Abstract Poly (α-l-lysine)(PLL) is a class of water-soluble, cationic biopolymer composed of α-
l-lysine structural units. The previous decade witnessed tremendous progress in the …

Smart electronic materials 'nanographene'stated, its significant authentication has
undergone massive improvements and has emerged as a 'material of the century'in …

Graphene has received extensive attention in various fields due to its π-rich electronic
structure, two-dimensional (2D) layered structure, and easy functionalization characteristics …

The modification of graphene with biomacromolecules like DNA, protein, peptide, and others
extends the potential applications of graphene materials in various fields. The bound …

Abstract Poly-L-lysine (PLL) is a water-soluble biopolymer consist of repeating unit of L-
lysine. It displays intrinsic non-antigenicity, antibacterial property, biocompatibility, and …

Related research on the wetting mechanism of graphene surface and the potential
applications of graphene-based surface interface materials with special wettability in oil …

To develop the compatibility of graphene oxide (GO) nanosheets with water-borne epoxy
(EP) coatings, a natural amino acid with double amines (Lysine) was used to modify GO (LY …

Graphene oxide (GO) assists a diverse set of promising routes to build bioactive neural
microenvironments by easily interacting with other biomaterials to enhance their bulk …

Compared with the conventional DNA probe immobilization on the planar surface,
nanoparticles-based DNA probes enable more RNA molecules to be anchored to the sensor …

Aptamers that undergo large conformational rearrangements at the surface of electrolyte-
gated field-effect transistor (EG-FETs)-based biosensors can overcome the Debye length …