Metal Nano Particles

Gold Nano Particles

Kadamba proudly leads the way as the pioneering research organization for green synthesis of gold nanoparticles. Our core mission is to create a sustainable future..

Our Commitment to Green Synthesis

At Kadamba, we firmly believe in the power of nature and have harnessed it to create gold nanoparticles that leave no carbon footprint. Our innovative green synthesis methods prioritize sustainability, making us a standout in the field of nanotechnology.

Our uniqueness

Cutting-Edge Innovation: Our research drives innovation, ensuring we stay at the forefront of gold nanoparticle synthesis.
Patented Excellence: Our technologies are tried, tested, and patented, guaranteeing their uniqueness and effectiveness.
Biocompatibility: Your health and the environment are our top priorities. Our gold nanoparticles are 100% biocompatible and eco-friendly.
Green Synthesis: We're committed to nature-friendly practices, ensuring our methods have no adverse impact on the planet or human health and we do so with 100% net-zero carbon technology
Sustainable Future: Kadamba's vision is a sustainable future, and our practices reflect that commitment.

Gold nanoparticles (GNPs) possess distinctive optical, electronic, and chemical traits that distinguish them from bulk gold. These characteristics are influenced by their size, shape, and surface chemistry, which can be tailored for specific applications. Kadamba GNPs are biocompatible and non-toxic, rendering them valuable for diverse applications.

Gold Nano Particles(GNPs)

Biomedical applications

GNPs can be functionalized with biological molecules such as antibodies,enabling targeted delivery of drugs to specific cells or tissues.

Photothermal therapy

GNPs can also be used in photothermal therapy, a technique where the particles absorb light and convert it into heat and killing cancer cells.

Sensing & Imaging

Used in imaging technologies such as X-ray computed tomography (CT) and magnetic resonance imaging (MRI) as contrast agents improving the visualization of tissue and organs.

Functional food and beverages

Kadamba's gold nanoparticles are transforming the functional food and beverages industry. These nanoparticles serve as exceptional nutrient carriers and therapeutic agents, optimizig product effectiveness. From boosting nutriental delivery to facilitating and targeted therapies,Kadamba's innovation enhances the health benefits of your daily consumption.

Electronics & Nano Electronics

GNPs can also be used in electronic displays,sensors,and memory devices due to their unique electrical properties.GNPs are also being studied for their potential use in quantum computing, where their small size and high surface area could improve the performance of quantum devices.

Catalyst and Catalyst Support

GNPs are being used as catalyst in chemical reactions such as the oxidation of carbon monoxide and the reduction of nitrogen oxides in automobile exhaust systems. GNPs have been used as catalysts in the synthesis of organic compounds and in the production of hydrogen gas from water.

Anti-Inflammatory Effects

Silver nanoparticles have anti-inflammatory properties and may be used in the treatment of inflammatory conditions, such as arthritis and inflammatory bowel disease.

Conductive Inks & Coatings

GNPs have been used to develop conductive inks for printed electronics.

Uses of Gold nanoparticles

Used in diagnostic,particles in imaging techniques like computed tomography

Applied in targeted drug delivery systems for cancer therapy,utilizing their unique properties to enhance precision.

Employed as catalysts in various chemical reactions due to their high surface area and catalytic activity.

Utilized in electronic components,sensors and conducive inks for printed electronics.

Used as biomakers for labeling and tracking biological maolecules in research and diagonostics .

Exploited for their ability to convert light into heat, making them useful in photothermal therapy for treating diseases.

Integrated into diagnostic assays such as lateral flow tests to improve sensitivity and accuracy.

Investigated for their potential as anti-inflamatory agents in biomedical applications.

Employed in catalytic canverters for automobiles to enhance efficiency.

Cognitive Health

Neuroprotection

Gold nanoparticles may have neuroprotective properties.They can help reduce oxidative stress, inflamation, and neurodegeneration,potentially benefitting cognitive health
Drug Delivery for Neurological Disorders

Gold nanoparticles can be employed as carriers for delivering drugs and therapeutics agents across the blood-brain barrier, which is a significant challenge in treating neurological disorders. Targeted delivery to the brain can enhance the efficiency of drugs for conditions like Alzhemer's disease and Parkinson's disease.

Heart Health

Cardiac Tissue Regeneration

Gold nanoparticles, when combined with stem cells or tissue-engineered constructs, can promote cardiac tissue regeneration. They may aid in the repair of damaged heart tissue after heart attacks or other cardiovascular events.

Anti-inflammatory Effects

Gold nanoparticles have anti-inflamatory properties and may be used to reduce inflammation in the cardiovascular system, potentially benefitting patients with inflammatory heart conditions.

