Principles of molecular assemblies leading to molecular nanostructures

Mali, Kunal S.; Feyter, Steven De

doi:10.1098/rsta.2012.0304

Cited by 34 publications

(35 citation statements)

References 70 publications

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“…The estimation of the ''dewetting'' term is the most difficult. 1,2,20,25 In some cases, these polymorphs can be traced to differing amounts of coadsorption of solvent. Thus, the heats of wetting for the solvent on the substrate are overestimates of the net result of the multistep step ''dewetting''.…”

Section: Measurement or Calculation Of Thermodynamic Functions For Momentioning

confidence: 99%

“…[1][2][3][4][5][6] To date, most variable temperature and composition STM studies at the solid-solution interface have been performed with home made or commercial instruments using heated (only) samples. Molecular self-assembly from solution onto surfaces is widely embraced as a strategy for creating adlayers with desirable electronic, photonic, and chemical properties.…”

Section: Introductionmentioning

confidence: 99%

“…Thus, STM has become the primary tool for analyzing structure, monitoring the time dependence of processes, and extracting thermodynamic data from systems where the critical action occurs at the nanoscale. [1][2][3][4][5][6] To date, most variable temperature and composition STM studies at the solid-solution interface have been performed with home made or commercial instruments using heated (only) samples. [7][8][9] Very recently an alternative configuration wherein the entire STM exists in a controlled environment has been demonstrated.…”

Section: Introductionmentioning

confidence: 99%

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Kinetic and thermodynamic processes of organic species at the solution–solid interface: the view through an STM

2015

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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 adlayers at the solution-solid interface. While the current state of knowledge is in the very early stages, it is now clear that assumptions of kinetic or thermodynamic control are dangerous and require careful confirmation. Equilibrium processes at the solution-solid interface are being described by evolving thermodynamic models that utilize concepts from the thermodynamics of micelles. A surface adsorption version of the Born-Haber cycle is helping to extract the thermodynamic functions of state associated with equilibrium structures, but only a very few systems have been so analyzed. The kinetics of surface phase transformation, especially for polymorphic phases is in an early qualitative stage. Adsorption and desorption kinetics are just starting to be measured. The study of kinetics and thermodynamics for organic self-assembly at the solution-solid interface is experiencing very exciting and rapid growth.

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Section: Measurement or Calculation Of Thermodynamic Functions For Momentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Kinetic and thermodynamic processes of organic species at the solution–solid interface: the view through an STM

2015

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“…11 This adsorption mechanism will define the chemical reactivity of the precursor molecules on a specific surface determining the properties and the structure of the final outcome. 12 To date, some studies have been already reported to demonstrate a different behavior of the same molecule adsorbed on different surfaces, highlighting the role of the surface in the process. Examples of this observed behavior are the cases of perylenetetracarboxylic dianhydride (PTCDA), benzene, and porphyrins, among others, in which different properties have been observed as a consequence of the different geometrical adsorptions.…”

Section: ■ Introductionmentioning

confidence: 99%

Role of the Metal Surface on the Room Temperature Activation of the Alcohol and Amino Groups of p-Aminophenol

et al. 2020

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We present a comparative study of the roomtemperature adsorption of p-aminophenol (p-AP) molecules on three metal surfaces, namely Cu(110), Cu(111), and Pt(111). We show that the chemical nature and the structural symmetry of the substrate control the activation of the terminal molecular groups, which result in different arrangements of the interfacial molecular layer. To this aim, we have used in situ STM images combined with synchrotron radiation high-resolution XPS and NEXAFS spectra, and the results were simulated by DFT calculations. On copper, the interaction between the molecules and the surface is weaker on the (111) surface crystal plane than on the (110) one, favoring molecular diffusion and leading to larger ordered domains. We demonstrate that the p-AP molecule undergoes spontaneous dehydrogenation of the alcohol group to form phenoxy species on all the studied surfaces; however, this process is not complete on the less reactive surface, Cu(111). The Pt(111) surface exhibits stronger molecule−surface interaction, inducing a short-range ordered molecular arrangement that increases over time. In addition, on the highly reactive Pt(111) surface other chemical processes are evidenced, such as the dehydrogenation of the amine group.

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“…The challenging stage for the drop-casting production of chiral solid films is surely the identification of the proper solvent to use for the stock solution. As reported in the literature, the nature of the solvent used is extremely relevant to define the structures that the layers adopt and the overall chirality (Iavicoli et al, 2009;Chen et al, 2019), since both derive from a combination of the interaction strength of the molecules with the surface and their solubility (Zaera 2009;Mali and De Feyter, 2013). Moreover, solvent parameters like viscosity, surface tension, and vapor pressure strictly impact the film adhesion to the substrate and the evaporation rate, producing layers featuring different structural motifs and homogeneity (Resedean et al, 2020).…”

Section: Evaluation Of the Solvent Effect On The Chirality Of The Filmmentioning

confidence: 99%

Seeding Chiral Ensembles of Prolinated Porphyrin Derivatives on Glass Surface: Simple and Rapid Access to Chiral Porphyrin Films

et al. 2022

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An easy and fast method to achieve chiral porphyrin films on glass is herein reported. The on-surface formation of organized supramolecular architectures with distinctive and remarkable chiroptical features strictly depends on the macrocycles used, the solvent chosen for the casting deposition, and most importantly, on the roughness of the glass slide. Dynamic light scattering studies performed on 10−4–10−6 M porphyrin solutions revealed the presence of small porphyrin aggregates, whose size and number increase depending on the initial concentration. Once transferred on surface, these protoaggregates act as nucleation seeds for the following, self-assembling into larger structures upon solvent evaporation, with a process driven by a fine balance between intermolecular and molecule–substrate interactions. The described method represents a straightforward way to fabricate porphyrin-based chiral surfaces onto a transparent and economic substrate in few minutes. The results obtained can be particularly promising for the development of sensors based on stereoselective optical active films, targeting the detection of chiral analytes of practical relevance, such as the so-called emerging pollutants released in the environment from agrochemical, food, and pharmaceutical manufacturing.

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Principles of molecular assemblies leading to molecular nanostructures

Cited by 34 publications

References 70 publications

Kinetic and thermodynamic processes of organic species at the solution–solid interface: the view through an STM

Kinetic and thermodynamic processes of organic species at the solution–solid interface: the view through an STM

Role of the Metal Surface on the Room Temperature Activation of the Alcohol and Amino Groups of p-Aminophenol

Seeding Chiral Ensembles of Prolinated Porphyrin Derivatives on Glass Surface: Simple and Rapid Access to Chiral Porphyrin Films

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