Add to ORKGThis work describes the surface treatments that can be successfully exploited for assembling nanoparticles on a fabric surface, in order to make them very effective in conferring flame retardant features to the underlying textile. More specifically, sol-gel and layer by layer methods methods are thoroughly discussed, on the basis of recent results achieved by our group. In particular, it is clearly shown that by engineering the fabric surface by layer by layer nano-deposition or by oxidic nanostructures derived from sol-gel synthesis, the polymer combustion can be conveniently slowed down to extinguishment, complying fire safety rules of specific applications, through the creation of a surface barrier to heat and mass transfer across the po...
Nowadays, nanotechnology has a real and great potential in the textile industry, considering that co...
Fabric flammability is a surface-confined phenomenon: in fact, the fabric surface represents the mos...
If not inherently flame retardant, most of either natural or synthetic fibers and fabrics easily bur...
This work describes the surface treatments that can be successfully exploited for assembling nanopar...
Flame retardants (FRs) for textiles have undergone and still undergo a significant evolution toward ...
Fabrics flammability represents a major limitation to their use and hence to the development of most...
Different approaches have been employed to prepare nanoparticle-based fabrics in order to verify the...
Flammability of textiles is a surface-confined phenomenon: undoubtedly, the textile surface, which i...
The present paper is aimed to review the state of the art on the novel and emerging techniques recen...
Single step and multi-step adsorption processes have been investigated in order to enhance flame ret...
Polymer materials flammability represents a major limitation to their use and hence to the developme...
The present research activity has been focused on surface modifications of polymers in order to enha...
Polymer materials flammability represents a major limitation to their use and hence to the developme...
This paper discusses the recent findings on the use of the Layer-by-Layer technique for the surface ...
Fabric flammability is a surface-confined phenomenon: in fact, the fabric surface represents the mos...
Nowadays, nanotechnology has a real and great potential in the textile industry, considering that co...
Fabric flammability is a surface-confined phenomenon: in fact, the fabric surface represents the mos...
If not inherently flame retardant, most of either natural or synthetic fibers and fabrics easily bur...
This work describes the surface treatments that can be successfully exploited for assembling nanopar...
Flame retardants (FRs) for textiles have undergone and still undergo a significant evolution toward ...
Fabrics flammability represents a major limitation to their use and hence to the development of most...
Different approaches have been employed to prepare nanoparticle-based fabrics in order to verify the...
Flammability of textiles is a surface-confined phenomenon: undoubtedly, the textile surface, which i...
The present paper is aimed to review the state of the art on the novel and emerging techniques recen...
Single step and multi-step adsorption processes have been investigated in order to enhance flame ret...
Polymer materials flammability represents a major limitation to their use and hence to the developme...
The present research activity has been focused on surface modifications of polymers in order to enha...
Polymer materials flammability represents a major limitation to their use and hence to the developme...
This paper discusses the recent findings on the use of the Layer-by-Layer technique for the surface ...
Fabric flammability is a surface-confined phenomenon: in fact, the fabric surface represents the mos...
Nowadays, nanotechnology has a real and great potential in the textile industry, considering that co...
Fabric flammability is a surface-confined phenomenon: in fact, the fabric surface represents the mos...
If not inherently flame retardant, most of either natural or synthetic fibers and fabrics easily bur...