Fluid transport at the nanoscale is ubiquitous in nature. However, rigorous study of fluid flow
and structure in artificial nanopores only emerged relatively recently. Termed nanofluidics …

Understating the mass transport via nanopores and nanochannels plays a vital role in
membrane‐based separation systems and applications. Graphene and its derivates, such …

Any tissue or cell in the body can be attacked by electromagnetic (EM) radiation, especially
causing serious damage to human orthopedics. The ideal metacomposites with low …

It is challenging to balance the energy and sensitivity for the development of energetic
materials (EMs). In this paper, the HMX crystals with improved energy density but lower …

A nanocomposite polymer electrolyte membrane (MGC) was synthesized by blending MPTS
(HS (CH 2) 3 Si (OCH 3) 3) and graphene oxide (GO) nanosheets at varying weight ratios …

Very strong difference in many properties is well documented for graphite oxides (GtO)
synthesized by Brodie (BGO) and Hummers (HGO) methods. The difference is typically …

High-temperature proton exchange membrane fuel cells (HT-PEMFCs) offer solutions to
challenges intrinsic to low-temperature PEMFCs, such as complex water management, fuel …

Due to their nanoscale thickness (≈ 1 nm) and exceptional selectivity for permeation of
gases, nanomembranes made of 2D materials possess high potential for energy‐efficient …

Two dimensional (2D) crystals have attracted strong interest as a new class of proton-
conducting materials that can block atoms, molecules and ions while allowing proton …

The ever-expanding capabilities of machine learning are powered by exponentially growing
complexity of deep neural network (DNN) models, requiring more energy and chip-area …