Solar Energy is a potential renewable resource; creative methods can increase its efficiency. Using
reflecting silver mirrors to maximize solar energy collection for electricity generation is one such
strategy.
Such reflective mirrors constitute the potential integration areas of CSP systems and PV panels to
enhance the absorption of input light and the conversion of energy. Various CSP technology types
include parabolic troughs, solar towers, and parabolic dishes, which all rely on mirrors to
concentrate the sun's rays on a receiver, producing heat that is used to generate power. Mirrors can
also be placed around PV panels to reflect sunlight and result in more electricity.
This work introduces high-reflectivity silver coatings, appropriate mirror angles, and hybrid CSPPV integration. Experiments have shown that strategically placed mirrors can increase energy
efficiency by 20-30%, depending on the setting. This study found that reflecting surfaces
considerably boost solar radiation absorption.
Future research should concentrate on automatic mirror tracking, affordable materials, and
durability enhancements to achieve the best possible outcomes. This study lays the groundwork
for future advancements in solar energy, opening the door to new high-performing and
environmentally friendly energy options.

The integration of reflective silver mirrors in solar energy systems, particularly in hybrid CSP-PV configurations, presents a promising pathway to significantly enhance solar energy conversion efficiency. By strategically optimizing mirror materials, placement, and tracking, it is possible to unlock new levels of performance in renewable energy generation.