Add to ORKGAvidin-coated peptide tubules, protein tubules, were anchored onto biotin-incorporated self-assembled monolayers (SAMs) on Au substrates and assembled as bridges between the SAMs. The patterned biotin-SAM/Au substrates were placed in a citric acid solution (pH 6) with the protein tubules. After 12 h, the avidin tubules were immobilized on the biotin-SAMs and some of the tubules bridged the patterned biotin-SAMs. No avidin tubules were found to attach onto the glass region between the biotin-SAM/Au substrates. This result shows that the protein tubules have potential to serve as connecting wires for microelectronics
Molecular nanoparticles have been used as building blocks in the synthesis of functional materials. ...
The application of the self-assembled monolayer (SAM) technology to perform model studies of the int...
Peptide nanotubes were immobilized on Au substrates functionalized with self-assembled monolayers of...
Peptide tubules, self-assemblies of bis(N-α-amido-glycylglycine)-1,7-heptane dicarboxylate, were fun...
Microtubules (MTs), whose basic units are a and ß tubulin proteins, are self-assembled proteinaceous...
Self-assembled monolayers (SAMs) provide a convenient, flexible and simple system to tailor the inte...
Self-assembled monolayers (SAMs) provide a convenient, flexible and simple system to tailor the int...
% Microtubular structures were self-assembled in aqueous media from a newly synthesized bolaamphiphi...
The specificity, efficiency, and broad-spectrum functionality of proteins make them desirable materi...
Whether for fundamental biological research or for diagnostic and drug discovery applications, prote...
We report the assembly of protein supramolecular structures at an air-water interface and coupling o...
Conducting polypyrrole-coated structures with lengths of several hundreds of micrometers and diamete...
Discotic molecules self-assemble into supramolecular wires that act as platforms for directed protei...
Control over the functionality of interfaces through biomolecular engineering is a central tool for ...
This chapter discusses applications of self-assembly of proteins and peptides in bionanotechnology a...
Molecular nanoparticles have been used as building blocks in the synthesis of functional materials. ...
The application of the self-assembled monolayer (SAM) technology to perform model studies of the int...
Peptide nanotubes were immobilized on Au substrates functionalized with self-assembled monolayers of...
Peptide tubules, self-assemblies of bis(N-α-amido-glycylglycine)-1,7-heptane dicarboxylate, were fun...
Microtubules (MTs), whose basic units are a and ß tubulin proteins, are self-assembled proteinaceous...
Self-assembled monolayers (SAMs) provide a convenient, flexible and simple system to tailor the inte...
Self-assembled monolayers (SAMs) provide a convenient, flexible and simple system to tailor the int...
% Microtubular structures were self-assembled in aqueous media from a newly synthesized bolaamphiphi...
The specificity, efficiency, and broad-spectrum functionality of proteins make them desirable materi...
Whether for fundamental biological research or for diagnostic and drug discovery applications, prote...
We report the assembly of protein supramolecular structures at an air-water interface and coupling o...
Conducting polypyrrole-coated structures with lengths of several hundreds of micrometers and diamete...
Discotic molecules self-assemble into supramolecular wires that act as platforms for directed protei...
Control over the functionality of interfaces through biomolecular engineering is a central tool for ...
This chapter discusses applications of self-assembly of proteins and peptides in bionanotechnology a...
Molecular nanoparticles have been used as building blocks in the synthesis of functional materials. ...
The application of the self-assembled monolayer (SAM) technology to perform model studies of the int...
Peptide nanotubes were immobilized on Au substrates functionalized with self-assembled monolayers of...