Knowledge

Ultra-Thin Perovskite Material With Over 27% Efficiency Can Be Applied To Any Surface For Solar Power Generation Oxford University says its thin-film perovskite when stacked can increase the amount of solar energy generation by capturing more of the light spectrum.   Key Takeaways ·&nbs...

Use of bifacial modules and trackers for agrivoltaic systems can really help in effective dual-use of land.  Key Takeaways IEA PVPS report under Task 13 recommends how to optimize bifacial solar PV tracking systems It suggests that the ability of trackers to respond to rare, extreme weather co...

With Improvements Driven By New Product Entries And Technological Advancements, TOPCon Technology Reaching Up To 22.8% By Mid-2024 The band gets bigger: In 2022, the efficiency band for TOPCon modules, ranging between 22.26% and 22.53%, expanded to 22.1% and 22.8%, accommodating 20 products within...

1. TOPCon PE-poly coating technology PE-poly (Plasma Enhanced Polysilicon deposition) coating technology, the full name of plasma enhanced chemical vapor deposition method, is a key core process technology for TOPCon batteries that integrates composite films such as tunneling layer and in-situ...

1.  LECO Laser assisted sintering technology Laser assisted sintering technology is also known as laser enhanced contact optimization,Patented in 2016 by Cell Engineering GmbH for repairing undersintered PERC cells, LECO is an advanced laser sintering technology for improving the cont...

Crystalline silicon solar cells are one of the major solar cell technologies currently on the market, in which the metallization of silicon wafers plays a vital role in effectively collecting solar energy. The contact formation and characteristics between the silicon wafer and the metal gate li...

Silicon solar cells can generally be divided into monocrystalline, polycrystalline and amorphous silicon solar cells. Monocrystalline silicon cells are currently the fastest developed type of solar cell. Its structure and production process have been finalized and are widely used...

The performance of heterojunction cell is closely related to its structure and process. Among them, film thickness is an important parameter, which directly affects the photoelectric conversion rate of heterojunction cells. Therefore, studying the effect of film thickne...

As the demand for renewable energy continues to increase, solar module power generation, as an important energy conversion technology, has been receiving much attention regarding its efficiency and cost. In the field of photovoltaic cell manufacturing, LECO (Laser Enhanced Contact Opt...

Heterojunction technology (HJT) is a solar panel production method, which has been on the rise since the past decade. This is an effective process to improve the efficiency and power output of the solar industry to a high level, and it even exceeds the performance of the current PERC technology in t...

    With the rapid iteration of solar cell technology, heterojunction solar cells have attracted widespread attention due to their advantages such as high conversion efficiency, high open circuit voltage, low temperature coefficient, low process temperature, and bifacial power generation....

    Copper electroplating technology is one of the important technical routes for heterojunction solar cells  to reduce costs and increase efficiency in recent years. Its advantage is that it has stronger conductivity than traditional silver paste and has low contact resistance. The u...