display devices, microelectronics, chemically modified electrodes, corrosion protection, and polymer light-emitting diode (PLED) displays due to its specific properties
PANI has been use
Polyaniline (PANI) is an intrinsically conductive polymer used in various applications, including drug delivery, photovoltaic cells, plastic batteries, display devices, microelectronics, chemically modified electrodes, corrosion protection, and polymer light-emitting diode (PLED) displays due to its specific properties
PANI has been used in many applications including solar cells, lithium batteries, supercapacitors, fuel cells, flexible electrodes, corrosion-resistant coatings, water pollutant removal, screen printing, and sensors .
Polypyrrole- Nanoparticles
Polythiophene - Nanoparticles
Polyaniline- Nanoparticles
PPy and related conductive polymers have two main application in electronic devices and for chemical sensors and electrochemical applications.
The biomedical applications of polypyrrole as an antioxidant range from wound dressings to antiviral applications where polypyrrole functions as both an antibacterial agent and an antioxidant agent.
Polythiophene - Nanoparticles
Polythiophene - Nanoparticles
Polythiophene - Nanoparticles
polythiophene and its derivatives has been one of the most extensively studied and is widely investigated computationally and experimentally for use in electronic devices such as light-emitting diodes, water purification devices, hydrogen storage, and biosensors.
About NanoRamTechnologies.com
Nano TCCA - Tablets / Powder as Powerful Disinfectant
Trichloroisocyanuric acid, which is a chemical compound used primarily as a disinfectant, algaecide, and bactericide. It is a white crystalline powder or granular solid and is often found in the form of tablets or powder.
TCCA releases chlorine when it comes into contact with water. The released chlorine is responsible for the disinfection and oxidation processes. Chlorine is a strong oxidizing agent that can break down organic matter and destroy or deactivate microorganisms.
Nano TCCA Applications
1. Water Disinfection:
- TCCA can widely be used as a disinfectant in swimming pools, water treatment plants, and other water systems. It helps kill bacteria, viruses, and algae, thereby maintaining water quality.
2. Surface Disinfection:
- TCCA can be used to disinfect surfaces in various settings, such as hospitals, laboratories, and food processing plants. It helps control the spread of pathogens and ensures a hygienic environment.
3. Sterilization of Equipment:
- In medical and laboratory settings, TCCA is employed for the sterilization of equipment and instruments.
4. Household Cleaning Products:
TCCA can be used as an ingredient in some household cleaning products, including bleach tablets and powders.
Our Innovation
1. Bleaching Agent:
- TCCA can be used as a bleaching agent in the textile industry for the bleaching of cotton and other fabrics.
2. Disinfection in Agriculture:
- TCCA can be in agriculture for the disinfection of seeds and soil. It helps control the growth of harmful microorganisms in agricultural settings.
3. Oil Well Stimulation:
- TCCA can be used in the oil and gas industry for well stimulation purposes.
4. Disinfection of Cooling Water Systems:
- TCCA can be applied in cooling water systems to prevent the growth of microorganisms and the formation of biofilms.
Metal - Powders / Dispersions
Silver -Ag- Nanoparticles
Silver -Ag- Nanoparticles
Silver -Ag- Nanoparticles
Ag nanoparticles (NPs) have found potential applications in a wide spectrum of areas including:
- Drug delivery,
- DNA analysis and gene therapy,
- Cancer treatment,
- Antimicrobial agents,
- Biosensors,
-Catalysis,
- SERS and magnetic resonance imaging (MRI)
Copper -Cu- Nanoparticles
Silver -Ag- Nanoparticles
Silver -Ag- Nanoparticles
The key applications of copper nanoparticles are listed below:
- Acts as an anti-biotic, anti-microbial, and anti-fungal agent when added to plastics, coatings, and textiles.
- Copper diet supplements with efficient delivery characteristics.
- High strength metals and alloys.
- EMI shielding.
Cu-NPs and CuO-NPs are increasingly being used in nanofor
The key applications of copper nanoparticles are listed below:
- Acts as an anti-biotic, anti-microbial, and anti-fungal agent when added to plastics, coatings, and textiles.
- Copper diet supplements with efficient delivery characteristics.
- High strength metals and alloys.
