Altay et al., 2015 - Google Patents
Influence of alkyl chain length on the surface activity of antibacterial polymers derived from ROMPAltay et al., 2015
View PDF- Document ID
- 6356296175403043106
- Author
- Altay E
- Yapaöz M
- Keskin B
- Yucesan G
- Eren T
- Publication year
- Publication venue
- Colloids and Surfaces B: Biointerfaces
External Links
Snippet
The purpose of this study is to understand the antibacterial properties of cationic polymers on solid surfaces by investigating the structure–activity relationships. The polymer synthesis was carried via ring opening metathesis polymerization (ROMP) of oxanorbornene …
- 229920000642 polymer 0 title abstract description 86
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Altay et al. | Influence of alkyl chain length on the surface activity of antibacterial polymers derived from ROMP | |
| Hao et al. | pH responsive antifouling and antibacterial multilayer films with Self-healing performance | |
| Huang et al. | Bacteria killing and release of salt-responsive, regenerative, double-layered polyzwitterionic brushes | |
| Gour et al. | Anti‐I nfectious Surfaces Achieved by Polymer Modification | |
| Yu et al. | Dual-function antibacterial surfaces for biomedical applications | |
| Gratzl et al. | Antimicrobial activity of poly (acrylic acid) block copolymers | |
| Mi et al. | Integrated antimicrobial and nonfouling zwitterionic polymers | |
| Charnley et al. | Designed polymer structures with antifouling–antimicrobial properties | |
| He et al. | A novel surface structure consisting of contact-active antibacterial upper-layer and antifouling sub-layer derived from gemini quaternary ammonium salt polyurethanes | |
| Lee et al. | Permanent, nonleaching antibacterial surfaces. 1. Synthesis by atom transfer radical polymerization | |
| Druvari et al. | Polymeric quaternary ammonium-containing coatings with potential dual contact-based and release-based antimicrobial activity | |
| Ding et al. | Antibacterial and antifouling catheter coatings using surface grafted PEG-b-cationic polycarbonate diblock copolymers | |
| Timofeeva et al. | Antimicrobial polymers: mechanism of action, factors of activity, and applications | |
| Peddinti et al. | Photodynamic polymers as comprehensive anti-infective materials: staying ahead of a growing global threat | |
| Voo et al. | Antimicrobial/antifouling polycarbonate coatings: Role of block copolymer architecture | |
| Li et al. | Integrated antibacterial and antifouling surfaces via cross-linking chitosan-g-eugenol/zwitterionic copolymer on electrospun membranes | |
| Yang et al. | Durable Antibacterial Cotton Fabrics Based on Natural Borneol‐Derived Anti‐MRSA Agents | |
| Xu et al. | Antibacterial and antifouling properties of a polyurethane surface modified with perfluoroalkyl and silver nanoparticles | |
| Bieser et al. | Contact‐active antimicrobial and potentially self‐polishing coatings based on cellulose | |
| Wang et al. | Hydrogel brushes grafted from stainless steel via surface-initiated atom transfer radical polymerization for marine antifouling | |
| Yan et al. | A hierarchical polymer brush coating with dual-function antibacterial capability | |
| Wang et al. | Integration of antifouling and bactericidal moieties for optimizing the efficacy of antibacterial coatings | |
| Fu et al. | Salt-responsive “killing and release” antibacterial surfaces of mixed polymer brushes | |
| Lee et al. | Antibacterial performance of various amine functional polymers coated silica nanoparticles | |
| Wang et al. | Facile fabrication of bactericidal and antifouling switchable chitosan wound dressing through a ‘click’-type interfacial reaction |