DSpace at EWHA: An Efficient Electrochemical Sensor Driven by Hierarchical Hetero-Nanostructures Consisting of RuO2 Nanorods on WO3 Nanofibers for Detecting Biologically Relevant Molecules

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An Efficient Electrochemical Sensor Driven by Hierarchical Hetero-Nanostructures Consisting of RuO2 Nanorods on WO3 Nanofibers for Detecting Biologically Relevant Molecules

Title: An Efficient Electrochemical Sensor Driven by Hierarchical Hetero-Nanostructures Consisting of RuO2 Nanorods on WO3 Nanofibers for Detecting Biologically Relevant Molecules

Authors: Lee, Hyerim; Kim, Yeomin; Yu, Areum; Jin, Dasol; Jo, Ara; Lee, Youngmi; Kim, Myung Hwa; Lee, Chongmok

Ewha Authors: 이종목; 이영미; 김명화

SCOPUS Author ID: 이종목; 이영미; 김명화

Issue Date: 2019

Journal Title: SENSORS

ISSN: 1424-8220

Citation: SENSORS vol. 19, no. 15

Keywords: ruthenium dioxide; tungsten trioxide; nanofibers; nanorods; electrochemical sensors

Publisher: MDPI

Indexed: SCIE; SCOPUS

Document Type: Article

Abstract: By means of electrospinning with the thermal annealing process, we investigate a highly efficient sensing platform driven by a hierarchical hetero-nanostructure for the sensitive detection of biologically relevant molecules, consisting of single crystalline ruthenium dioxide nanorods (RuO2 NRs) directly grown on the surface of electrospun tungsten trioxide nanofibers (WO3 NFs). Electrochemical measurements reveal the enhanced electron transfer kinetics at the prepared RuO2 NRs-WO3 NFs hetero-nanostructures due to the incorporation of conductive RuO2 NRs nanostructures with a high surface area, resulting in improved relevant electrochemical sensing performances for detecting H2O2 and L-ascorbic acid with high sensitivity.