Stent Coatings

Gold nanoparticles can be incorporated into the coatings of coronary stents to prevent restenosis (re-narrowing of blood vessels) after angioplasty. They can help maintain the patency of blood vessels, improving long-term outcomes.

Silver Nano Particles

Kadamba, Revolutionizing Nanotechnology with Green nano synthesisation. Kadamba stands at the forefront of Indian research, pioneering the synthesis of nanoparticles through eco-friendly technology. With our commitment to sustainability, all our cutting-edge technologies are patented, ensuring we offer solutions that are both innovative and environmentally responsible

Our uniqueness

At Kadamba, we take pride in producing silver nanoparticles that are not only highly effective but also entirely biocompatible. Our mission is to harness the potential of naturally available herbal cocktails and other organic ingredients to create a range of silver nanoparticles that are safe for both human health and the environment.
Our green technology approach distinguishes us in the world of nanotechnology. By avoiding harmful chemicals and solvents, we minimize the ecological footprint of our processes. We believe that science and nature can coexist harmoniously, and our commitment to green technology reflects this belief.
We are constantly pushing the boundaries of silver nanoparticle synthesis, ensuring our products are at the highly innovative cutting edge of nanotechnology.
Our processes align with nature, minimizing harm to the planet and human health. We developed net zero carbon technology for synthesizing nano materials.
We are dedicated to a sustainable future, and our practices reflect this commitment.

Kadamba silver nano particles are non-toxic. It can be functionalized with various biomolecules based on our subjective research & requirements such as…

Silver nanoparticles have gained significant attention in the field of biomedicine due to their unique properties, including antimicrobial, anti-inflammatory, and tissue regeneration effects. They have a wide range of potential applications in various biomedical areas. Here are some notes on the use of silver nanoparticles in biomedical applications:

Silver nanoparticles in biomedical applications

Antimicrobial properties

silver nanoparticles are their antimicrobial activity. They are effective against a broad spectrum of bacteria, viruses,fungi and even MRSA too,making them attractive for use in medical and healthcare products.

Bio-Medical Applications

silver nanoparticles can also be functionalized with specific biomolecules,such as Various Phyto-chemicals,antibiodies and peptides for targeted imaging or therapy in biomedical applications.

Wound Dressings

Silver nanoparticles are incorporated into wound dressings to accelerate wound healing and reduce the risk of infection. They can help create a sterile environment and promote tissue regeneration.

Antibacterial Coatings

Medical devices, such as catheters and surgical instruments, can be coated with silver nanoparticles to prevent bacterial biofilm formation and reduce the risk of healthcare-associated infections.

Dental Applications

Silver nanoparticles can be used as carriers for drug delivery systems. They have a high surface area and can carry drugs to specific target sites, enabling controlled drug release.

Tissue Engineering

Silver nanoparticles are used in tissue engineering to promote cell growth and tissue regeneration. They can enhance the mechanical properties and bioactivity of scaffolds used for tissue repair.

Diagnostic Imaging

Silver nanoparticles are employed in various diagnostic imaging techniques, such as computed tomography (CT) and magnetic resonance imaging (MRI) as contrast agents for improved visualization of anatomical structures.

Eye Care

Silver nanoparticles are used in ophthalmic solutions and contact lens coatings to prevent eye infections and improve eye health.

Food packaging

Silver nanoparticles can be used in food packaging to prevent the growth of bacteria and extend the shelf life of food products.

Nanocomposites

Silver nanoparticles can be incorporated into various materials to improve their properties, including strength, thermal stability, and electrical conductivity.

Catalysis

Silver nanoparticles are effective catalysts for various chemical reactions, including oxidation, reduction, and hydrogenation. They are used in many industrial applications, including the production of chemicals,pharmaceuticals, and fuels.

Uses of Silver nanoparticles

Medical Field

Used in wound dressings,coatings for medical devices, and as antimicrobial agents in texttiles.
Electronics

Employed in conductive inks, elctronic pastes, and as a component in printed electronics.
Catalysis

Applied as catalysts in chemical reactions, due to their high surface area and unique catalytic properties.
Texttiles

Incorporated into fabrics to provide antibacterial and antifungul properties, enhancing hygeine in clothing.
Water Purification

Utilized for water treatement to inhibit bacterial and fungul growth,aiding in the disinfectantion process.
Food Packaging

Integrated into packaging materials to extend the shelf life of food products by preventing microbial.
Photovoltaics

Used in solar cell technologies to enhance the efficiency of energy conversion.
Cosmetics

Included in skincare products for their antimicrobial properties and potential benefits in skincare formulations.

Palladium nanoparticles

Palladium nanoparticles have unique physical and chemical properties due to their small size and high surface area-to-volume ratio.

