Add to ORKGMolecular structures are known to significantly impact the adsorption and assembling behavior of the adsorbates on surfaces. Precise control of the molecular orientation and ordering will enable us to tailor the physical and chemical properties of the molecular architectures. In this work, we present a strategy of attaching functional groups with dissimilar adsorption and assembling characteristics to the top and bottom phthalocyaninato moieties of a triple-decker complex, and orientational-dependent ordering of such molecules at the liquid/solid interface has been identified, which is attributed to the interaction of the intrinsic molecular dipole with the external electric field. In addition, isomerization of the noncentrosymmetric tris(p...
Although an isolated individual molecule clearly has only one ionization potential, multiple values ...
While forming layer-by-layer (LbL) electrostatic assembly of a magnetic organic molecule, namely, ni...
For organic and hybrid electronic devices, the physicochemical properties of the contained interface...
Ongoing efforts to improve the efficiency of organic photovoltaic cells emphasize the significance o...
Organic semiconductor interfaces are promising materials for use in next-generation electronic and o...
Ultrathin organized films of organic electronic materials, such as phthalocyanines (Pc), are promisi...
Molecular orientation-controlled charge transfer has been observed at the organic-organic heterojunc...
Our interest in controlling the supramolecular architecture of highly symmetric dyes, which are modi...
This dissertation has focused on (i) the characterization and optimization of the near-surface regio...
The metal/organic interface between noble metal close-packed (111) surfaces and organic semiconducti...
The future success of organic electronic devices strongly depends on the ability to tailor the prope...
The design of organic electronic devices is heavily dependent upon the orientation of the molecular ...
The production of ordered thin films of organic monolayers is of general interest to the surface sci...
This dissertation explores the characterization of new phthalocyanine materials, and the processabil...
Organic materials are frequently used in electronic devices due to their flexibility and the possibi...
Although an isolated individual molecule clearly has only one ionization potential, multiple values ...
While forming layer-by-layer (LbL) electrostatic assembly of a magnetic organic molecule, namely, ni...
For organic and hybrid electronic devices, the physicochemical properties of the contained interface...
Ongoing efforts to improve the efficiency of organic photovoltaic cells emphasize the significance o...
Organic semiconductor interfaces are promising materials for use in next-generation electronic and o...
Ultrathin organized films of organic electronic materials, such as phthalocyanines (Pc), are promisi...
Molecular orientation-controlled charge transfer has been observed at the organic-organic heterojunc...
Our interest in controlling the supramolecular architecture of highly symmetric dyes, which are modi...
This dissertation has focused on (i) the characterization and optimization of the near-surface regio...
The metal/organic interface between noble metal close-packed (111) surfaces and organic semiconducti...
The future success of organic electronic devices strongly depends on the ability to tailor the prope...
The design of organic electronic devices is heavily dependent upon the orientation of the molecular ...
The production of ordered thin films of organic monolayers is of general interest to the surface sci...
This dissertation explores the characterization of new phthalocyanine materials, and the processabil...
Organic materials are frequently used in electronic devices due to their flexibility and the possibi...
Although an isolated individual molecule clearly has only one ionization potential, multiple values ...
While forming layer-by-layer (LbL) electrostatic assembly of a magnetic organic molecule, namely, ni...
For organic and hybrid electronic devices, the physicochemical properties of the contained interface...