相关参考文献
注意:仅列出部分参考文献,下载原文获取全部文献信息。Ultra-low fouling photocrosslinked coatings for the selective capture of cells expressing CD44
Chiaki Yoshikawa et al.
MATERIALS SCIENCE AND ENGINEERING C-MATERIALS FOR BIOLOGICAL APPLICATIONS (2021)
Nonbiofouling Coatings Using Bottlebrushes with Concentrated Polymer Brush Architecture
Chiaki Yoshikawa et al.
BIOMACROMOLECULES (2021)
In vitro and in vivo blood compatibility of concentrated polymer brushes
Chiaki Yoshikawa et al.
JOURNAL OF MATERIALS CHEMISTRY B (2021)
Spatially Controlled Surface Modification of Porous Silicon for Sustained Drug Delivery Applications
De-Xiang Zhang et al.
SCIENTIFIC REPORTS (2019)
Photo-crosslinked coatings based on 2-hydroxypropyl acrylamide for the prevention of biofouling
Chiaki Yoshikawa et al.
JOURNAL OF MATERIALS CHEMISTRY B (2019)
Concentrated polymer brush-modified silica particle coating confers biofouling-resistance on modified materials
Chiaki Yoshikawa et al.
MATERIALS SCIENCE AND ENGINEERING C-MATERIALS FOR BIOLOGICAL APPLICATIONS (2017)
Recent progress in marine foul-release polymeric nanocomposite coatings
M. S. Selim et al.
PROGRESS IN MATERIALS SCIENCE (2017)
Concentrated polymer brushes do not induce the expression of inflammatory and angiogeneic genes in human umbilical vein endothelial cells
Yoshihisa Shimizu et al.
BIOTECHNOLOGY LETTERS (2016)
Non-biofouling property of well-defined concentrated polymer brushes
Chiaki Yoshikawa et al.
COLLOIDS AND SURFACES B-BIOINTERFACES (2015)
Versatile inhibition of marine organism settlement by zwitterionic polymer brushes
Yuji Higaki et al.
POLYMER JOURNAL (2015)
Non-toxic, non-biocide-release antifouling coatings based on molecular structure design for marine applications
Ayda G. Nurioglu et al.
JOURNAL OF MATERIALS CHEMISTRY B (2015)
Surface-Initiated Polymer Brushes in the Biomedical Field: Applications in Membrane Science, Biosensing, Cell Culture, Regenerative Medicine and Antibacterial Coatings
Mahentha Krishnamoorthy et al.
CHEMICAL REVIEWS (2014)
Polymer brush coatings for combating marine biofouling
Wen Jing Yang et al.
PROGRESS IN POLYMER SCIENCE (2014)
Non-biofouling property of well-defined concentrated poly(2-hydroxyethyl methacrylate) brush
Chiaki Yoshikawa et al.
MATERIALS LETTERS (2012)
Biofouling: lessons from nature
Gregory D. Bixler et al.
PHILOSOPHICAL TRANSACTIONS OF THE ROYAL SOCIETY A-MATHEMATICAL PHYSICAL AND ENGINEERING SCIENCES (2012)
Lubrication Mechanism of Concentrated Polymer Brushes in Solvents: Effect of Solvent Quality and Thereby Swelling State
Akihiro Nomura et al.
MACROMOLECULES (2011)
Trends in the development of environmentally friendly fouling-resistant marine coatings
James A. Callow et al.
NATURE COMMUNICATIONS (2011)
Suppression of Cell Adhesion on Well-defined Concentrated Polymer Brushes of Hydrophilic Polymers
Chiaki Yoshikawa et al.
CHEMISTRY LETTERS (2010)
Polysulfobetaine-Grafted Surfaces as Environmentally Benign Ultralow Fouling Marine Coatings
Zheng Zhang et al.
LANGMUIR (2009)
Sur-face interaction of well-defined, concentrated poly,(2-hydroxyethyl methacrylate) brushes with proteins
Chiaki Yoshikawa et al.
JOURNAL OF POLYMER SCIENCE PART A-POLYMER CHEMISTRY (2007)
Effects of coating roughness and biofouling on ship resistance and powering
Michael P. Schultz
BIOFOULING (2007)
Protein repellency of well-defined, concentrated poly(2-hydroxyethyl methacrylate) brushes by the size-exclusion effect
C Yoshikawa et al.
MACROMOLECULES (2006)
Polymer brushes via surface-initiated polymerizations
S Edmondson et al.
CHEMICAL SOCIETY REVIEWS (2004)
A versatile method for tuning the chemistry and size of nanoscopic features by living free radical polymerization
TA von Werne et al.
JOURNAL OF THE AMERICAN CHEMICAL SOCIETY (2003)
Effects of cloud-point grafting, chain length, and density of PEG layers on competitive adsorption of ocular proteins
P Kingshott et al.
BIOMATERIALS (2002)
Surface interaction forces of well-defined, high-density polymer brushes studied by atomic force microscopy. 1. Effect of chain length
S Yamamoto et al.
MACROMOLECULES (2000)
Surface interaction forces of well-defined, high-density polymer brushes studied by atomic force microscopy. 2. Effect of graft density
S Yamamoto et al.
MACROMOLECULES (2000)