Formation and Study of Nanostructured M-Monolayers and LS-Films of Triphenylcorrole

Abstract: An experimental and theoretical study of 5,10,15-triphenylcorrole (H 3 [(ms-Ph) 3 Cor]) nano-structured floating layers (M-layers) [(ms-Ph) 3 Cor] на твердых подложках и изучены их спек-тральные характеристики.Ключевые слова: Плавающие монослои, 2D наноструктуры, М-наноагрегаты, модель М-монослоя, ЛШ-пленки, коррол.

“…It was shown earlier that metal free 5,10,15-triphenylcorrole in floating at the air-water interface layers and in LS films forms stable nanostructures of different types. [53,[63][64]66] In this work, the structure and properties of floating layers of copper 5,10,15-triphenylcorrole at the air-water interface in a wide range of initial surface coverage degrees (c face /c edge from 4/2.5 % to 93/58 %, Figure 2) were studied.…”

An Influence of Copper Cation in the Complex on Structure of the Nanostructured Layers, Spectral and Electrocatalytic Characteristics of Langmuir-Schaeffer Films of Triphenylcorrole

“…It was shown earlier that metal free 5,10,15-triphenylcorrole in floating at the air-water interface layers and in LS films forms stable nanostructures of different types. [53,[63][64]66] In this work, the structure and properties of floating layers of copper 5,10,15-triphenylcorrole at the air-water interface in a wide range of initial surface coverage degrees (c face /c edge from 4/2.5 % to 93/58 %, Figure 2) were studied.…”

An Influence of Copper Cation in the Complex on Structure of the Nanostructured Layers, Spectral and Electrocatalytic Characteristics of Langmuir-Schaeffer Films of Triphenylcorrole

“…Note, that constants characterizing monolayer at a lower compression speed (v=2.3 cm 2 •min -1 ) are: (n) max =45, (D aggr ) const =11 nm, (c i-aggr ) const =75 %. [45] Thus, as compression speed of the layer increases, the maximum number of molecules It is shown that an increase in the compression rate leads to a decrease in the area per molecule in the aggregate (Figures 3a, 4) and a shift of the boundaries between layers of different types towards a lower degree of surface coverage (Δc face =1.9 % for face-on monolayers, Δc face =15.1 % for edge-on monolayers and Δc face =43.2 % for bilayer). At a high compression speed less stable layers with more dense nanoaggregates are formed.…”

“…[36,44] It was also shown that corroles at the air-water interface form nanostructured floating mono-and multilayers. [45,46] The effect of the initial surface coverage on the structure of the floating layers of 5,10,15-triphenylcorrol (H 3 [(ms-Ph) 3 Cor]) [45,46] and effect of temperature of subphase on the layers of (7,13-dimethyl-2,3,8,12,17,18-hexamethylcorrolato)manganese(III) [48] was demonstrated. It was revealed that triphenylcorrole is able to form J-aggregates in thin films.…”

“…It was revealed that triphenylcorrole is able to form J-aggregates in thin films. [45,[49][50][51] The formation of floating layers was carried out in quasi-stationary conditions (compression speed was 2.3 cm 2 •min -1 ). It is known that the compression speed influences on the process of formation of floating layers of organic compounds.…”

Compression Speed as a Parameter Changing the Dimensionality of Corrole Nanostructures in Layers at the Air-Water Interface

“…Nowadays, nanostructures of numerous biomolecules having different properties from those of the parent molecules and with great potential for various applications have been reported. , Self-assembly is a key player in material nanoarchitectonics, − the nanostructures formed in this way arising from molecules carrying side groups that promote the process. Supramolecular polymers have been created using diverse self-assembly strategies. , The formation of different kinds of molecular assemblies from precursor compounds at the water surface has been reported. , We previously demonstrated the possibility of supramolecular design at the air–water interface by controlling the self-assembly of tetrapyrrole compounds into 2D and 3D nanostructures. − The concept of nanostructuring of organic compounds at the air–water interface and a model of a floating layer, the structural units of which can be both individual molecules (Langmuir’s approach, special case) and their major nanostructures (so-called M-nanostructures, general case), were presented. − The formation of the porphyrin supermolecules from magnesium porphine, a functional element of chlorophyll, was reported …”

High Reactivity of Supermolecular Nanoentities of a Vitamin B₁₂ Derivative in Langmuir–Schaefer Films Toward Gaseous Toxins