Silane-Modified Photovoltaic POE Film Additive

Coace® R1030 is a silane-functionalized ethylene-octene copolymer that has a high silane content and a high degree of transparency.

Silane-modified photovoltaic photovoltaic positive electrode film additive is a product that is extremely useful for improving the performance, durability, and resistance to moisture of photovoltaic modules. In photovoltaic (PV) applications, its distinctive qualities, which include the modification of silane, enhanced adhesion, resistance to moisture, UV stability, and the ability to crosslink, provide significant advantages. As a result of the additive’s characteristics, which include enhanced module performance, higher durability, decreased maintenance requirements, and cost-effectiveness, it is an indispensable component in the photovoltaic sector.

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Note: The above data are typical test values and should not be interpreted as specifications.

Suggested Dosage：According to the actual application, taking into account the cost, the appropriate amount of increase or decrease.

Packing and transportation：20kg plastic bag, according to non-dangerous goods, avoid sunlight, rain.

The silane-modified photovoltaic POE film additive incorporates a number of important qualities, including the following:

• The additive comprises silane coupling agents, which allow for robust bonding and compatibility with the POE film matrix.
• Improved adhesive: This feature enhances the adhesive between the various layers of the PV film, which in turn promotes the film’s integrity and reliability.
• Resistance to Moisture: The addition improves the film’s ability to resist the passage of moisture, which in turn reduces the likelihood of delamination, corrosion, and electrical degradation.
• UV Stability: It helps the film maintain its optical qualities and power conversion efficiency, which contributes to the film’s resistance against ultraviolet radiation through its contribution.
• Capability to Crosslink: The addition makes it easier for crosslinking reactions to take place within the film, which ultimately results in enhanced mechanical characteristics, dimensional stability, and resistance to environmental stresses.

Increased Resistance to Moisture: The addition makes a significant improvement to the resistance of PV films to moisture, which ensures that they will continue to be reliable and function well over the long term.

Increased Module Lifespan: The additive’s ability to reduce the danger of delamination, corrosion, and electrical degradation results in an increase in the lifespan of photovoltaic modules.

Greater Module Efficiency: The increased adhesion and compatibility contribute to greater power output and total energy conversion efficiency. This enhances the overall efficiency of the module.

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