A label-free impedance-based electrochemical sensor based on self-assembled dendritic DNA nanostructures for Pb2+ detection

H Jin, J Dong, X Qi, X Sun, M Wei, B He, Z Suo - Bioelectrochemistry, 2023 - Elsevier
Here, a label-free impedance-based electrochemical sensor was developed for the
quantitative detection of Pb 2+. Using conductive gold nanomaterials as electrode substrate …
被引用次数:16 相关文章

A Label-Free Impedance-Based Electrochemical Sensor Based on Self-Assembled Dendritic DNA Nanostructures for Pb 2+ Detection

H Jin, J Dong, X Qi, X Sun, M Wei, B He… - Available at SSRN … - papers.ssrn.com
Here, a label-free impedance-based electrochemical sensor was developed for the
quantitative detection of Pb2+. Using conductive gold nanomaterials as electrode substrate …

A label-free impedance-based electrochemical sensor based on self-assembled dendritic DNA nanostructures for Pb2+ detection

H Jin, J Dong, X Qi, X Sun, M Wei… - Bioelectrochemistry …, 2023 - pubmed.ncbi.nlm.nih.gov
Here, a label-free impedance-based electrochemical sensor was developed for the
quantitative detection of Pb 2+. Using conductive gold nanomaterials as electrode substrate …

A label-free impedance-based electrochemical sensor based on self-assembled dendritic DNA nanostructures for Pb2+ detection.

H Jin, J Dong, X Qi, X Sun, M Wei, B He… - Bioelectrochemistry …, 2022 - europepmc.org
Here, a label-free impedance-based electrochemical sensor was developed for the
quantitative detection of Pb 2+. Using conductive gold nanomaterials as electrode substrate …

A label-free impedance-based electrochemical sensor based on self-assembled dendritic DNA nanostructures for Pb2+ detection.

H Jin, J Dong, X Qi, X Sun, M Wei, B He, Z Suo - 2023 - cabidigitallibrary.org
Here, a label-free impedance-based electrochemical sensor was developed for the
quantitative detection of Pb2+. Using conductive gold nanomaterials as electrode substrate …