Dwell Time Prolongation and Identification of Single Nucleotides Passing through a Solid-State Nanopore by Using Ammonium Sulfate Aqueous Solution.

The ionic current blockades when poly(dT) or dNTPs passed through SiN nanopores in an aqueous solution containing (NH)SO were investigated. The dwell time of poly(dT) in the nanopores in an aqueous solution containing (NH)SO was significantly longer compared to that in an aqueous solution that did not contain (NH)SO. This dwell time prolongation effect due to the aqueous solution containing (NH)SO was also confirmed when dCTP passed through the nanopores.

Descriptive, injunctive, or the synergy of both? Experimenting normative information on behavioral changes under the COVID-19 pandemic.

Backgrounds: The effectiveness of citizens' behavioral changes to prevent the spread of SARS-CoV-2, such as avoiding large social events, relies on science communication from policymakers and collective action among peer citizens. Extant studies recognize the potential effects of information stimuli on citizens' behavioral changes, including what epidemiological experts request () and what surrounding people behave (). Yet, they have insufficiently assessed the co-occurrence and possible interaction of multiple information stimuli.

Sub-10-nm-thick SiN nanopore membranes fabricated using the SiOsacrificial layer process.

In our previous studies, ultrathin SiN membranes down to 3 nm in thickness were fabricated using the poly-Si sacrificial layer process, and nanopores were formed in those membranes. The region of the SiN membrane fabricated using this process was small, and the poly-Si sacrificial layer remained throughout the other region. On the other hand, to reduce the noise of the current through the nanopore, it is preferable to reduce the capacitance of the nanopore chip by replacing the poly-Si layer with an insulator with low permittivity, such as SiO.

Low-frequency noise induced by cation exchange fluctuation on the wall of silicon nitride nanopore.

Nanopore-based biosensors have attracted attention as highly sensitive microscopes for detecting single molecules in aqueous solutions. However, the ionic current noise through a nanopore degrades the measurement accuracy. In this study, the magnitude of the low-frequency noise in the ionic current through a silicon nitride nanopore was found to change depending on the metal ion species in the aqueous solution.

Stable fabrication of a large nanopore by controlled dielectric breakdown in a high-pH solution for the detection of various-sized molecules.

For nanopore sensing of various-sized molecules with high sensitivity, the size of the nanopore should be adjusted according to the size of each target molecule. For solid-state nanopores, a simple and inexpensive nanopore fabrication method utilizing dielectric breakdown of a membrane is widely used. This method is suitable for fabricating a small nanopore.