Chemists have already solved how to make asymmetric C - H and C - O bonds, but the most critical — asymmetric C -
C bond formation — is still lagging behind.
When making new C - C bonds, palladium gives you a mixture, so I'm hoping to find new catalysts for C -
C bond formation that give you only one or the other.
Not exact matches
Using a high - throughput data set, they trained a random forest algorithm to predict which specific palladium catalysts would best tolerate isoxazoles (cyclic structures with an N — O
bond) during
C — N
bond formation.
Rhodes et al. found that the
formation of sulfur - rich phases correlated with lower
C - S
bond strength in the organosulfur precursors.
«It is an extreme challenge for the
C - N
bond formation directly from graphite and nitrogen.»
IBS scientists used a reaction based on lithium dissolved in ammonia, called the «Birch - type reaction,» to introduce hydrogen onto graphene through the
formation of
C - H
bonds.
In this area she has discovered new and innovative synthetic methodologies, involving palladacycles, which allow the
formation of several
C —
C bonds in a single synthetic operation.