3D Printed Microfluidic Device with Microporous Mn2O3-Modified Screen Printed Electrode for Real-Time Determination of Heavy Metal Ions
Fabricating portable devices for the determination of heavy metal ions is an ongoing
challenge. Here, a 3D printing approach was adopted to fabricate a microfluidic …
challenge. Here, a 3D printing approach was adopted to fabricate a microfluidic …
3D Printed Microfluidic Device with Microporous Mn2O3-Modified Screen Printed Electrode for Real-Time Determination of Heavy Metal Ions
Y Hong, M Wu, G Chen, Z Dai, Y Zhang… - ACS Applied Materials …, 2016 - hero.epa.gov
Fabricating portable devices for the determination of heavy metal ions is an ongoing
challenge. Here, a 3D printing approach was adopted to fabricate a microfluidic …
challenge. Here, a 3D printing approach was adopted to fabricate a microfluidic …
3D Printed Microfluidic Device with Microporous Mn2O3-Modified Screen Printed Electrode for Real-Time Determination of Heavy Metal Ions
Y Hong, M Wu, G Chen, Z Dai… - … applied materials & …, 2016 - pubmed.ncbi.nlm.nih.gov
Fabricating portable devices for the determination of heavy metal ions is an ongoing
challenge. Here, a 3D printing approach was adopted to fabricate a microfluidic …
challenge. Here, a 3D printing approach was adopted to fabricate a microfluidic …
3D Printed Microfluidic Device with Microporous Mn2O3-Modified Screen Printed Electrode for Real-Time Determination of Heavy Metal Ions.
Y Hong, M Wu, G Chen, Z Dai, Y Zhang… - ACS Applied Materials & …, 2016 - europepmc.org
Fabricating portable devices for the determination of heavy metal ions is an ongoing
challenge. Here, a 3D printing approach was adopted to fabricate a microfluidic …
challenge. Here, a 3D printing approach was adopted to fabricate a microfluidic …