Add to ORKGProtein adsorption plays a crucial role in bioactive implant devices and drug delivery materials design. Ionic complementary peptides are novel nanobiomaterials with many biomedical applications. In this work, molecular dynamics simulations of the ionic complementary peptide EAK16-II on the hydrophobic HOPG surface were performed. The adsorption and initial assembly process of EAK16-II on the surface were revealed. Hydrophobic alanine residues are found to be energetically favorable when in contact with the HOPG surface. It is the hydrophobic interaction that drives the adsorption of the first peptide molecule. Both hydrophobic and electrostatic interactions contribute to the adsorption of the second peptide molecule. The effect of hydrogen...
Magnetic Nanoparticles (MNPs) represent one of the most promising materials as they can act as a ver...
Silica nanostructures are biologically available and find wide applications for drug delivery, catal...
Investigation of the non-covalent interaction of biomolecules with aqueous graphene interfaces is a ...
Understanding protein adsorption onto material surfaces is a major challenge in the design of biomat...
The association of proteins and peptides with inorganic material has vast technological potential. A...
Biomolecule adsorption at liquid/solid interfaces is ubiquitous in nature. The phenomenon also arise...
Molecular dynamics (MD) simulations were performed to investigate the adsorption mode of a short thr...
Polypeptide (PP) adsorption is extensively studied due to the wide range of applications of PP layer...
The force-induced desorption of single peptide chains from mixed OH/CH3-terminated self-assembled mo...
Ionic-complementary peptides are novel nano-biomaterials with a variety of biomedical applications i...
ABSTRACT: Spontaneous membrane-translocating peptides (SMTPs) have recently been shown to directly p...
Peptides are versatile molecules with applications spanning from biotechnology to nanomedicine. They...
Self-assembly and function of biologically modified metal nanostructures depend on surface-selective...
Biointerfaces bridge across inorganic and biological substances within a watercontaining environment...
The molecular behavior of proteins in the presence of inorganic surfaces is of fundamental biologica...
Magnetic Nanoparticles (MNPs) represent one of the most promising materials as they can act as a ver...
Silica nanostructures are biologically available and find wide applications for drug delivery, catal...
Investigation of the non-covalent interaction of biomolecules with aqueous graphene interfaces is a ...
Understanding protein adsorption onto material surfaces is a major challenge in the design of biomat...
The association of proteins and peptides with inorganic material has vast technological potential. A...
Biomolecule adsorption at liquid/solid interfaces is ubiquitous in nature. The phenomenon also arise...
Molecular dynamics (MD) simulations were performed to investigate the adsorption mode of a short thr...
Polypeptide (PP) adsorption is extensively studied due to the wide range of applications of PP layer...
The force-induced desorption of single peptide chains from mixed OH/CH3-terminated self-assembled mo...
Ionic-complementary peptides are novel nano-biomaterials with a variety of biomedical applications i...
ABSTRACT: Spontaneous membrane-translocating peptides (SMTPs) have recently been shown to directly p...
Peptides are versatile molecules with applications spanning from biotechnology to nanomedicine. They...
Self-assembly and function of biologically modified metal nanostructures depend on surface-selective...
Biointerfaces bridge across inorganic and biological substances within a watercontaining environment...
The molecular behavior of proteins in the presence of inorganic surfaces is of fundamental biologica...
Magnetic Nanoparticles (MNPs) represent one of the most promising materials as they can act as a ver...
Silica nanostructures are biologically available and find wide applications for drug delivery, catal...
Investigation of the non-covalent interaction of biomolecules with aqueous graphene interfaces is a ...