- EMI shielding.
Cu-NPs and CuO-NPs are increasingly being used in nanoformulations and agro-chemicals for efficient delivery and controlled release of pesticides and fertilizers.
Iron - Fe - Nanoparticles
Silver -Ag- Nanoparticles
Iron - Fe - Nanoparticles
There are many biomedical applications, including the magnetic separation and labeling of biological materials and specific delivery of drugs. They also help in MRI Contrast Enhancement and in selectively heating cancerous tumors and in the removal of heavy metals.
Single Oxide - Powders / Dispersions
CuO - Nanoparticles
CuO - Nanoparticles
CuO - Nanoparticles
Copper oxide is a semiconductor metal with unique optical, electrical and magnetic properties and it has been used for various applications, such as the:
- Development of supercapacitors,
- Near-infrared filters,
- Magnetic storage media,
- Sensors,
- Catalysis,
- Semiconductors,
In agriculture, CuO NPs have been used as pesticides, herb
Copper oxide is a semiconductor metal with unique optical, electrical and magnetic properties and it has been used for various applications, such as the:
- Development of supercapacitors,
- Near-infrared filters,
- Magnetic storage media,
- Sensors,
- Catalysis,
- Semiconductors,
In agriculture, CuO NPs have been used as pesticides, herbicides, fertilizers, additives for soil remediation, and growth regulators
- etc.
MgO - Nanoparticles
CuO - Nanoparticles
CuO - Nanoparticles
Magnesium oxide nanoparticles can be applied in
- Electronics,
- Catalysis,
- Ceramics,
- Petrochemical products,
- Coatings
- Pharma
- Magnesium Oxide is used in wastewater treatment plants.
- It is used in the treatment of drinking water.
- It is used as an anticaking agent.
- It is used in air emissions treatment.
Magnesium oxide nanoparticles can be applied in
- Electronics,
- Catalysis,
- Ceramics,
- Petrochemical products,
- Coatings
- Pharma
- Magnesium Oxide is used in wastewater treatment plants.
- It is used in the treatment of drinking water.
- It is used as an anticaking agent.
- It is used in air emissions treatment.
- It is used in optical materials.
- It is used for the relief of heartburn and dyspepsia.
- It is used as a food additive
ZnO - Nanoparticles
CuO - Nanoparticles
ZnO - Nanoparticles
The ZnO powder has been widely used as an additive in a plethora of materials and products including
- Ceramics,
- Glass,
- Cement,
- Rubber,
- Lubricants,
- Paints,
- Ointments,
- Adhesives,
- Plastics,
- Sealants,
- Pigments,
- Foods,
- Batteries,
- Ferrites
- Fire retardants.
Double Oxide - Powders / Dispersions
SiO2- Nanospheres
ZrO2 - Nanoparticles
ZrO2 - Nanoparticles
- Silicon dioxide is used in the construction industry to produce concrete.
- In its crystalline form it is used in hydraulic fracturing.
- Used in the production of glass.
- Used as a Sedative.
- Used in the production of elemental silicon.
- Used as an anti-caking agent in powdered foods like spices.
- Used as a fining agent in juice, beer, and wine.
- Used
- Silicon dioxide is used in the construction industry to produce concrete.
- In its crystalline form it is used in hydraulic fracturing.
- Used in the production of glass.
- Used as a Sedative.
- Used in the production of elemental silicon.
- Used as an anti-caking agent in powdered foods like spices.
- Used as a fining agent in juice, beer, and wine.
- Used pharmaceuticals for making tablets.
- Used in toothpaste to remove tooth plaque.
ZrO2 - Nanoparticles
ZrO2 - Nanoparticles
ZrO2 - Nanoparticles
The main use of zirconia is in the production of hard ceramics, such as in dentistry, with other uses including as a protective coating on particles of titanium dioxide pigments, as a refractory material, in insulation, abrasives, and enamels.
ZrO2 NPs are extensively used as a coating in optical, ceramic, and dental industries as well
The main use of zirconia is in the production of hard ceramics, such as in dentistry, with other uses including as a protective coating on particles of titanium dioxide pigments, as a refractory material, in insulation, abrasives, and enamels.
