Interrogating the Electrochemical Potential of Senna obtusifolia Mediated Biosynthesized Silver Nanoparticles

Abstract: Hazards and toxicity associated with the physical and chemical synthesis protocol of metal nanoparticles has recently led researchers to seek alternative routes that is eco-friendly, cheap and fast; the green chemistry approach where plant extracts and microorganisms are used in the reduction of the metal salt is fast gaining popularity in the field of nanobiotechnology. However, controversy still trails acceptability; furthermore, electrochemical studies on these metal nanoparticles are limited. In this study… Show more

“…7(e), at 50000Â, it can be seen that the spherical nanoparticles form a dense arrangement, which promotes the current ow, resulting in a conductive path. [30][31][32] Optimization parameters…”

Fully handwritten electrodes on paper substrate using rollerball pen with silver nanoparticle ink, marker pen with carbon nanotube ink and graphite pencil

“…7(e), at 50000Â, it can be seen that the spherical nanoparticles form a dense arrangement, which promotes the current ow, resulting in a conductive path. [30][31][32] Optimization parameters…”

Fully handwritten electrodes on paper substrate using rollerball pen with silver nanoparticle ink, marker pen with carbon nanotube ink and graphite pencil

Synthesis of a silver nanoparticle ink for fabrication of reference electrodes