RT @ACS_Sensors: Check out what's #InTheNews 📰 "3D-Printed Flexible Microfluidic Health Monitor for In Situ Sweat Analysis and Biomarker De…
RT @ACS_Sensors: Check out what's #InTheNews 📰 "3D-Printed Flexible Microfluidic Health Monitor for In Situ Sweat Analysis and Biomarker De…
RT @ACS_Sensors: Check out what's #InTheNews 📰 "3D-Printed Flexible Microfluidic Health Monitor for In Situ Sweat Analysis and Biomarker De…
RT @ACS_Sensors: Check out what's #InTheNews 📰 "3D-Printed Flexible Microfluidic Health Monitor for In Situ Sweat Analysis and Biomarker De…
A research team led by @RimIAQ of @PSU_AE @penn_state investigate the generation and dispersion of oxidants and secondary air contaminants by #GermicidalUltravioletlight (GUV) systems (GUV 222 and 254) in a populated classroom. Read in ES&T: https://
RT @ACS_Sensors: Check out what's #InTheNews 📰 "3D-Printed Flexible Microfluidic Health Monitor for In Situ Sweat Analysis and Biomarker De…
RT @ACS_Sensors: Check out what's #InTheNews 📰 "3D-Printed Flexible Microfluidic Health Monitor for In Situ Sweat Analysis and Biomarker De…
Check out what's #InTheNews 📰 "3D-Printed Flexible Microfluidic Health Monitor for In Situ Sweat Analysis and Biomarker Detection" from ACS Sensors 🔗 https://t.co/8OJu2JumWd
#MME_WSU faculty members Drs. Narasimha Boddeti, Yuehe Lin, Annie Du, and Kaiyan Qiu introduced a novel 3D-printed flexible wearable health monitor. Learn more about this interesting work here. https://t.co/SLX0SovH7M
RT @ACS_Sensors: Exciting work: a 3D-printed flexible health monitor fabricated by a one-step continuous manufacturing process! Featuring s…
RT @ACS_Sensors: Exciting work: a 3D-printed flexible health monitor fabricated by a one-step continuous manufacturing process! Featuring s…
RT @ACS_Sensors: Exciting work: a 3D-printed flexible health monitor fabricated by a one-step continuous manufacturing process! Featuring s…
Exciting work: a 3D-printed flexible health monitor fabricated by a one-step continuous manufacturing process! Featuring self-supporting microfluidics & novel single-atom catalysts-based bioassays. @KaiyanQiuLab @ACS_Sensors https://t.co/5JKhgxU81n