The in‐situ synthesis of oligo (ethylene glycol)‐functionalized polymer brushes from a self‐
assembled monolayer of an alkanethiol on gold that presents a tethered initiator by surface …

Nanotechnology is the key technology of the 21st century. The possibility to exploit the
structures and processes of biomolecules for novel functional materials, biosensors …

Surface engineering is an important tool in understanding the molecular mechanism of
protein adsorption and cell-surface interactions with the aim of rational design of surfaces for …

A newly discovered class of cell resistant surfaces, specifically engineered polyelectrolyte
multilayers, was patterned with varying densities of adhesion ligands to control attachment …

Chemical patterns have attracted substantial interest for applications in the field of
biosensors, fundamental cell–surface interaction studies, tissue engineering, and …

Protein patterning was carried out using a simple procedure based on photolithography
wherein the protein was not subjected to UV irradiation and high temperatures or contacted …

Various designs for coatings that resist the attachment of marine organisms are based on
the concept of “ambiguous” surfaces that present both hydrophobic and hydrophilic …

We report the synthesis, film formation, protein resistance, and specific antigen binding
capability of a carboxy-functionalized poly (ethylene glycol) alkanethiol [HOOC …

This paper describes a straightforward procedure to immobilize oligonucleotides on glass
substrates in well‐defined micropatterns by microcontact printing with a dendrimer‐modified …

This paper describes research addressing the question of whether microscopic hydrogels
can be created from poly (ethylene glycol)[PEG 6800] and poly (ethylene oxide)[PEO 200K] …