Powder caking poses challenges in pharmaceuticals and food production. Understanding its causes is key to developing ...

Moshe Ben Shalom, head of the Quantum Layered Matter Group at Tel Aviv University, involves reconfiguring graphite’s atomic layers by subtly shifting them against weak van der Waals forces.

Investigate the viscoelastic behavior and adhesion characteristics of pressure-sensitive adhesives through cutting-edge ...

Chemists from the National University of Singapore (NUS) have successfully imaged the dynamic assembly of bilayer covalent ...

Imaging bilayer COFs in solution reveals mechanisms of moiré superlattice formation, advancing understanding of stacking in ...

involves reconfiguring the atomic layers of graphite by shifting them against relatively weak van der Waals forces. This study, led by Prof. Ben Shalom and Ph.D. students Maayan Vizner Stern and ...

A team of researchers at the University of Iowa has created a new infrared cryo microscope. The homemade microscope was created to enable the recent study aimed at deepening the understanding of ...

D materials with a twist 1A scanning tunneling microscopy (STM) study of moiré superlattice formation on a twisted bilayer ...

Scientists have made a major breakthrough in imaging the dynamic assembly of bilayer covalent organic frameworks in solution.

head of the Quantum Layered Matter Group at Tel Aviv University (TAU), involves reconfiguring the atomic layers of graphite by shifting them against relatively weak van der Waals forces.