AI Article Synopsis
- A new nanoscale phenomenon called ion concentration polarization (ICP) causes significant pH changes in fluid samples, prompting research into its origins and management strategies.
- * Instead of negating these pH changes, the study explores how to harness them, such as creating controlled pH gradients by applying electric current through a proton exchange membrane.
- * The research also shows that the pH level can be monitored using pH-responsive hydrogels, which act as barriers in microchannels depending on whether the pH is above or below a certain threshold, leading to potential applications in localized pH stimulation and portable pH sensing.
Article Abstract
Recently introduced nanoscale electrokinetic phenomenon called ion concentration polarization (ICP) has been suffered from serious pH changes to the sample fluid. A number of studies have focused on the origin of pH changes and strategies for regulating it. Instead of avoiding pH changes, in this work, we tried to demonstrate new ways to utilize this inevitable pH change. First, one can obtain a well-defined pH gradient in proton-received microchannel by applying a fixed electric current through a proton exchange membrane. Furthermore, one can tune the pH gradient on demand by adjusting the proton mass transportation (i.e., adjusting electric current). Secondly, we demonstrated that the occurrence of ICP can be examined by sensing a surrounding pH of electrolyte solution. When pH > threshold pH, patterned pH-responsive hydrogel inside a straight microchannel acted as a nanojunction to block the microchannel, while it did as a microjunction when pH < threshold pH. In case of forming a nanojunction, electrical current significantly dropped compared to the case of a microjunction. The strategies that presented in this work would be a basis for useful engineering applications such as a localized pH stimulation to biomolecules using tunable pH gradient generation and portable pH sensor with pH-sensitive hydrogel.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7231315 | PMC |
| http://dx.doi.org/10.3390/mi11040400 | DOI Listing |
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