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Comment les additifs silanes greffés POE améliorent-ils les propriétés d'adhésion des films photovoltaïques ?

The long-term dependability and efficiency of photovoltaic (PV) films are significantly influenced by their adhesion characteristics. In order to improve the adhesion between layers in photovoltaic films, silane compounds grafted with polyolefin elastomer (POE) have been introduced. The purpose of COACE is to provide you with a thorough understanding of how POE grafting silane additions enhance the adhesion characteristics of PV films. We can comprehend the important function these additives play in improving the adhesion performance of PV films by looking at the underlying mechanisms, which include chemical bonding, interfacial compatibility, and surface modification.

Chemical Bonding

POE grafting silane additions help to promote chemical bonding at the PV film’s interlayer interface. The silane groups found in these additives have the ability to react with functional groups found in other layers or the film matrix. Through condensation and hydrolysis, the silane groups join forces with the polymer chains to form covalent connections. Strong interfacial adhesion is provided by this chemical bonding method, which also enhances the PV film’s overall structural integrity by successfully avoiding delamination.

Interfacial Compatibility

By adding Additifs silanes greffés POE, the PV film structure’s interfacial compatibility between its layers is enhanced. Positive intermolecular contacts can be produced by the silane groups in the additives interacting with particular functional groups in the next layers. Van der Waals forces, dipole-dipole interactions, and hydrogen bonds are some examples of these interactions. By encouraging molecular-level mixing and lowering interfacial tension, the improved interfacial compatibility improves layer adhesion.

Modification de la surface

Silane additives for POE grafting can change the PV film’s surface characteristics, improving adherence. Surface modification may arise via a reaction between the silane groups in the additives and the functional groups on the film’s surface. This alteration may improve the film’s wettability and surface energy, facilitating improved adhesion and spreading when combined with additional layers or adhesives. By strengthening adhesion and interfacial interactions, the changed surface strengthens the bonding strength of the PV film as a whole.

Stress Transfer

Silane additives for POE grafting make it easier for stress to move across the PV film’s various layers. By serving as a bridge, the additives transfer load and mechanical stress between layers. When PV films are exposed to mechanical vibrations, heat cycling, and external impacts, this stress transfer process becomes even more significant. The additives lessen the chance of localized stress concentration by effectively transmitting and spreading stress, which also improves the film’s adhesive qualities.

Preventing Moisture Ingress

PV films are more resistant to moisture ingress, which can weaken adhesion, when POE grafting silane additives are added. The hydrophobic surface produced by the silane groups in the additives lowers the water affinity of the film. Because of its hydrophobicity, less moisture is absorbed, which inhibits swelling, deterioration, and a weakening of the adhesion interface of the film. The PV film’s increased moisture barrier qualities add to its long-term dependability and toughness.

Adhesive Compatibility

PV films and adhesives used in module assembly are more compatible when POE grafting silane additives are used. By interacting with the adhesive system, the additives can strengthen the interaction between the adhesive layer and the film and encourage adherence. This compatibility improves the PV module’s overall performance and dependability by ensuring dependable adhesion throughout the lamination process.


In conclusion, POE grafting silane additions are essential for enhancing photovoltaic films’ adhesive qualities. These additives improve the interfacial adhesion, structural integrity, and long-term reliability of PV films by chemical bonding, interfacial compatibility, surface modification, stress transmission, and compatibility with adhesives. It is essential to comprehend the mechanisms via which these additives enhance adhesion qualities in order to create optimum formulations and improve PV module performance. Further investigation and development in this area will improve our comprehension and application of POE grafting silane additives, ultimately advancing solar technology.

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