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:
Pholsena,a Líney Árnadóttir,a,* Jessica R. Castle,c Peter G. Jacobs,c,d Robert S. Cargill,c W. 4
Kenneth
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:
. Cargill,c W. Kenneth Ward,c,z John F. Conley Jr.,b,z and Gregory S. Hermana,z
aSchool of Chemical
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...