Palladium nanoparticles can be produced through a variety of methods such as, Chemical reduction, Electrochemical deposition, Laser ablation.

Uses of Palladium nanoparticles

Catalysis

Widely used as catalyst in various chemical reactions,including hydrogenation and coupling reactions in organic synthesis.

Automative Catalytic Converters

An essential component in catalytic converters of automobiles to reduce emissions by coverting harmful gases into less toxic substances.

Electronics

Employed in the production of components like multilayer ceramic,as well as in the development of fuel cells for energy conversion.

Fuel Cells

Utilized as a catalyst in proton exchange membrane fuel cells,enhancing the efficiency of energy conversion.

Hydrogen Storage

Investigated for their potential use in hydrogen storage materials, contributing to the development of clean energy technologies.

Medical Imaging

Used in the development of contrast agents for medical imaging techniques like positron emission tomography(PET).

Environmental Remediation

Applied in the removal of contaminants from water and air due to their catalytic and adsorptive properties.

Organic Synthesis

Employed in the synthesis of pharmaceuticals and fine chemicals, facilitating more efficient and selective reactions.

Food packaging

Silver nanoparticles can be used in food packaging to prevent the growth of bacteria and extend the shelf life of food products.

Nanocomposites

Silver nanoparticles can be incorporated into various materials to improve their properties, including strength, thermal stability, and electrical conductivity.

Catalysis

Energy applications

Palladium nanoparticles are a versatile and promising with a range of potential applications in various fields such as…

Energy Production

Palladium nanoparticles are used in fuel cells to facilitate the conversion of hydrogen and oxygen into water, producing electricity in the process.

Production of Biodiesel

Palladium nanoparticles are also used in the production of biodiesel, where they help to break down triglycerides into fatty acids and glycerol.

Solar cells

Palladium nanoparticles can also be used in the production of solar cells. They have been shown to enhance the efficiency of solar cells by improving their light absorption and charge transfer capabilities. Palladium nanoparticles are particularly effective in thin-film solar cells, which are less expensive and easier to manufacture than traditional silicon-based solar cells.

Fuel cells

Palladium nanoparticles have been shown to improve the performance and longevity of fuel cells, making them an important component of fuel cell technology. It is used in fuel cells as a catalyst, which convert chemical energy into electrical energy, (facilitating the reaction between hydrogen and oxygen) which makes the fuel cells a clean and efficient source of energy.

Hydrogen storage

Palladium nanoparticles can absorb and store large amounts of hydrogen, making them useful in hydrogen storage applications. Hydrogen is considered an important clean energy source, and palladium nanoparticles could play a key role in the development of hydrogen fuel cell technology.

Energy storage

Palladium nanoparticles can be used in energy storage applications such as lithium-ion batteries and supercapacitors. They have been shown to improve the performance and stability of these devices by increasing their energy density and reducing their charging time. which are used in many portable electronic devices. The high conductivity and stability of palladium nanoparticles make them an attractive alternative to traditional electrode materials, such as graphite or carbon.

CO2 capture

Palladium nanoparticles can be used to capture carbon dioxide (CO2) emissions from power plants and other industrial sources. CO2 is a greenhouse gas that contributes to climate change, and capturing and storing it is an important part of reducing emissions.

Industrial Applications:

Apart from that, palladium nano particles have many unique industrial applications. Such as…

Automotive industry
Imaging & Sensing & Memory devices
Corrosion-resistance applications
Hydrogenation & Dehydrogenation
Oxidation

Iron Oxide Nanoparticles ( A Green Synthesis Marvel )

Kadamba, where innovation meets sustainability. As a leading Indian research organization, we're at the forefront of iron oxide nanoparticle synthesis, utilizing a 100% net-zero carbon green synthesis approach protected by patents. Our mission is to create iron oxide nanoparticles that are not only highly effective but also 100% biocompatible. We achieved this by harnessing the power of naturally available herbal cocktails and other organic ingredients. Kadamba offers a unique solution for a range of applications, from drug delivery and healthcare to environmental remediation, all while minimizing our ecological footprint.

These revolutionary particles find a wide array of applications due to their unique characteristics

Anaemia treatment

Iron nanoparticles can be used to combat iron deficiency, offering a safe and effective solution for pateints.

Drug Delivery

Bio-compatible iron oxide nanoparticles act as drug carriers. Their small size and biocompatibility enable precise drug targeting,reducing side effects.

Imaging Agents

Used in MRi scans, they enhance image contrast,aiding in the diagonsis of various medical conditions.

Cancer treatment

These nanoparticles are utilized in hyperthermia therapy,selectively targeting and destroying cancer cells when exposed to magnetic fields.

Wastewater Treatement

Iron oxide nanoparticles are effective in removing contaminants and heavy metals from water,contributing to cleaner environments.

