Add to ORKGIn the last decade, several studies involving the researchers from academics and industry have been specifically focused on seeking environmental-friendly flame -retardants (FRs) that exhibit a remarkable \u201cgreen\u201d character and ensure fire performances comparable to those achieved by the conventional FR compounds. Recently, we have started to assess the effectiveness of different biomacromolecules (whey proteins, caseins, hydrophobins, and deoxyribonucleic acid \u2013 DNA) to be a valuable unusual green alternative to the conventional compounds [1, 2]. These new \u201codd\u201d FRs have proven to be efficient for both fabrics (cotton, polyester and blends of them) as well as for polymeric films (ethylene-vinyl-acetate copolymer - ...
Since the middle of the last century, many industrial and academic researchers have devoted a lot of...
Flame retardants (FRs) for textiles have undergone and still undergo a significant evolution toward ...
Almost 50 years ago, the 1950-1960 period witnessed the development of the chemistry underlying most...
The field of flame retardancy of polymeric materials (i.e. plastics, foams and in particular textile...
The field of flame retardancy for polymeric materials (i.e. plastics, foams and in particular textil...
This chapter reviews the recent advances achieved by using selected biomacromolecules (like proteins...
This talk is aimed at describing the potentialities offered by selected biomacromolecules (namely, n...
It is well-known that textiles, if not intrinsically flame retarded, burn vigorously and quickly whe...
The search for possible alternatives to traditional flame retardants (FRs) is pushing the academic ...
Nowadays, the seeking for new, low environmental impact flame retardants (FRs) has pushed the scient...
This work is aimed at describing the feasibility of the use of biomacromolecules (such as proteins a...
This work aims at demonstrating the suitability of selected biomacromolecules, namely caseins and de...
Textiles are very hazardous materials when related to fires, because of the high surface to mass rat...
Recently, the potential use of biomacromolecules as low environmental impact flame retardants for di...
Flame retardant systems based on bio-sourced products combine quite high fire performances with the ...
Since the middle of the last century, many industrial and academic researchers have devoted a lot of...
Flame retardants (FRs) for textiles have undergone and still undergo a significant evolution toward ...
Almost 50 years ago, the 1950-1960 period witnessed the development of the chemistry underlying most...
The field of flame retardancy of polymeric materials (i.e. plastics, foams and in particular textile...
The field of flame retardancy for polymeric materials (i.e. plastics, foams and in particular textil...
This chapter reviews the recent advances achieved by using selected biomacromolecules (like proteins...
This talk is aimed at describing the potentialities offered by selected biomacromolecules (namely, n...
It is well-known that textiles, if not intrinsically flame retarded, burn vigorously and quickly whe...
The search for possible alternatives to traditional flame retardants (FRs) is pushing the academic ...
Nowadays, the seeking for new, low environmental impact flame retardants (FRs) has pushed the scient...
This work is aimed at describing the feasibility of the use of biomacromolecules (such as proteins a...
This work aims at demonstrating the suitability of selected biomacromolecules, namely caseins and de...
Textiles are very hazardous materials when related to fires, because of the high surface to mass rat...
Recently, the potential use of biomacromolecules as low environmental impact flame retardants for di...
Flame retardant systems based on bio-sourced products combine quite high fire performances with the ...
Since the middle of the last century, many industrial and academic researchers have devoted a lot of...
Flame retardants (FRs) for textiles have undergone and still undergo a significant evolution toward ...
Almost 50 years ago, the 1950-1960 period witnessed the development of the chemistry underlying most...