The study of molecular diffusion coefficients and their prediction models remains central to understanding mass transport across chemical and biological systems. Recent advances have sought to enhance ...

This study presents a heterostructured organohydrogel that regulates dual molecular transport, enhancing scalability and ...

The investigation of molecular motion within thin films has undergone significant advancement with the advent of single-molecule tracking (SMT) techniques. These methods enable researchers to trace ...

Breakthroughs in science often begin with a simple question and years of tireless exploration. From the way tiny molecules slip through microscopic pores to the staggering behavior of matter near ...

In recent years, organic semiconductor materials have attracted considerable attention as key components for next-generation ...

Introducing interconnected mesopores and macropores into microporous zeolites with the rationalized pore size at each level is an effective strategy to suppress the diffusion limitations, but remains ...

Researchers capture exciton movement inside single CuPc nanofibers and show how molecular packing and defects shape energy ...

UB engineer Kaihang Shi specializes in using artificial intelligence, molecular simulation and other approaches to create nanomaterials for energy and sustainability applications. He recently received ...

A research team led by Associate Professor Yukihide Ishibashi at the Graduate School of Science and Engineering, Ehime University, has successfully ...

This is a preview. Log in through your library . Abstract We investigate the influence of steady periodic flows on the propagation of chemical fronts in an infinite channel domain. We focus on the ...