about
Bacterial inactivation of wound infection in a human skin model by liquid-phase discharge plasmaComparison of anti-fouling surface coatings for applications in bacteremia diagnostics.Effect of surface roughness of biomaterials on Staphylococcus epidermidis adhesion.Application of stereolithographic custom models for studying the impact of biofilms and mineral precipitation on fluid flow.Early staphylococcal biofilm formation on solid orthopaedic implant materials: in vitro study.Engineered antifouling microtopographies--correlating wettability with cell attachment.Infection of orthopedic implants with emphasis on bacterial adhesion process and techniques used in studying bacterial-material interactions.Adherence ability of Staphylococcus epidermidis on prosthetic biomaterials: an in vitro study.Micro-fabricated polydimethyl siloxane (PDMS) surfaces regulate the development of marine microbial biofilm communities.Effect of enamel morphology on nanoscale adhesion forces of streptococcal bacteria : An AFM study.Effect of micro- and nanoscale topography on the adhesion of bacterial cells to solid surfacesThe hydrophobicity and roughness of a nasoenteral tube surface influences the adhesion of a multi-drug resistant strain of Staphylococcus AureusDo bacteria differentiate between degrees of nanoscale surface roughness?Efficient surface modification of biomaterial to prevent biofilm formation and the attachment of microorganisms.Nanotechnology tools for antibacterial materials.Pseudomonas aeruginosa dose response and bathing water infection.Antibacterial Metallic Touch Surfaces.Bacterial responses to periodic micropillar array.Bacteriostatic behavior of surface modulated silicon nitride in comparison to polyetheretherketone and titanium.What determines sclerobiont colonization on marine mollusk shells?Influence of Surface Properties on the Adhesion of Staphylococcus epidermidis to Acrylic and Silicone.Study of smart antibacterial PCL-xFe3 O4 thin films using mouse NIH-3T3 fibroblast cells in vitro.Enrichment of previously uncultured bacteria from natural complex communities by adhesion to solid surfaces.Biofilm formation of periodontal pathogens on hydroxyapatite surfaces: Implications for periodontium damage.SEM Analysis of Surface Impact on Biofilm Antibiotic Treatment.Adhesion of façade coating colonisers, as mediated by physico-chemical properties.Nanoscale investigation on Pseudomonas aeruginosa biofilm formed on porous silicon using atomic force microscopy.Effect of texture of platelet bags on bacterial and platelet adhesion.The role of plasma, albumin, and fibronectin in Staphylococcus epidermidis adhesion to polystyrene surface.Impact of surface topography on biofilm formation by Candida albicans.In vitro evaluation of microbial adhesion on the different surface roughness of acrylic resin specific for ocular prosthesis.Antibacterial surface modification of titanium implants in orthopaedicsStainless steel is a promising electrode material for anodes of microbial fuel cellsNovel hybrid anti-biofouling coatings with a self-peeling and self-generated micro-structured soft and dynamic surface
P2860
Q34012840-A0925A21-93AC-4654-B5EA-7664F13C68A8Q34065139-D34749AF-DF32-403C-A891-3C6660E718DEQ34168350-6DD2EC74-B389-44E5-9308-0E594203C3EBQ34232759-2EBA1CF3-8A20-46DE-A859-4CD8518B0CD2Q34315218-8002867A-81FF-4B1E-9D31-16EE5D03A15BQ34503976-427347E7-0ACB-438E-B685-F31B0C1DC3FCQ34649528-00C08B24-6F0C-4630-936A-10C1198716EBQ35021550-9D5FF020-600E-4523-8737-5486756D41A4Q35099942-B86C607B-8DFF-4D1A-9B6E-BB0C1F4B73E6Q35813452-CD287F3D-F837-413B-8421-CF472F8A9A39Q36757251-E987BF21-7405-4848-A0DE-8E7A53357170Q37162270-542FF376-E9BC-4923-8E0F-AF6844102406Q37930593-A272197A-F4CB-40A0-9FC8-FB6D2F542F49Q38012377-C809BDE7-0FEF-4F5B-A618-1D2A8FD40798Q38105139-2ADE8366-7AFD-479D-8E13-4CE19A2A2216Q38162507-268FD971-5DE9-49EF-885C-D4A8D51AEB25Q38647308-E65BB39A-E991-49D3-BB0F-048C6F96EB3DQ39212541-F135A8E1-D361-47FC-B7CC-8FE704A7AE1CQ40400960-FB40652D-9CE8-424C-BB4A-F48B1DE2EDABQ41138655-C8CC20AD-FA2F-4337-B17E-44E610E2DBD3Q42051078-08D3327D-80B3-4F99-810C-A013D50A8376Q42815611-18AA54F3-B58B-41BB-94CC-305F7001B7ABQ43466688-081FBD7E-0F90-42CC-AFDA-67AAC7A640ABQ46521435-56C8E2ED-6860-475A-A3A9-A86B202644B4Q46666515-B637C018-5DE5-40EF-AE5C-EF8BCC945C4CQ50687860-4C7718F6-8C3E-4E53-8CF0-7007F3A5E1C1Q50847493-A8110FFF-2EF1-42DC-9B53-3DA61D2EB09EQ51187780-5CE33909-DB36-4249-8C46-B3433BCE235BQ51368987-5747E5AA-9B09-4C87-8751-C537E0AB8E09Q55260754-C6B12A6A-39C9-469C-A575-4B654C2017A8Q55476630-917C4B2B-AD09-4C39-86F1-DC3C8DB88745Q57174762-E95FDE2D-2C5B-4A12-A939-E0AD3BDDC97BQ57632374-4A52110B-E0D0-4AA8-A086-63FA14FD580AQ57960855-108C04D9-9F39-4356-9F7D-06747EED9831
P2860
description
1998 nî lūn-bûn
@nan
1998 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
1998 թվականի դեկտեմբերին հրատարակված գիտական հոդված
@hy
1998年の論文
@ja
1998年論文
@yue
1998年論文
@zh-hant
1998年論文
@zh-hk
1998年論文
@zh-mo
1998年論文
@zh-tw
1998年论文
@wuu
name
Effects of Substratum Topography on Bacterial Adhesion.
@ast
Effects of Substratum Topography on Bacterial Adhesion.
@en
type
label
Effects of Substratum Topography on Bacterial Adhesion.
@ast
Effects of Substratum Topography on Bacterial Adhesion.
@en
prefLabel
Effects of Substratum Topography on Bacterial Adhesion.
@ast
Effects of Substratum Topography on Bacterial Adhesion.
@en
P2093
P356
P1476
Effects of Substratum Topography on Bacterial Adhesion.
@en
P2093
Hamilton MA
Scheuerman TR
P356
10.1006/JCIS.1998.5717
P407
P577
1998-12-01T00:00:00Z