S. I. Pozin scite author profile

Polymorphic J-aggregates of monomethine cyanine dye 3,3'-di(γ-sulfopropyl)-5,5'-dichlorotiamonomethinecyanine (TC) have been studied by fluorescence optical microscopy (FOM) and by atomic force microscopy (AFM). The in situ FOM observations in a solution drop distinguish two J-aggregate morphology classes: flexible strips and rigid rods. The AFM imaging of dried samples reveals a strong J-aggregate structural rearrangement under adsorption on a mica surface with the strips self-folding and the rods squashing into rectangular bilayers and much deeper destruction. In the present work, the following structural conclusions have been drawn on the basis of careful consideration of strip crystal habits and various structural features of squashed/destructed rods: (1) the tubular morphology of TC rods is directly proved by FOM measurements in the solution bulk; (2) the staircase model of molecular arrangement in strips is proposed explaining the characteristic ∼44° skew angle in strip vertices; (3) a model of tube formation by a close-packed helical winding of flexible monolayer strips is proposed and justified which explains the observed J-aggregate polymorphism and strip-to-rod polymorphic transformations in a wide spatiotemporal scale; (4) at a nanoscale, an unexpectedly complex quasi-one-dimensional organization in J-aggregate two-dimensional monolayers is observed by high-resolution AFM imaging of constituent nanostrips separated by a characteristic distance in the range of 6-10 nm. The obtained results indicate that the underlying monolayer structure is the same for all J-aggregate polymorphs.

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Molecular Arrangements in Two-Dimensional J-Aggregate Monolayers of Cyanine Dyes

Прохоров¹,

Pozin²,

Lypenko³

et al. 2012

MHC

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Atomic force microscopy was used for the study of two-dimensional J-aggregates monolayer structures of two cyanine dyes with a high-resolution. Two coexisting morphologically different types (i.e. the bilayer rectangular stripes and monolayer curve shaped leaves) were observed for 3,3'-di(γ-sulfopropyl)-4,4',5,5'-dibenzo-9-ethylthiacarbocyanine betaine pyridinium (dye D-1 (пиридиниевая соль 3,3'-ди(γ-сульфопропил)-4,4',5,5'-дибензо-9-этилтиокарбоцианин бетаина, D-1Two-Dimensional J-Aggregate Monolayers of Cyanine Dyes J-агрегатах второго красителя (5,5'-дихлоро-3,3'-дисульфопропилтиацианинат натрия, D-2)

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Synthesis and optical properties of novel unsymmetrically substituted benzothiadiazole-based luminophores

Gribanov

Lypenko

Dmitriev

et al. 2021

Mendeleev Communications

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S. I. Pozin

Molecular arrangements in polymorphous monolayer structures of carbocyanine dye J-aggregates

High precision nanoscale AFM height measurements of J-aggregates

Polymorphism of Two-Dimensional Cyanine Dye J-Aggregates and Its Genesis: Fluorescence Microscopy and Atomic Force Microscopy Study

Molecular Arrangements in Two-Dimensional J-Aggregate Monolayers of Cyanine Dyes

Synthesis and optical properties of novel unsymmetrically substituted benzothiadiazole-based luminophores

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