ADOXIMA
DNC Technology
Our manufacturing process of specialised oxide materials can be tailored to meet the highest product specification benchmarks whilst substantially reducing wet waste management and promoting sustainable practices within the speciality chemical manufacturing industry.
The Adoxima solution provides extensive flexibility to meet the product specification requirements of the various industries according to the market applications and demand.
Our extensive capabilities encompass material enhancement achieved through the strategic integration of elements within our proprietary reactions. This innovative approach not only enables the production of superior materials, enhancing product quality, but also opens up a wide range of new applications. Through this process, we have the ability to manipulate the physio-chemical properties of metal oxides and hydroxides, including surface area, particle size, doping, impregnation, and the creation of mixed metal oxides, among other factors.
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Products In Development Pipeline
Products Ready for Lab Scale Synthesis
Products Ready for Pilot Manufacturing
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Products in Pilot Manufacturing
DNC Technology Process
Advantages
In today's marketplace, organisations find themselves challenged to harmonize product quality and pricing with a commitment to sustainability in order to maintain their competitive edge. While environmentally conscious practices are frequently the favored option, the interplay of market demands and the accompanying rise in costs has created a divergence between these goals.
Our process eliminates this dilemma by developing superior quality, competitively priced products, while simultaneously minimizing environmental impact and waste.
Example Nano-Material Integration
Adoxima coated glass fibre with our Advanced Boehmite formula and tested it against an untreated piece of fibre. The Advanced Boehmite material dramatically improved the critical attributes of the glass fibre and was tested by IIT Bhilai - India's premier technology institute.
Watch the tests being performed below
Benefits of Nano-Material's
Smaller Particle Size
Enables precise control over material properties, such as strength, flexibility, and durability.
Smaller particles fill gaps more effectively, leading to denser, stronger materials.
High Surface-to-Volume Ratio
Enhances reactivity and interaction between particles, improving material performance.
Increases tensile strength and durability by distributing stress more evenly.
Improves heat resistivity by creating more efficient heat dissipation pathways.
Tensile Strength
Nano-materials reinforce traditional materials by forming a stronger lattice structure.
Useful in applications where lightweight yet strong materials are required
Durability
Higher resistance to wear, tear, and corrosion due to tightly packed, uniform particle distribution.
Heat Resistivity
Superior thermal stability makes nano-materials ideal for high-temperature
environments.
Reduces thermal expansion, preventing material deformation under heat stress.
Material Volume Reduction
(e.g Li-batteries)
Nano-materials achieve the same or better functionality using less material, reducing weight and cost.
E.g allows for thinner separators while maintaining structural integrity, increasing energy density
Enhanced Conductivity
(e.g Li-batteries)
Nano-materials, such as graphene or nano-scale ceramics, provide improved ionic and electrical conductivity.
Boosts battery performance, enabling faster charging and higher discharge rates.
Improved Performance
(e.g Li-battery separators)
Smaller particle size in ceramic coatings enhances uniformity and prevents dendrite formation, extending battery life.
High thermal stability of nano-materials reduces the risk of separator failure under high operating temperatures.
Safety
Nano-coatings provide increased resistance to mechanical puncture and thermal runaway.
Improves long-term reliability, especially in demanding environments like electric vehicles and portable electronics.
Engagement Opportunites
Research & Development
Manufacturing