Cosmetics

In cosmetics, they improve product stability and offer controlled release of active ingradients,benefiting both product quality and skin health.

Environmental Remediation

Bio-compatible iron oxide nanoparticles help in the removal of pollutants from soil and groundwater, contributing to environmental restoration.

Antibacterial Coatings

Iron nanoparticles can be incorporated into surface to create antimicrobial coatings, reducing the spread of infections.

Cell Labelling

They are employed to label and track cells in research and diagonstics. Iron nanoparticles present a promising avenue in various biomedical applications, offering innovative solutions for healthcare and research.

Food Industry

In food,they serve as a safe colouring agent,replacing synthetic dyes,ensuring a healthier food supply. Kadamba's iron oxide nanoparticles are a game-changer in the functional food and beverage industry .These nanoparticles effectively combat iron deficiency,serving as a therapeutic agent.By fortifying products with bio-compatible iron oxide nanoparticles, they offer a delicious solution to a common health issues.

Uses of iron nanoparticles

Environmental Remediation

Used for the removal of contaminants from water and soil through process like groundwater treatement and heavy metal removal.
Medical Applications

Investigated for drug delivery systems,magnetic response imaging(MRI) contrast agents and cancer treatement through hyperthermia.
Wastewater Treatement

Applied in the treatment of industrial wastewater for the removal of pollutants and heavy metals.
Catalysis

Utilized as catalysis in various chemical reactions due to their catalytic activity helping in the synthesis of organic compounds.

Magnetic Storage

Employed in the development of magnetic storage device,such as ferrofluids for data storage applications.
Biological Labeling

Used as contrast agents in biological imaging,enabling the tracking of cells and biomolecules.
Construction Materials

Incorporated into concrete for improved strength and durability,contributing to the development of advanced construction materials.
Nutrient Delivery in Agriculture

Explored for delivering nutrients to plants in agriculture, enhancing nuutrient absorption and plant growth.

Kadamba is the pioneering Indian research organisation for synthesizing iron oxide nano particles using 100% net zero carbon green synthesisation. All the technologies are patented. We produce 100% bio compatible iron oxide nanoparticles by using naturally available herbal cocktails and other natural ingredients

Copper Nano Particles

At Kadamba, our copper nanoparticles represent a paradigm shift towards sustainable technology, demonstrating the immense potential for eco-friendly solutions across industries. From electronics to healthcare and environmental applications, our commitment to innovation and sustainability drives us to redefine the possibilities of copper nanoparticles in the modern world.

Kadamba's copper nanoparticles present a game-changing solution across diverse applications, seamlessly balancing technological advancement with ecological responsibility.

The unique attributes of our copper nanoparticles make them versatile for a multitude of applications

Conductive Inks and Electronics

Copper nanoparticles are employed in conductive inks for flexible electronics, enabling the creation of lightweight and flexible electronic devices.

Catalysis

These nanoparticles serve as efficient catalysts in various chemical processes, contributing to the development of sustainable and eco-friendly industrial applications.

Antimicrobial Coatings

Incorporating copper nanoparticles into coatings can create surfaces with inherent antimicrobial properties, providing a defense against the spread of infections in various settings.

Biomedical Applications

Copper nanoparticles exhibit potential in medical diagnostics, imaging, and drug delivery. Their biocompatibility and unique properties open avenues for innovative solutions in healthcare.

Textiles

Copper nanoparticles can be integrated into fabrics for their antimicrobial properties, contributing to the development of self-sanitizing textiles.

Energy Storage

In the realm of energy, copper nanoparticles play a role in enhancing the performance of batteries and supercapacitors, contributing to the advancement of sustainable energy storage solutions.

Catalytic Converters

Copper nanoparticles are utilized in catalytic converters for efficient conversion of harmful pollutants in automotive exhaust gases.

Water Purification

In the domain of environmental sustainability, copper nanoparticles are effective in water purification, aiding in the removal of contaminants and promoting clean water sources.

Agricultural Innovations

Pesticides

Copper nanoparticles can be utilized as eco-friendly alternatives in agricultural pesticides, providing effective pest control while minimizing environmental impact.
Fertilizers

Incorporating copper nanoparticles into fertilizers enhances nutrient absorption in plants, promoting healthier crop yields and sustainable agriculture.
Micronutrient Supplements

Copper nanoparticles serve as micronutrient supplements, addressing nutrient deficiencies in plants and contributing to the overall health and productivity of crops

Kadamba is the pioneering Indian research organisation for synthesizing iron oxide nano particles using 100% net zero carbon green synthesisation. All the technologies are patented. We produce 100% bio compatible iron oxide nanoparticles by using naturally available herbal cocktails and other natural ingredients