Catalysts Produce Complex Spirocyclic Molecules in One

OH Ar Ar Ar = (R)-9-anthracenyl Ar = (S)-2,4,6-tri-i-Pr-phenyl up to 99% yield up to 96% ee H3CO H3CO ... O N O R [3+2] allylsilane annulation SiR...
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Catalysts Produce Complex Spirocyclic Molecules in One Step Catalysts for the first asymmetric [3+2] allylsilane annulation make new silyl spirocycles: R1

R3Si

[3+2] allylsilane annulation SiR3

O

Catalysts are the matchmakers of the laboratory, connecting simple molecules together to produce more complex molecules that are important for medicines, materials & energy. From metal catalysts to phosphoric acids, these chiral catalysts help us discover new molecules and use more environmentally-friendly processes.

HO

R1

O

with TMSCl promoter

Catalysts for an enantioselective Pictet-Spengler spirocyclization:

N R

ScCl2(SbF6)-pybox catalyst

R

O

N O H

R1

N R

X = OH

NH O

H3CO

catalyst (20 mol %)

N H

NR X-ray structure

Na2SO4 R1

O N R

X-ray structure

O X = SiR3

95-99% ee

NH2

H3CO +

R1

O

O N

Oxidative Cleavage of C-Si

Ar

up to 99% yield up to 96% ee O

O P O OH Ar

Ar = (R)-9-anthracenyl Ar = (S)-2,4,6-tri-i-Pr-phenyl

Spiroindolones exhibit anti-malaria activity same product configuration