SPI Industries develops proprietary nano-material, surface-engineering, coating and process technologies for industrial companies facing expensive operational bottlenecks.
Confidential industrial R&D under NDA-first engagement.
Pilot-ready technology development from day one.
Commercialization-focused engineering, not lab-bound research.
Cross-industry scientific intelligence applied to your problem.
SPI converts operational losses into structured material-science programs, pilot-ready solutions and scalable intellectual property.
Heat transfer, corrosion, surface fatigue, material wear and nano-scale intervention pathways become part of a cinematic scientific environment.
Thermal loss, corrosion, fouling, efficiency decay and material degradation.
Thermal coatings, graphene additives and anti-corrosion systems.
3–12% performance uplift potential
Moisture, abrasive wear, handling loss, dust and equipment downtime.
Moisture-reduction chemistry, wear-resistant films and material flow enhancers.
Lower fuel burden and faster throughput
Oxidation, heat loss, refractory degradation, scale formation and yield loss.
Surface engineering, thermal materials and protective nano-barriers.
Higher yield and longer asset life
Energy intensity, clinker dependency, lower durability and emissions pressure.
Graphene concrete additives, nano-fillers and durability modifiers.
Strength, durability and emissions optimization
Cracking, corrosion, water ingress, fatigue and lifecycle deterioration.
Self-protective surfaces, smart admixtures and reinforcement coatings.
Extended lifecycle and lower maintenance
Reaction inefficiency, fouling, corrosion and contamination risk.
Catalytic nano-materials, anti-fouling surfaces and reactor protection systems.
Improved conversion and cleaner operations
Wear, friction, heat, poor coating durability and component fatigue.
Functional coatings, advanced composites and friction modifiers.
Higher uptime and reliability
Weight, heat, fatigue, surface durability and extreme operating conditions.
Lightweight composites, thermal materials and nano-reinforced structures.
Weight reduction and higher performance
Battery heat, friction, coating durability, lightweighting and efficiency limits.
Energy materials, anti-friction coatings and battery thermal systems.
Improved range, durability and efficiency
A selection of nano-material programs SPI has co-developed with industry partners — spanning surfaces, mobility, and power. Client identities anonymised; full specifications and characterisation data available under NDA.
Co-developed a nano-engineered diesel additive for an eco-additive partner — higher combustion efficiency, lower dosage and measurably reduced tailpipe emissions.
More Details
Engineered nano-materials dispersion into premium stone slabs — improved stain resistance, hardness and surface durability for a leading kitchen company.
More Details
Nano-additive formulation for industrial coal — higher calorific efficiency at a fraction of the dose, with lower particulate and SOx/NOx emissions.
More DetailsA structured pathway from diagnosis to pilot deployment, commercial scaling and IP monetization.
Industrial loss, operating limits and desired performance targets.
Failure physics, root cause mapping and material opportunity analysis.
Nano-material formulation, coating architecture and process design.
Prototype testing, performance metrics and deployment readiness.
Pilot execution inside real industrial operating environments.
IP strategy, licensing, exclusivity and long-term commercialization.
Building next-generation industrial technologies through nano-material science and applied engineering — led by founder & CEO Sushanth Paatnaik.
Share the operational challenge, technical context and target outcome. SPI will evaluate the opportunity for R&D development, pilot deployment, licensing or proprietary technology creation.
