In this review, I summarize recent experimental investigations of surface and friction forces between bottlebrush structure macromolecules including biolubricants and biomimetic ones by direct force measurements. I also discuss recent experimental investigations of synergy in lubrication in which a question, ‘How do lubricants act together?’, is aimed to be answered. Lastly, challenges and opportunities for developing efficient lubricating systems are outlined
We study the weak interaction between polymers and oppositely charged surfactants and its effect on ...
Friction force microscopy has been used to demonstrate that biocompatible, lubricious poly(2-(methac...
Friction force microscopy has been used to demonstrate that biocompatible, lubricious poly(2-(metha...
We report the design of a bottle-brush polymer whose architecture closely mimics the lubricating pro...
Polymers exhibiting the bottlebrush (BB) architecture have excellent lubricating properties. However...
"This document is the Accepted Manuscript version of a Published Work that appeared in final form in...
We report the design of a bottle-brush polymer whose architecture closely mimics the lubricating pro...
In the present study, we monitored the conformation and chemical stability of a hydrophilic bottlebr...
Polymer brushes have been widely applied for the reduction of both friction and non‐specific protein...
Long-ranged forces between surfaces in a liquid control effects from colloid stability to biolubrica...
Polymer brushes lead to small friction and wear and thus hold great potential for industrial applica...
We develop a scaling model relating the friction forces between two polyelectrolyte brushes sliding ...
International audienceDendron brushes provide excellent opportunities to tune mechanical properties ...
Lubricin (LUB, aka PRG4), a mucin-like glycoprotein, is best known for the significant role it plays...
Controlling friction and adhesion is relevant in nature and in our daily life. Such control can be a...
We study the weak interaction between polymers and oppositely charged surfactants and its effect on ...
Friction force microscopy has been used to demonstrate that biocompatible, lubricious poly(2-(methac...
Friction force microscopy has been used to demonstrate that biocompatible, lubricious poly(2-(metha...
We report the design of a bottle-brush polymer whose architecture closely mimics the lubricating pro...
Polymers exhibiting the bottlebrush (BB) architecture have excellent lubricating properties. However...
"This document is the Accepted Manuscript version of a Published Work that appeared in final form in...
We report the design of a bottle-brush polymer whose architecture closely mimics the lubricating pro...
In the present study, we monitored the conformation and chemical stability of a hydrophilic bottlebr...
Polymer brushes have been widely applied for the reduction of both friction and non‐specific protein...
Long-ranged forces between surfaces in a liquid control effects from colloid stability to biolubrica...
Polymer brushes lead to small friction and wear and thus hold great potential for industrial applica...
We develop a scaling model relating the friction forces between two polyelectrolyte brushes sliding ...
International audienceDendron brushes provide excellent opportunities to tune mechanical properties ...
Lubricin (LUB, aka PRG4), a mucin-like glycoprotein, is best known for the significant role it plays...
Controlling friction and adhesion is relevant in nature and in our daily life. Such control can be a...
We study the weak interaction between polymers and oppositely charged surfactants and its effect on ...
Friction force microscopy has been used to demonstrate that biocompatible, lubricious poly(2-(methac...
Friction force microscopy has been used to demonstrate that biocompatible, lubricious poly(2-(metha...
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