The metal salts of fatty acid (M-FA)
are the most widely used metal
precursors to colloidal semiconductor nanocrystals (NCs). They play
a key role in controlling the composition, shape, and size of semiconductor
NCs, and their purity is essential for attaining impeccable batch-to-batch
reproducibility in the optical and electrical properties of the NCs.
Herein, we report a novel, one-pot synthesis of a library of highly
pure M-FAs at near-quantitative yields (up to 91%) using 1,8-diazabicyclo[5.4.0]undec-7-ene
or the related nonionic/noncoordinating base as an inexpensive and
ecofriendly catalyst in a green solvent medium. The method is highly
general and scalable with vast academic and industrial potential.
As a practical application, we also demonstrate the use of these high-quality
M-FAs in the synthesis of the spectrum of colloidal semiconductor
NCs (III–V, II–VI, IV–VI, I–VI, I–III–VI,
and perovskite) having absorption/emission in visible to the near-infrared
region.