Precision synthesis of 0D, 1D, and 2D nanomaterials tailored for next-generation applications in energy storage, electric vehicles, semiconductors, and beyond.
We specialize in the synthesis of advanced nanomaterials with exceptional control over morphology, composition, and surface properties.
Size-controlled nanomaterials with tunable electronic and optical properties.
Layer-controlled Transition Metal Dichalcogenides (TMDs) with precise thickness.
Carbon Nanotubes and high-aspect-ratio nanomaterials for charge transport.
Advanced perovskite nanomaterials for electronic and energy applications.
Available in customizable compositions, morphologies, and batch quantities for research and industrial use.
High-quality semiconductor and metal oxide quantum dots with narrow size distribution and tunable properties.
ZnO, SiO₂, WS₂, MoS₂, CaTiO₃ and custom compositions with improved electron mobility.
TMDs and metal oxide nanosheets with large surface area, tunable bandgap, and excellent catalytic properties.
Engineered perovskite nanocrystals and hybrid nanostructures for solar and optoelectronic applications.
From concept to composition, we customize nanomaterials to match your innovation goals. We handle composition modification, particle size control, surface functionalization, morphology tuning, and batch scaling.
Request Custom OrderOur nanomaterials enable high-performance solutions across six key sectors driving the future of clean energy, mobility, and electronics.
Advanced nanomaterials for lithium-ion, sodium-ion, and solid-state batteries. High surface area materials improving energy density and long-term cycling stability.
High-performance electrode materials enabling faster charging, improved energy density, and thermal stability for next-generation EV battery systems.
Quantum dots, quantum sheets, and 1D nanostructures for FETs, photodetectors, flexible electronics, and advanced microelectronics research.
High surface area layered nanomaterials enabling rapid charge-discharge performance, improved capacity, and exceptional electrochemical stability.
Engineered nanomaterials enhancing sensitivity and response time in gas, chemical, electrochemical, and temperature sensing applications.
Tailored support for academic institutions, R&D labs, and early-stage startups with customizable nanomaterials for experimental and prototype development.
Next-generation technologies demand materials with precise dimensional control, consistent reproducibility, and scalable synthesis. However, access to customizable nanomaterials in small and medium quantities remains severely limited.
Research groups and emerging industries face critical gaps:
We exist to close these gaps. Our goal is to be a reliable, domestic nanomaterial supply partner that innovators can actually count on.
We are a deep-technology materials startup focused on the precision synthesis of low-dimensional nanomaterials. Our work covers quantum dots (0D), quantum sheets, one-dimensional nanostructures, transition metal dichalcogenide (TMD) nanosheets, metal oxide nanomaterials, and perovskite nanostructures.
Our materials are engineered to enable high-performance applications across energy storage, electric vehicles, semiconductors, supercapacitors, and advanced sensing technologies. We deliver high-purity, morphology-controlled, and application-optimized nanomaterials tailored to research laboratories, startups, and emerging technology companies.
We bring together academic depth and hands-on engineering to bridge the gap between fundamental materials science and real-world innovation. Our work helps accelerate high-impact technologies with the precision and reliability that comes from doing it locally.
To become a leading provider of advanced low-dimensional nanomaterials that power the next generation of energy, electronic, and sensing technologies.
To deliver high-quality, customizable nanomaterials through precision synthesis and scalable processes while enabling innovation across research institutions and emerging industries.
We advance materials science through responsible innovation, continuous research, and close industry collaboration. Everything we do is aimed at helping high-impact technologies get to market faster.