Advanced Science (Apr 2019)

A Bioelectronic Platform Modulates pH in Biologically Relevant Conditions

  • Xenofon Strakosas,
  • John Selberg,
  • Xiaolin Zhang,
  • Noah Christie,
  • Peng‐Hao Hsu,
  • Adah Almutairi,
  • Marco Rolandi

DOI
https://doi.org/10.1002/advs.201800935
Journal volume & issue
Vol. 6, no. 7
pp. n/a – n/a

Abstract

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Abstract Bioelectronic devices that modulate pH can affect critical biological processes including enzymatic activity, oxidative phosphorylation, and neuronal excitability. A major challenge in controlling pH is the high buffering capacity of many biological media. To overcome this challenge, devices need to be able to store and deliver a large number of protons on demand. Here, a bioelectronic modulator that controls pH using palladium nanoparticles contacts with high surface area as a proton storage medium is developed. Reversible electronically triggered acidosis (low pH) and alkalosis (high pH) in physiologically relevant buffer conditions are achieved. As a proof of principle, this new platform is used to control the degradation and fluorescence of acid sensitive polymeric microparticles loaded with a pH sensitive fluorescent dye.

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