In this article, we introduce a flexible technique for high-throughput solid-state nanopore
analysis of single biomolecules. By confining the electrolyte to a micron-scale liquid meniscus at …

Multicomponent reactions enable the synthesis of large molecular libraries from relatively
few inputs. This scalability has led to the broad adoption of these reactions by the …

Biomolecular information systems offer exciting potential advantages and opportunities to
complement conventional semiconductor technologies. Much attention has been paid to …

This letter presents a large-scale fully integrated multimodal sensor array for biological
imaging. The 512×256 sensor array can perform spatially resolved electrochemical impedance …

We present measurements of the nucleation, growth and evolution of single hydrogen
nanobubbles containing zeptomoles of molecular hydrogen and likely originating from a single …

This paper presents a 100 ×100 super-resolution integrated sensor array for microscale
electrochemical impedance spectroscopy (EIS) imaging. The system is implemented in 180 nm …

Autocatalysis is fundamental to many biological processes, and kinetic models of autocatalytic
reactions have mathematical forms similar to activation functions used in artificial neural …

Microorganisms account for most of the biodiversity on earth. Yet while there are increasingly
powerful tools for studying microbial genetic diversity, there are fewer tools for studying …

In this work, we introduce a new type of linear classifier that is implemented in a chemical
form. We propose a novel encoding technique which simultaneously represents multiple …

While classical electrochemical impedance spectroscopy (EIS) focuses on measurements
from a single working electrode, dense active microelectrode arrays offer opportunities for …