Abstract:Its excellent spatial resolution makes scanning probe microscopy a capable method to investigate chemical reactions at the single-molecule level and obtain fascinating and unprecedented insights into the mechanisms of chemical transformations. Particularly exciting are recent advances in atomic force microscopy that allow bond-resolved imaging and thus make the chemical identification of organic molecular reaction intermediates and products possible. In this chapter we will give an overview about recent fundam… Show more
“…They appeared to be very dependent on the specific molecule–substrate system, and it seems very difficult to extract general tendencies. The reader can refer to published studies for theoretical − or experimental − insights.…”
On-surface synthesis is appearing
as an extremely promising research
field aimed at creating new organic materials. A large number of chemical
reactions have been successfully demonstrated to take place directly
on surfaces through unusual reaction mechanisms. In some cases the
reaction conditions can be properly tuned to steer the formation of
the reaction products. It is thus possible to control the initiation
step of the reaction and its degree of advancement (the kinetics,
the reaction yield); the nature of the reaction products (selectivity
control, particularly in the case of competing processes); as well
as the structure, position, and orientation of the covalent compounds,
or the quality of the as-formed networks in terms of order and extension.
The aim of our review is thus to provide an extensive description
of all tools and strategies reported to date and to put them into
perspective. We specifically define the different approaches available
and group them into a few general categories. In the last part, we
demonstrate the effective maturation of the on-surface synthesis field
by reporting systems that are getting closer to application-relevant
levels thanks to the use of advanced control strategies.
“…They appeared to be very dependent on the specific molecule–substrate system, and it seems very difficult to extract general tendencies. The reader can refer to published studies for theoretical − or experimental − insights.…”
On-surface synthesis is appearing
as an extremely promising research
field aimed at creating new organic materials. A large number of chemical
reactions have been successfully demonstrated to take place directly
on surfaces through unusual reaction mechanisms. In some cases the
reaction conditions can be properly tuned to steer the formation of
the reaction products. It is thus possible to control the initiation
step of the reaction and its degree of advancement (the kinetics,
the reaction yield); the nature of the reaction products (selectivity
control, particularly in the case of competing processes); as well
as the structure, position, and orientation of the covalent compounds,
or the quality of the as-formed networks in terms of order and extension.
The aim of our review is thus to provide an extensive description
of all tools and strategies reported to date and to put them into
perspective. We specifically define the different approaches available
and group them into a few general categories. In the last part, we
demonstrate the effective maturation of the on-surface synthesis field
by reporting systems that are getting closer to application-relevant
levels thanks to the use of advanced control strategies.
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