Directed Mineralization on Polyelectrolyte Multilayer Films
作者: Maria C. AdvinculaPritesh A. PatelPatrick T. MatherDaniel UnderhillBryan D. HueyA. Jon Goldberg
作者单位: 1madvincula@uchc.edu , University of Connecticut Health Center , Oral Rehabilitation , 263 Farmington Ave , MC-1615 , Farmington CT 06030 United States
2 pritesh.patel@case.edu , Case Western Reserve University , Macromolecular Science and Engineering , 312 Kent Hale Smith Building , 2100 Adelbert Road , Cleveland , OH , 44106 , United States
3 patrick.mather@case.edu , Case Western Reserve University , Macromolecular Science and Engineering , 312 Kent Hale Smith Building , 2100 Adelbert Road , Cleveland , OH , 44106 , United States
4 Pyfll@yahoo.com , University of Connecticut , Institute of Materials Science , 97 North Eagleville Road , Storrs , CT , 06269 , United States
5 bhuey@ims.uconn.edu , University of Connecticut , Institute of Materials Science , 97 North Eagleville Road , Storrs , CT , 06269 , United States
6 goldberg@uchc.edu , University of Connecticut Health Center , Oral Rehabilitation , 263 Farmington Ave , MC-1615 , Farmington , CT , 06030 , United States
刊名: MRS Proceedings, 2006, Vol.975
来源数据库: Cambridge University Press Journal
DOI: 10.1557/PROC-975-0975-DD06-03
原始语种摘要: ABSTRACT Silica formation aided by polypeptides is being actively investigated for a wide range of applications including biomaterials synthesis, ceramics and controlled release systems. We envision that biocatalyzed mineralization could have application as a dental material where in situ formation of mineral layers could provide needed wear-resistance or sealing capability. The approach would be more clinically relevant, if a polymer host could be used to carry and specifically position the biocatalyst on a surface and additionally maintain the catalyst activity. Accordingly, we studied the influence of simple catalytic polypeptides on silica formation from prehydrolyzed alkoxide precursor solutions onto a surface. The polypeptides were localized on to the surface as multilayered thin...
全文获取路径: Cambridge U Press 
分享到:

×
关键词翻译
关键词翻译
  • silica 硅土
  • morphology 形态学
  • layer 
  • PSS Passenger Services System
  • multilayered 多层
  • microscopy 显微镜检查
  • oppositely 在相反的位置
  • alkoxide 醇盐
  • PLL Phase Lock(ed)Loop
  • films 薄膜