This next generation of 2D-2D heterostructures goes beyond van der Waals thanks to the strong covalent bonds between its 2D materials. Combining the best of different crystals to obtain the ...

Quantum researchers have long believed that strong spin interactions in qubits required covalent bonds, making large-scale ...

In chemistry, a covalent bond occurs when two atoms share an electron, merging together to produce a stronger, more permanent ...

Researchers were able to demonstrate for the first time that non-covalent bonds between spin centers are also capable of producing quartet states through spin mixing. Supramolecular chemistry is thus ...

A Franco-German research team, including members from the University of Freiburg, shows that supramolecular chemistry enables ...

Researchers have proposed using polymer membranes modified with copper, zinc, and chromium metal ions for water purification. These polymers were used for the first time in water purification via ...

However, a more viable transformation, according to Prof. Moshe Ben Shalom, head of the Quantum Layered Matter Group at Tel Aviv University, involves reconfiguring graphite’s atomic layers by subtly ...

we have recently obtained new evidence which suggests the existence of the long-sought covalent bond between lignin and carbohydrate in these materials. It appears to be an acetal or hemi-acetal ...

A new study that provides unprecedented insights into the chemical bonding of antimony could have a profound impact on materials research. The collaboration between scientists from Leipzig University, ...

Qubits are the basic building blocks of information processing in quantum technology. An important research question is what material they will ...

A new study that provides unprecedented insights into the chemical bonding of antimony could have a profound impact on ...