posted on 2019-01-04, 16:50authored byJiwoong Yang, Jahyun Koo, Seulwoo Kim, Sungho Jeon, Back Kyu Choi, Sangwoo Kwon, Joodeok Kim, Byung Hyo Kim, Won Chul Lee, Won Bo Lee, Hoonkyung Lee, Taeghwan Hyeon, Peter Ercius, Jungwon Park
Nonclassical features of crystallization
in solution have been
recently identified both experimentally and theoretically. In particular,
an amorphous-phase-mediated pathway is found in various crystallization
systems as an important route, different from the classical nucleation
and growth model. Here, we utilize high-resolution in situ transmission electron microscopy with graphene liquid cells to study
amorphous-phase-mediated formation of Ni nanocrystals. An amorphous
phase is precipitated in the initial stage of the reaction. Within
the amorphous particles, crystalline domains nucleate and eventually
form nanocrystals. In addition, unique crystallization behaviors,
such as formation of multiple domains and dislocation relaxation,
are observed in amorphous-phase-mediated crystallization. Theoretical
calculations confirm that surface interactions can induce amorphous
precipitation of metal precursors, which is analogous to the surface-induced
amorphous-to-crystalline transformation occurring in biomineralization.
Our results imply that an unexplored nonclassical growth mechanism
is important for the formation of nanocrystals.