Nernst-Planck model of photo-triggered, <i>p</i>H–tunable ionic transport through nanopores functionalized with “caged” lysine chains

ElsevierRamirez Hoyos, P.; Gómez Lozano, V.; Ali, M.; Ensinger, W.; Mafé, S. (2013) ABSTRACTWe have studied experimentally and theoretically the rectifying properties of a single asymmetric nanopore functionalized with amphoteric lysine groups and characterized the net current obtained with zero-average time dependent potentials. The pH-controlled rectification phenomena may be relevant to bio-electrochemistry, pH sensing and regulation, and energy conversion.

show abstract

“…Note that X F should be obtained by solving the and -COOH groups [23,32]. The electric potential and concentrations at x = 0 and x = L (Fig.…”

Section: Resultsmentioning

confidence: 99%

Net currents obtained from zero-average potentials in single amphoteric nanopores

Ramı́rez

Gómez

Ali

et al. 2013

Electrochemistry Communications

Self Cite

View full text Add to dashboard Cite

show abstract

“…The current ( I )–potential ( V ) curves of the resulting single pore and multipore membranes give pore radii in the ranges 10–40 nm (cone tip) and 300–600 nm (base). The I – V curves measured in 0.1 m KCl aqueous solutions show also that the carboxylate residues on the pore surface are ionized at pH 7 (Figure ) . These negative fixed charges are inhomogeneously distributed along the conical pore and give the electrical rectification that allows the conversion of white noise input potentials into directional net currents .…”

Section: Hybrid Circuits With Nanopores and Load Capacitorsmentioning

confidence: 97%

Optimizing Energy Transduction of Fluctuating Signals with Nanofluidic Diodes and Load Capacitors

Ramı́rez

Cervera

Gómez

et al. 2017

Small

Self Cite

View full text Add to dashboard Cite

The design and experimental implementation of hybrid circuits is considered allowing charge transfer and energy conversion between nanofluidic diodes in aqueous ionic solutions and conventional electronic elements such as capacitors. The fundamental concepts involved are reviewed for the case of fluctuating zero-average external potentials acting on single pore and multipore membranes. This problem is relevant to electrochemical energy conversion and storage, the stimulus-response characteristics of nanosensors and actuators, and the estimation of the accumulative effects caused by external signals on biological ion channels. Half-wave and full-wave voltage doublers and quadruplers can scale up the transduction between ionic and electronic signals. The network designs discussed here should be useful to convert the weak signals characteristic of the micro and nanoscale into robust electronic responses by interconnecting iontronics and electronic elements.

show abstract

“…Integration of several pores in a series arrangement can allow multiple sensing and actuating processes. Figure 2 suggests an experimental realization for the enabled OR (EnOR) function, in which a simple binary output (current) can be obtained from different combinations of chemical, thermal, and electrical [21], [22], [41], [43], [65], [66], [67], [70], [83] Optical UV light and photo-labile groups [48], [68], [69], [70], [71], [72] inputs. The currents are estimated from the individual pore conductance values.…”

Section: Logical Network and Multifunctional Single Nanoporesmentioning

confidence: 99%

Logic Functions with Stimuli‐Responsive Single Nanopores

et al. 2014

Self Cite

View full text Add to dashboard Cite

We present the concept of logic functions based on a single stimuli‐responsive nanopore and analyze its potential for electrochemical transducers and actuators. The responsive molecules at the surface of the polymeric nanopore immersed in an electrolyte solution are sensitive to thermal, chemical, electrical, and optical stimuli, which are the input signals required to externally tune the conductance of the nanopore (the logical output). A single nanostructure can be operated as a resistor or as a diode with a broad range of rectifying properties, allowing for logical information‐processing schemes that are useful pH and temperature sensors, electro‐optical detectors, and electrochemical actuators and transducers. Some of the limitations to be addressed in practical applications are also cited.

show abstract

Nernst-Planck model of photo-triggered, pH–tunable ionic transport through nanopores functionalized with “caged” lysine chains

Cited by 21 publications

References 67 publications

Net currents obtained from zero-average potentials in single amphoteric nanopores

Net currents obtained from zero-average potentials in single amphoteric nanopores

Optimizing Energy Transduction of Fluctuating Signals with Nanofluidic Diodes and Load Capacitors

Logic Functions with Stimuli‐Responsive Single Nanopores

Contact Info

Product

Resources

About