Under the right circumstances, electrons can actually “freeze” into a bizarre solid form. Now, physicists at Berkeley Lab ...

Electrons typically travel at high speeds, zipping through matter unbound. In the 1930s, physicist Eugene Wigner predicted that electrons could be coaxed into stillness at low densities and cold ...

Show students a model of a salt crystal on the molecular level. Explain that one way to ... Overnight, most of the water will evaporate, and solid salt crystals will begin to form in the bottom of the ...

For the first time, LBL researchers have captured direct images of the Wigner molecular crystal using scanning tunneling ...

CD3 Switch-DARPin: Preclinical proof-of-concept for T cell engager with enhanced function in solid tumors The Switch-DARPin ... described in the Risk Factors section of Molecular Partners’ Annual ...

Researchers at Cornell have engineered a groundbreaking porous crystal using a unique fusion of macrocycle and molecular cage ...

For the first time ever, researchers have witnessed — in real time and at the molecular-scale — hydrogen and oxygen atoms merge to form tiny, nano-sized bubbles of water. The event occurred as part of ...

This pioneering study on van der Waals (vdW) epitaxy has created new opportunities for producing wafer-scale, single-crystal ...

Researchers at Cornell University used an innovative arrangement of macrocycle and cage molecules to achieve record-high ...

QIAGEN N.V. (NYSE: QGEN; Frankfurt Prime Standard: QIA) today announced results for the third quarter and first nine months of 2024. Net sales rose 5% to $502 million in Q3 2024 over Q3 2023, while ...

UC San Francisco treated its first brain cancer patient with an experimental new CAR-T therapy discovered and manufactured at ...

Big Pharma is sticking to the recent molecular glue investment trend ... Plus, Merck & Co. in December laid out $10 million to form an exclusive degrader-antibody conjugate (DAC) with C4 ...