Organic Inorganic Hybrid Solar Cells
Core Technology
- High efficiency power generation through the fusion of organic and inorganic materials
- Ultra low cost roll to roll process
- Transparency lightweight flexibility and multi color implementation
Applications
- LIPV : IoT sensors and smart appliances
- BIPV : rooftops windows and facades
- MIPV : sunroofs vehicle windows and body panels
- APV : glass greenhouses and vinyl greenhouses
Differentiation Points
- Multi color implementation and transparent curved surface application
- Rare globally as a low cost high efficiency hybrid solar cell technology
Expected Impact
- Reduced carbon emissions and improved energy self sufficiency
- Strengthened architectural aesthetics and agricultural productivity at the same time
Low Light Power Generation
Core Technology
- High efficiency photovoltaic cells that operate even in low light environments
- Lightweight and flexible design enables indoor electronics applications
Applications
- Electronic shelf labels
- IoT sensors
- Smart appliances
Differentiation Points
- A new power generation system using artificial lighting and natural daylight
- Can replace batteries for small wireless devices
Expected Impact
- Reduced battery consumption leads to less electronic waste
- Improved energy efficiency ratings for home appliances
Building Integrated Photovoltaics (BIPV)
Core Technology
- Solar cell technology that can be integrated with building exterior materials
- Transparency lightweight curved surface application and low light power generation
Applications
- Rooftops
- Windows
- Walls including curved surfaces
Differentiation Points
- High aesthetic solar cells that harmonize with building design
- Energy solutions optimized for urban buildings
Expected Impact
- Potential to achieve near 100 percent building energy self sufficiency
- Maximized resident acceptance and smart city implementation
Mobility Integrated Photovoltaics (MIPV)
Core Technology
- Mobility application technology leveraging curved transparent and lightweight characteristics
- Step by step development roadmap from small to mid to large scale
Applications
- Vehicle sunroofs
- Vehicle windows
- Vehicle body
Differentiation Points
- Enhances future mobility aesthetics and exterior design at the same time
- Maximizes energy efficiency with self generating technology for electric vehicles
Expected Impact
- Extended driving range and improved charging efficiency
- Enables a sustainable future mobility ecosystem
Agrivoltaic Solar Cells
Core Technology
- Optimized plant growth through selective light absorption
- Transparent lightweight and flexible design enables agricultural applications
Applications
- Glass greenhouses
- Vinyl greenhouses
- Other farm facilities
Differentiation Points
- Generates power without harming crop growth
- A converged solution integrating agriculture and energy generation
Expected Impact
- Enables energy self sufficiency for farms
- Expands renewable energy adoption and increases agricultural productivity
