Inertial microfluidics has gained significant attention since first being proposed in 2007
owing to the advantages of simplicity, high throughput, precise manipulation, and freedom …

Electrochemical energy conversion is an important supplement for storage and on-demand
use of renewable energy. In this regard, microfluidics offers prospects to raise the efficiency …

Bubbles are known to influence energy and mass transfer in gas-evolving electrodes.
However, we lack a detailed understanding on the intricate dependencies between bubble …

Fluid manipulation plays an important role in biomedical applications such as biochemical
assays, medical diagnostics, and drug development. Programmable fluidic manipulation at …

Since the discovery of inertial focusing in 1961, numerous theories have been put forward to
explain the migration of particles in inertial flows, but a complete understanding is still …

Inertial microfluidics has become a popular topic in microfluidics research for its good
performance in particle manipulation and its advantages of simple structure, high …

Renewables challenge the management of energy supply and demand due to their
intermittency. A promising solution is the direct conversion of the excess electrical energy …

The development of water electrolyzer is challenging as we approach theoretical limits
arising from electrochemical reactions and micro-scale bubble dynamics. In this research …

There have been tremendous innovations in microfluidic clinical diagnostics to facilitate
novel point-of-care testing (POCT) over the past decades. However, the automatic operation …

Emerging membraneless electrolyzers offer an attractive approach to lowering the cost of
hydrogen (H2) production from water electrolysis thanks to potential advantages in durability …