In recent years, the installed capacity of solar power generation equipment has continued to increase, but in cold and snowy areas, House Solar solar panels are easily covered by snow, resulting in a decrease in power generation efficiency. Scientists at the University of Michigan have developed a clear coating that reduces snow and ice build-up on solar panels, making solar panels 85 percent more efficient at generating electricity in winter. The research results were recently published in Advanced Materials Technology.

Anish Tuteja, a professor of materials science and engineering at the University of Michigan, said that in cold and snowy climates, the power generation of solar panels will be reduced by 80%-90%, which has also become a disadvantage for popularizing solar power generation. In the process of studying the deicing coating, the team found that the two characteristics of low interface toughness and low adhesion strength are the key to deicing technology. The interface toughness is precisely balanced to achieve better deicing and snow removal. When tested at the solar field in Fairbanks, Alaska, the average snow and ice coverage for the coated panels over the winter was about 28 percent, compared to about 59 percent for the uncoated panels. The coating can be sprayed or brushed on in cold weather and is good for up to one year.

-
Complete Solar Power System Buyer’s Guide for Commercial & Industrial FacilitieA step-by-step buyer's guide for commercial and industrial decision-makers evaluating solar power systems (20kW-1MW). Covers 8-step decision framework: objective definition, load analysis, site assessment, system configuration, battery sizing, ROI calculaDo you like ?0
Read more -
On-Grid vs Off-Grid Solar Power Systems: A B2B Decision Guide for 2026This guide compares on-grid vs off-grid solar power systems for commercial and industrial buyers. Includes detailed cost breakdowns, ROI analysis, and region-specific recommendations for markets like Nigeria, Kenya, Philippines, and Sudan.Do you like ?0
Read more -
Solar Power in the Philippines: 2026 Wholesale Import GuideA 2026 B2B procurement guide for solar distributors and EPC contractors entering the Philippine market. Covers net metering policy, product selection, factory pricing, and step-by-step import workflow from China to Manila. Built for wholesale buyers sourcDo you like ?0
Read more -
How a 250kW Solar + 500kWh Battery System Powers a Zimbabwe Farm —With 10% LowerReal Zimbabwe farm case study: 250kW solar + 500kWh rack-mounted battery system. 10% cost reduction vs outdoor cabinet design. On-site engineer installation guide included.Do you like ?0
Read more -
Off-Grid Solar Systems for Africa: 2026 Procurement Guide from China FactoryA 2026 B2B procurement guide for solar distributors and EPC contractors entering the Philippine market. Covers net metering policy, product selection, factory pricing, and step-by-step import workflow from China to Manila. Built for wholesale buyers sourcDo you like ?0
Read more -
Curaçao 150kW+300kWh Solar Greenhouse Case StudyThis article elaborates on a commercial greenhouse project featuring a 150kW solar system paired with a 300kWh energy storage system on Curaçao Island. The system operates fully off-grid, boosting greenhouse output by 25–40% with a payback period of onlyDo you like ?0
Read more