Fully disposable microfluidic electrochemical device for detection of estrogen receptor alpha breast cancer biomarker
CV Uliana, CR Peverari, AS Afonso… - Biosensors and …, 2018 - Elsevier
A novel fully disposable microfluidic electrochemical array device (µFED) was developed
and successfully applied for detection of the biomarker estrogen receptor alpha (ERα). The
µFED was constructed using low-cost materials and an inexpensive home cutter printer
enabled the manufacture of dozens of µFEDs in less than 2 h, at a cost of less than US $0.20
in material per device. The µFED incorporates counter and reference electrodes and eight
carbon-based working electrodes, which were modified with DNA sequences known as …
and successfully applied for detection of the biomarker estrogen receptor alpha (ERα). The
µFED was constructed using low-cost materials and an inexpensive home cutter printer
enabled the manufacture of dozens of µFEDs in less than 2 h, at a cost of less than US $0.20
in material per device. The µFED incorporates counter and reference electrodes and eight
carbon-based working electrodes, which were modified with DNA sequences known as …
Fully disposable microfluidic electrochemical device for detection of estrogen receptor alpha breast cancer biomarker
MR Cominetti, CR Peverari, CV Uliana, RC Faria… - 2017 - acervo.ufvjm.edu.br
A novel fully disposable microfluidic electrochemical array device (µFED) was developed
and successfully applied for detection of the biomarker estrogen receptor alpha (ERα). The
µFED was constructed using low-cost materials and an inexpensive home cutter printer
enabled the manufacture of dozens of µFEDs in less than 2h, at a cost of less than US $0.20
in material per device. The µFED incorporates counter and reference electrodes and eight
carbon-based working electrodes, which were modified with DNA sequences known as …
and successfully applied for detection of the biomarker estrogen receptor alpha (ERα). The
µFED was constructed using low-cost materials and an inexpensive home cutter printer
enabled the manufacture of dozens of µFEDs in less than 2h, at a cost of less than US $0.20
in material per device. The µFED incorporates counter and reference electrodes and eight
carbon-based working electrodes, which were modified with DNA sequences known as …