This study details the use of printing and other additive processes to fabricate a novel amperometric glucose sensor. The sensor was
fabricated using a Au coated 12.7 μm thick polyimide substrate as a starting material, where micro-contact printing, electrochemical
plating, chloridization, electrohydrodynamic jet (e-jet) printing, and spin coating were used...
Full Text:
Xiaosong Du,a Christopher J. Durgan,a David J. Matthews,b Joshua R. Motley,a XuebinTan,b 3
Kovit
This study details the use of printing and other additive processes to fabricate a novel amperometric glucose sensor. The sensor was
fabricated using a Au coated 12.7 μm thick polyimide substrate as a starting material, where micro-contact printing, electrochemical
plating, chloridization, electrohydrodynamic jet (e-jet) printing, and spin coating were used...
Full Text:
XuebinTan,b
Kovit Pholsena,a Lı́ney Árnadóttir,a,∗ Jessica R. Castle,c Peter G. Jacobs,c,d
Robert S
This study details the use of printing and other additive processes to fabricate a novel amperometric glucose sensor. The sensor was
fabricated using a Au coated 12.7 μm thick polyimide substrate as a starting material, where micro-contact printing, electrochemical
plating, chloridization, electrohydrodynamic jet (e-jet) printing, and spin coating were used...
Diabetes is a pandemic that affects nearly 29.1 million Americans and the fourth leading cause of mortality in the US. Type 1 diabetes is a chronic condition which occurs due to little to no production of insulin by the pancreas. This form of diabetes requires constant monitoring of blood glucose...