Understanding odd− even effects in organic self-assembled monolayers
Odd-even effects on structure and property is a widely observed phenomenon in chemistry,
physics, biology, and materials sciences. In general, it describes an alternative alteration of …
physics, biology, and materials sciences. In general, it describes an alternative alteration of …
Molecular packing and symmetry of two-dimensional crystals
Periodic arrangements on surfaces resulting from monolayer formation are critical in
determining the electronic structure of thin films, the adhesion of surface coatings, the …
determining the electronic structure of thin films, the adhesion of surface coatings, the …
Two-dimensional porous molecular networks of dehydrobenzo [12] annulene derivatives via alkyl chain interdigitation
K Tahara, S Furukawa, H Uji-i, T Uchino… - Journal of the …, 2006 - ACS Publications
The self-assembly of a series of hexadehydrotribenzo [12] annulene (DBA) derivatives has
been scrutinized by scanning tunneling microscopy (STM) at the liquid− solid interface. First …
been scrutinized by scanning tunneling microscopy (STM) at the liquid− solid interface. First …
Supramolecular surface-confined architectures created by self-assembly of triangular phenylene–ethynylene macrocycles via van der Waals interaction
K Tahara, S Lei, J Adisoejoso, S De Feyter… - Chemical …, 2010 - pubs.rsc.org
At the liquid/graphite interface triangular and rhombic phenylene–ethynylene macrocycles
substituted by alkyl chains self-assemble to form porous two-dimensional (2D) molecular …
substituted by alkyl chains self-assemble to form porous two-dimensional (2D) molecular …
Deciphering the effects of molecular dipole moments on the photovoltaic performance of organic solar cells
The dielectronic constant of organic semiconductor materials is directly related to its
molecule dipole moment, which can be used to guide the design of high‐performance …
molecule dipole moment, which can be used to guide the design of high‐performance …
Kinetics and thermodynamics in surface-confined molecular self-assembly
Two-dimensional molecular self-assembly at the liquid/solid interface is a widely employed
approach in surface science to pattern surfaces at the nanometre scale. A multitude of …
approach in surface science to pattern surfaces at the nanometre scale. A multitude of …
Kinetic and thermodynamic processes of organic species at the solution–solid interface: the view through an STM
A focused review is presented on the evolution of our understanding of the kinetic and
thermodynamic factors that play a critical role in the formation of well ordered organic …
thermodynamic factors that play a critical role in the formation of well ordered organic …
Tailoring bicomponent supramolecular nanoporous networks: phase segregation, polymorphism, and glasses at the solid− liquid interface
We study the formation of four supramolecular bicomponent networks based on four linear
modules (linkers) bridging melamine via triple hydrogen-bonds. We explore at the …
modules (linkers) bridging melamine via triple hydrogen-bonds. We explore at the …
Crystal engineering in two dimensions: an approach to molecular nanopatterning
KG Nath, O Ivasenko, JM MacLeod… - The Journal of …, 2007 - ACS Publications
We describe a surprising cooperative adsorption process observed by scanning tunneling
microscopy (STM) at the liquid− solid interface. The process involves the association of a …
microscopy (STM) at the liquid− solid interface. The process involves the association of a …
Nonideal electrochemical behavior of ferrocenyl–alkanethiolate SAMs maps the microenvironment of the redox unit
N Nerngchamnong, D Thompson, L Cao… - The Journal of …, 2015 - ACS Publications
We studied the electrochemical behavior of self-assembled monolayers (SAMs) of n-
alkanethiolates with ferrocenyl (Fc) termini on gold (S (CH2) n Fc, n= 0–15) in relation to …
alkanethiolates with ferrocenyl (Fc) termini on gold (S (CH2) n Fc, n= 0–15) in relation to …