The Science and Innovation Base project replaced the original conventional curtain wall glass with hollow CIGS photovoltaic glass. The photovoltaic glass not only meets the architectural requirements but also has the dual function of power generation, achieving multiple uses of a single material and the role of energy creation. It conforms to the standards of green building, with a clean and transparent appearance on the building's exterior facade. The project has an installed capacity of approximately 200 kilowatts, with an estimated annual power generation of 151,300 kWh. It is expected to save 49.61 tons of standard coal and reduce carbon dioxide emissions by 150.8 tons annually.

The CIGS photovoltaic elevator involves installing CIGS power-generating glass on the exterior facade and the top of the elevator shaft to create a BIPV (Building Integrated Photovoltaics) building solution that combines photovoltaics with elevators. The CIGS power-generating glass produces a continuous supply of clean electricity to power the elevator's operation.
This design not only reduces the elevator's reliance on traditional electricity but also allows surplus power to be used by other equipment within the building, achieving efficient energy utilization. It is particularly suitable for outdoor elevators and offers new ideas and solutions for the renovation of old residential communities. For sightseeing elevators, transparent CIGS power-generating glass can be installed, ensuring both visual appeal and the generation of clean electricity,thus achieving multiple functions with a single material.

The skylights of cultural and sports buildings, such as museums, are equipped with hollow laminated BIPV (Building Integrated Photovoltaics) CIGS (Copper Indium Gallium Selenide) photovoltaic power-generating glass. While generating electricity, the glass integrates seamlessly with the large-scale urban greening to form an ecological baseboard of blue and green interweaving,This creates a green spatial structure in the city center.

In high-rise and super high-rise residential and apartment projects, CIGS photovoltaic power-generating glass is used for its excellent performance in low-light conditions and minimal dependence on installation angles. This allows the glass to generate electricity efficiently even when applied to the building facade. In addition to this, the projects are equipped with energy storage systems that store the clean electricity produced daily and continuously deliver it to each household. This significantly enhances the building's power system regulation capability, reduces power generation losses, and ensures that every resident can constantly feel the care from the city they live in.

High-rise and super high-rise office building projects can utilize customized large-size CIGS photovoltaic power-generating glass. Leveraging the product’s excellent low-light performance and minimal dependence on installation angles, it offers superior power generation capabilities while aligning with modern aesthetics. This solution integrates safety, functionality, environmental friendliness, energy efficiency, and aesthetic appeal into one cohesive package.

The photovoltaic glass on the building's exterior can effectively absorb external light radiation, thereby reducing the internal temperature of the building and achieving energy-saving and consumption-reduction goals through green means.

The cultural and sports venue project employs large-size translucent double-glazed and double-laminated BIPV (Building Integrated Photovoltaics) photovoltaic power-generating glass. This not only meets the aesthetic standards of modern architecture but also offers excellent power generation performance, making it a symbol that highlights the city's achievements in modernization and internationalization.

The CIGS thin-film power-generating vehicle integrates CIGS thin-film solar roof technology into automobiles, which can extend the driving range of electric vehicles and address users' range anxiety during use.