Laser–induced amorphous metal oxide is increasingly applied to enhancing interfacial
bonding in metal–polymer hybrid materials. This work aims to explore physicochemical …

The chemical bonding between laser− induced metal oxide and polymer highly determines
the interfacial bonding performance of metal− polymer hybrid materials. To achieve reliable …

Besides aluminum alloys, lightweight carbon fiber-reinforced plastics (CFRPs) have been
adopted progressively in automobiles to save energy and reduce emission, so constructing …

Polymer–metal hybrid structures have attracted significant attention recently due to their
advantage of great weight reduction and excellent integrated physical/chemical properties …

Nowadays, hybrid polymer/metal assemblies experience a growing demand in the industry,
especially for transports and biomedical purposes. Those assemblies offer many …

Herein, an efficient strategy is proposed to prepare the ultrahigh‐strength polymer–metal
hybrids (PMHs) using direct molding bonding. The key to this strategy is the 355 nm …

This study employed an effective and economical strategy of chemical treatments to achieve
the direct bonding of polymer and metal materials. The bonding strength of the prepared …

In the present study, low temperature bonding of gold-to-alumina was investigated by the in
situ generation of silver via a redox reaction between silver oxide microparticles and …

Polymer metallization is extensively used in a variety of micro-and nanosystem
technologies. However, the deposited metal film exhibits poor adhesion to polymer …

In the present work, the effects of zinc coating on interfacial microstructures and mechanical
properties of the aluminum/steel bimetallic composites prepared by a solid-liquid diffusion …