Engineering the Future, One Material at a Time, One Atomic Layer at a Time
NanoMatter Technologies is advancing semiconductor innovation through mastery of materials and use of Artificial Intelligence — from traditional oxides and nitrides to cutting-edge 2D and topological compounds. Addressed applications include powers devices in electronics, optoelectronics, energy, and quantum technology … among other applications.
Our Semiconductor Materials Expertise
Advanced & Topological Materials
MoTe₂, NbSe₂, PtS₂, PtSe₂, Bi₂Te₃, PbTe, and B₄C for quantum electronics, spintronics, and thermoelectric applications.
Pioneering scalable synthesis of 2D and layered materials through next-generation MOCVD and PVD platforms.
III-V & II-VI Compound Semiconductors
GaAs, InP, InGaN, CdTe, CdS, ZnSe, PbS, PbSe, CdZnTe, InSb, and GaP for LEDs, solar cells, and high-speed electronics.
We support research and industrial clients in optimizing epitaxial growth and heterostructure design.
Wide Bandgap & Oxide Semiconductors
SiC, AlN, Ga₂O₃, TiO₂, ZnO, SnO₂, Al₂O₃, and SiN for high-power electronics, UV optoelectronics, and sensors.
NanoMatter’s MOCVD and PVD platforms enable precision deposition and crystal growth for these materials.
Other Functional Materials
CuO, MgZnO, and BN (Hexagonal Boron Nitride) for sensors, energy storage, and quantum stack integration.
Applications Across Sectors
| Material | Application Sectors | Example Uses |
|---|---|---|
| SiC | Power Electronics, Automotive | Inverters, EV Power Modules |
| InGaN | Lighting, Communication | LEDs, Laser Diodes |
| CdTe | Renewable Energy, Detection | Thin-film PV, X-ray Detectors |
| GaAs / InP | High-speed, Telecom | MMICs, Fiber Optics |
| Bi₂Te₃ / PbTe | Thermoelectric | Power Generation, Cooling |
| TIFR (MoS₂) (TMD) | Nanoelectronics, Sensors, Optoelectronics | FETs, Gas Sensors, Photodetectors |
| WSe₂ (TMD) | Optoelectronics, Valleytronics, Photonics | Phototransistors, Flexible Electronics, LEDs |
From Atomic Layers to Real-World Devices
At NanoMatter, we don’t just grow materials — we engineer possibilities. Our deposition systems and materials expertise empower the semiconductor industry to explore new physics, enable new applications, and redefine what’s possible in advanced manufacturing.