Add to ORKGExtensive efforts have been devoted toward developing antibiofilm materials that can efficiently suppress bacterial attachment and subsequent biofilm formation. However, many of the previous approaches are based on non-biocompatible, non-degradable, and environmentally harmful synthetic materials. Herein, we report an efficient and sustainable biofilm-resistant material that is made of a biocompatible, biodegradable, and naturally abundant cellulose derivate biopolymer. The biofilm-resistant material is made of cellulose acetate (CA) and possesses precisely defined nanoscale needle-like architectures on its surface. The CA nanoneedle array is further coated with a cell-membrane mimicking monomer of 2-methacryloryloxyethyl phosphorylcholine ...
Amyloid fibrils made from inexpensive hen egg white lysozyme (HEWL) are bio-based, bio-degradable an...
The design of antimicrobial surfaces as integral parts of advanced biomaterials is nowadays a high r...
In this thesis, materials from renewable resources were used to develop functionalized surfaces for ...
Extensive efforts have been devoted toward developing antibiofilm materials that can efficiently sup...
Extensive efforts have been devoted toward developing antibiofilm materials that can efficiently sup...
Extensive efforts have been devoted toward developing antibiofilm materials that can efficiently sup...
Extensive efforts have been devoted toward developing antibiofilm materials that can efficiently sup...
Extensive eforts have ben devoted toward developing antibiofilm materials that can eficiently supres...
The design of antimicrobial surfaces as integral parts of advanced biomaterials is nowadays a high r...
The design of antimicrobial surfaces as integral parts of advanced biomaterials is nowadays a high r...
Bacterial biofilm infections incur massive costs on healthcare systems worldwide. Particularly worri...
Bacterial biofilm infections incur massive costs on healthcare systems worldwide. Particularly worri...
Cellulose is among the most promising renewable and biodegradable materials that can help meet the c...
We used hairy nanocrystalline cellulose functionalized with aldehyde groups, otherwise known as ster...
The design of antimicrobial surfaces as integral parts of advanced biomaterials is nowadays a high r...
Amyloid fibrils made from inexpensive hen egg white lysozyme (HEWL) are bio-based, bio-degradable an...
The design of antimicrobial surfaces as integral parts of advanced biomaterials is nowadays a high r...
In this thesis, materials from renewable resources were used to develop functionalized surfaces for ...
Extensive efforts have been devoted toward developing antibiofilm materials that can efficiently sup...
Extensive efforts have been devoted toward developing antibiofilm materials that can efficiently sup...
Extensive efforts have been devoted toward developing antibiofilm materials that can efficiently sup...
Extensive efforts have been devoted toward developing antibiofilm materials that can efficiently sup...
Extensive eforts have ben devoted toward developing antibiofilm materials that can eficiently supres...
The design of antimicrobial surfaces as integral parts of advanced biomaterials is nowadays a high r...
The design of antimicrobial surfaces as integral parts of advanced biomaterials is nowadays a high r...
Bacterial biofilm infections incur massive costs on healthcare systems worldwide. Particularly worri...
Bacterial biofilm infections incur massive costs on healthcare systems worldwide. Particularly worri...
Cellulose is among the most promising renewable and biodegradable materials that can help meet the c...
We used hairy nanocrystalline cellulose functionalized with aldehyde groups, otherwise known as ster...
The design of antimicrobial surfaces as integral parts of advanced biomaterials is nowadays a high r...
Amyloid fibrils made from inexpensive hen egg white lysozyme (HEWL) are bio-based, bio-degradable an...
The design of antimicrobial surfaces as integral parts of advanced biomaterials is nowadays a high r...
In this thesis, materials from renewable resources were used to develop functionalized surfaces for ...