World’s First Fully Integrated “Sand to Solar”
Facilities Across India
“There is an Innovation at Every Step”
Why India Needs Sand-to-Solar Independence
China dependency
Over 75% of solar imports currently come from China, exposing India to supply chain risks.
Untapped resources
India hosts abundant high-grade quartz reserves and has lowest-cost green energy globally
Cost competitivenes
Domestic integration reduces costs, risks, and foreign exchange outflows.
Workforce advantage
India has world-class skilled labour at competitive costs.
Strategic necessity
To meet 500 GW renewable target by 2030, India must build its own secure, fully integrated ecosystem.
The Problem
75%+ solar imports = foreign dependence.
High carbon footprint of imports.
Supply, pricing, and quality risks tied to Chinese vendors.
Raw silica potential in India largely unutilized
.png)
.png)
The
Solution
Solving Nation Solar Energy Problem with Dawson’s Indigenous Technological Breakthroughs.
Solar + Semiconductor output for dual markets.
World’s first Sand-to-Solar fully integrated chain in India.
Backward & forward integration → lower costs + high reliability.
Dawson’s advanced technologies (plasma refining, nano-modifiers, dielectric composites).
40+ Year Sun Max Solar Panels with hydrophobic nano-coating → efficiency 23–26%, degradation <0.3%/yr.
Comparative Technology Advantage
Dawson Group is a technology-driven conglomerate headquartered in Faridabad, India, pioneering innovation across critical sectors of the sustainable technology ecosystem. We specialize in the research, development, and commercialization of next-generation technologies that are shaping the future of energy, materials, and industrial processes.
SIEMENS PROCESS
STAGE
-
Siemens Process
-
Polysilicon
-
Energy Use
-
Purity
-
Cell Tech
-
Module Frame
-
Coatings
-
Panel Life
-
Water Use
-
MG-Si (98.5%)
-
TCS → Rod Deposition
-
100–150 kWh/kg
-
9N–11N (Solar Grade)
-
PERC/TOPCon/HJT (21–24%)
-
Conventional aluminium
-
Standard glass
-
~25 yrs, 0.7%/yrs. loss
-
High cleaning
DAWSON ADVANCED PROCESS
-
Ultra-pure nano/submicron silicon powder
-
Plasma furnace + ORION 755 Nano-synthesizer
-
~50–70 kWh/kg (2× less)
-
10–12N incl. 10–20% Semiconductor Grade
-
Dielectric nanocomposite → 26% efficiency
-
30% lighter, nano-strengthened
-
Hydrophobic + multilayer nano coating
-
40+ yrs, <0.3%/yrs. loss
-
95% reduced with Nano Wash
.png)
Project Brief
Capacity: 100 GW modules/year
Polysilicon: 300,000 MT/year
Cost: ₹275,000 crore
Sites: Multi-state hubs for redundancy and logistics optimization.
Timeline: 6–18 months phase wise component commissioning; ROI within 30 months.
Market Opportunities & Strategy
India’s 2030 goal: 500 GW renewable energy.
PLI schemes
(₹19,500 Cr) Favor integrated manufacturing.
Dawson’s own demand (Green Hydrogen, Batteries, Chemicals) ensures anchor off-take.
CAGR
for solar wafers/
modules: 25–30%.
Export hubs:
South Asia, Middle East, Africa.
Impact
Energy Security
India self-reliant for solar supply chain.
Jobs
>500,000 direct & indirect skilled jobs.
​
Exports
India as global hub.
Sustainability
40+ year panels → lowest LCOE globally.
Conclusion
-
The 100 GW Sand-to-Solar Mega Consortium represents a generational leap for India — not just catching up with China, but leapfrogging with next-generation Dawson technologies in plasma refining, nano-coatings, and semiconductor-grade silicon.
-
With its scale, innovation, and mission-mode execution, this project will anchor India’s transition to a $10 trillion green economy and position Dawson Group as a global leader in renewable energy manufacturing.
.png)