ZrO2 NPs are extensively used as a coating in optical, ceramic, and dental industries as well as a catalyst in several organic reactions, piezoelectric and photocatalytic applications
Applications include materials for fuel cells, used in oxygen sensors and cubic zirconia for jewellery. PZT, Glass, bone cement. Zirconium Oxide doped with magnesium oxide can produce partially stabilized materials which offer thermal resistance and tough materials, ideal for use in refractories.
TiO2- Nanoparticles
ZrO2 - Nanoparticles
TiO2- Nanoparticles
Titanium dioxide has now been a well established inorganic white pigment and is widely applied in the coatings, plastics, paper manufacturing, and in many common products.
TiO2 photocatalysis is widely used in a variety of applications and products in the environmental and energy fields, including self-cleaning surfaces, air and water p
Titanium dioxide has now been a well established inorganic white pigment and is widely applied in the coatings, plastics, paper manufacturing, and in many common products.
TiO2 photocatalysis is widely used in a variety of applications and products in the environmental and energy fields, including self-cleaning surfaces, air and water purification systems, sterilization, hydrogen evolution, and photoelectrochemical conversion.
Typically, they are employed in the preparation of fabrics, windows, and anti-fogging automobile mirrors because of their self-cleaning and anti-fogging properties. Titanium dioxide nanoparticles also act as a sanitizer for the environment.
Triple Oxide - Powders / Dispersions
Al2O3 - Nanoparticles
Al2O3 - Nanoparticles
Al2O3 - Nanoparticles
It is used as a catalyst. It is used in the purification of water to remove water from the gas streams. It is used in sandpaper as an abrasive. Aluminium oxide is an electrical insulator used as a substrate for integrated circuits.
- Abrasives. Alumina is widely used in a variety of industrial abrasive materials, owing to its superior har
It is used as a catalyst. It is used in the purification of water to remove water from the gas streams. It is used in sandpaper as an abrasive. Aluminium oxide is an electrical insulator used as a substrate for integrated circuits.
- Abrasives. Alumina is widely used in a variety of industrial abrasive materials, owing to its superior hardness and strength. ...
- Refractories. ...
- Glass. ...
- Engineered Ceramics. ...
- Processing Alumina Powder. ...
- Alumina Feasibility & Pilot Testing.
Cr2O3 - Nanoparticles
Al2O3 - Nanoparticles
Al2O3 - Nanoparticles
Used in dyeing polymers. Used in the manufacturing of chromium metal. Used as a catalyst to prepare butadiene. Used in stainless steel polishing.
It is predominantly used in flash melters, converting furnaces, slag cleaning furnaces, smelting furnaces, and for tap hole constructions.
Chromium plating, wood preservation industry, anodiz
Used in dyeing polymers. Used in the manufacturing of chromium metal. Used as a catalyst to prepare butadiene. Used in stainless steel polishing.
It is predominantly used in flash melters, converting furnaces, slag cleaning furnaces, smelting furnaces, and for tap hole constructions.
Chromium plating, wood preservation industry, anodizing aluminum, corrosion resistance applications, sealing phosphate coatings applied to iron or steel, bright dipping of brass, acid cleaning of Al and Mg and organic synthesis.
V2O3 - Nanoparticles
Al2O3 - Nanoparticles
V2O3 - Nanoparticles
V2O3 can be prepared directly to vanadium powder, ferrovanadium alloy, vanadium nitride, and other products. Because the magnetic susceptibility of V2O3 change with temperature, it also has important applications in thermoelectric switches, magnetic switches, optical switches, and film materials
Due to its high coefficient of thermal r
V2O3 can be prepared directly to vanadium powder, ferrovanadium alloy, vanadium nitride, and other products. Because the magnetic susceptibility of V2O3 change with temperature, it also has important applications in thermoelectric switches, magnetic switches, optical switches, and film materials
Due to its high coefficient of thermal resistance, vanadium(V) oxide finds use as a detector material in bolometers and microbolometer arrays for thermal imaging. It also finds application as an ethanol sensor in ppm levels (up to 0.1 ppm)
Waste to Welath
Great Excitement !!!!!!!!Make Nano Products from Effluent
Effluent from Pharma industry can be converted into valuable nanoproducts by appropriate treatment with low cost. Make your unit ZLD
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