Researchers overcome computational limitations to predict the starting materials of multi-step reactions using only information about the target product molecule. Researchers overcome computational ...

Using the unique properties of new nanometer-scale magnetic particles, researchers have for the first time separated for reuse two different catalysts from a multi-step chemical reaction done in a ...

As the chemical structure of the tessellation building blocks (BPE–Ag, 8) differs significantly from the starting EIP molecule (1), on-surface reactions must have been triggered upon heating. In the ...

Researchers from the Fritz Haber Institute of the Max Planck Society have unveiled fundamental new insights into the working principles of fuel-cell catalysts. Subscribe to our newsletter for the ...

In the discipline of bottom-up synthetic biology, vesicles define the boundaries of artificial cells and are increasingly being used as biochemical microreactors operating in physiological ...

Scientists have developed a 3-D printing process that creates a chemically active catalytic object in a single step, opening the door to more efficient ways to produce catalysts for complex chemical ...

Glycosite-specific conjugation has emerged as a gold standard for developing next-generation Antibody-Drug Conjugates (ADCs) and other XDCs. However, most existing approaches are hindered by ...

Researchers from the US have demonstrated a new catalyst support structure allowing two incompatible catalysts to work in tandem. The work mimics nature’s strategy of compartmentalising reactions and ...

Research-backed strategy produces highly homogeneous antibody-drug conjugates (gsADCs) with consistent DAR and tumor suppression lasting over 50 days after a single dose A new white paper from ...

Researchers overcome computational limitations to predict the starting materials of multi-step reactions using only information about the target product molecule. Have you ever only caught the end of ...