An antifouling electrochemical biosensing platform was constructed based on conducting
polymer poly (3, 4-ethylenedioxythiophene)(PEDOT) planted with designed peptides. The …

An electrochemical sensing platform for biomarker detection in complex serum samples with
unique long-term antifouling performance was constructed, based on newly designed …

Zwitterionic peptides were anchored to a conducting polymer of citrate doped poly (3, 4-
ethylenedioxythiophene)(PEDOT) via the nickel cation coordination, and the obtained …

Herein, a universal strategy for the construction of highly sensitive and low fouling
biosensors was proposed based on antifouling peptides conjugated with recognizing DNA …

The application of polypeptides in bio-interfaces and biosensors is of great interest because
polypeptides are biocompatible and easy to design. A novel polymer nanocomposite was …

Circulating tumor cells (CTCs) are considered reliable cancer biomarkers for the liquid
biopsy of many types of tumors. The direct detection of CTCs in human blood with normal …

A novel biomaterial, polyglycerol grafted conducting polymer poly (3, 4-
ethylenedixythiophene)(PEDOT) was electrochemically synthesized. The PEDOT …

Nonspecific binding is a critical issue in protein immunoassays, and the construction of
sensing interfaces that can dramatically resist nonspecific protein adsorption in complex …

Nonspecific adsorption is of great concern for electrochemical biosensors performing in
complex biological media, and various antifouling materials have been introduced into the …

Electrochemical biosensors with high sensitivity and cost-effectiveness, are considered as a
promising alternative to existing clinical diagnostic techniques, but their practical assaying …