Next-Generation Photovoltaic Technologies
Pioneering breakthrough technologies in photovoltaic systems for enhanced efficiency and sustainable energy solutions. Researching the future of solar energy.
At Evap Solar, our innovation extends beyond energy storage. We are actively engaged in researching and developing the next generation of solar photovoltaic technologies to deliver more efficient, versatile, and cost-effective clean energy solutions.
Our R&D excellence focuses on next-generation PV systems, from silicon-perovskite tandem cells achieving 45%+ efficiency to flexible thin-film solutions for diverse applications.
45%+ Efficiency breakthrough technology combining silicon and perovskite materials for revolutionary performance.
Flexible solutions with lightweight design, lower material requirements, and better low-light performance.
Advanced synthesis and characterization for next-generation solar cells with enhanced performance.
Proven reliability with mature manufacturing processes, 25+ year lifespan, and high efficiency rates (20-26%).
Advanced photovoltaic research combining cutting-edge materials with innovative manufacturing processes.
The powerhouse of the modern solar industry, known for its high efficiency, reliability, and long lifespan. This mature technology is the foundation of most solar panels worldwide.
One of the most exciting frontiers in solar R&D. These tandem cells combine the best of both worlds, allowing conversion of a much wider spectrum of sunlight into electricity.
CH₃NH₃PbI₃ Structure Analysis
Visualization and analysis of CH₃NH₃PbI₃ crystal structures to study defect tolerance, charge transport, and stability in perovskite solar cell applications.
Advanced characterization and optimization of perovskite materials for next-generation solar applications with enhanced performance metrics.
Tandem solar cells, flexible photovoltaics, and next-generation solar modules leveraging advanced perovskite material properties.
Systematic advancement from laboratory to market
Advanced material synthesis using state-of-the-art equipment for crystalline silicon, perovskites, and thin-film materials. We focus on atomic-level engineering to optimize electrical and optical properties.
Innovative cell design and architecture optimization using advanced modeling and simulation tools to predict performance and identify optimal configurations before fabrication.
Fabrication of proof-of-concept prototypes in our cleanroom facilities using industry-standard and cutting-edge processing techniques to validate theoretical predictions.
Comprehensive testing under standard and accelerated conditions including thermal cycling, humidity exposure, and mechanical stress to ensure long-term reliability.
Technology transfer to manufacturing partners with process optimization for large-scale production while maintaining research-grade performance and quality standards.
Translating breakthrough research into commercial solutions
Our research translates into real-world solutions across multiple industries and applications, from residential rooftops to space missions.
Our research infrastructure and expertise provide unique capabilities in solar cell development and manufacturing optimization.
Cutting-edge research initiatives that will shape the next decade of solar technology, focusing on efficiency, durability, and cost reduction.
