Self-assembly of nanoparticles in the microvolume of colloidal solution: Physics, modeling, and experiment

Лебедев-Степанов, П. В.; Kadushnikov, R. M.; Molchanov, S. P.; Ivanov, A. A.; Mitrokhin, V. P.; Vlasov, K. O.; Rubin, N. I.; Yurasik, G. A.; Nazarov, V. G.; Алфимов, М. В.

doi:10.1134/s1995078013020110

Cited by 31 publications

(8 citation statements)

References 46 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…В ОГРАНИЧЕННОМ ОБЪЕМЕ Основные типы самоорганизованных структур рассмотрены в работах С. Е. Кушнира и П. В. Лебедева-Степанова [2,3]. Самооргнизованная система является открытой, то есть происходит обмен энергией (в том числе, возможно, и веществом) с окружающей средой; поведение системы на макроуровне может быть описано управляющими параметрами и параметром порядка, определяющими поступление энергии в систему извне; существует критическое значение управляющих параметров, при которых система спонтанно переходит в упорядоченное состояние, обусловленное согласованным действием элементов системы.…”

Section: самоорганизованные структурыunclassified

“…Процесс самоорганизации особенно важен при формировании наноструктурированных композитных и гибридных материалов [1,2]. Локальные взаимодействия нанокомпонентов в активной среде при контролируемых начальных условиях открывают новые возможности формирования иерархически-связанных структур [3]. Г. Хакен рассматривал самоорганизацию как упорядочение в открытой системе, которое связано с согласованным взаимодействием большого числа элементов ее составляющих [4].…”

Section: Introductionunclassified

See 1 more Smart Citation

Капельный Реактор В Нанотехнологиях

Zhukalin¹

2018

kcmf

View full text Add to dashboard Cite

Структурная эволюция высыхающих капель коллоидных растворов представля-ет собой комплекс сложных физико-химических и механических процессов, объединяемыхпонятием дегидратационная самоорганизация. Высыхающая капля рассматривается как нано-реактор с постоянно меняющимися параметрами: концентрация, радиус кривизны, поверх-ностное натяжение, температура. Наряду с биологической и медицинской диагностикой, са-мосборкой наночастиц и другими применениями, «капельный нанореактор» представляетбольшой интерес при синтезе наноструктурированных композитных и гибридных материа-лов.

show abstract

Section: самоорганизованные структурыunclassified

Section: Introductionunclassified

Капельный Реактор В Нанотехнологиях

Zhukalin¹

2018

kcmf

View full text Add to dashboard Cite

show abstract

“…For details about this subject matter, refer to review papers. For example, dynamics and evolution of thin liquid films [52,53], spreading of surfactants at thin liquid films [54], structural evolution of drying droplets of biological liquids [55,56], condensation and coalescence of droplets [57], wetting and spreading effects [58,59,60], modelling dewetting of evaporating thin films of nanoparticle suspensions [61], nanostructures at boundaries of drying droplets and films [62], organized structures of particles on substrate [63,64,65,9,66,67], inkjet-printed photonic crystal structures [13], evaporation of thin films of colloidal solutions [68], self-assembly of 3D structures of nano-and microparticles [69], hydrothermal waves in evaporating sessile droplets and effect of substrate properties [70], structures of particles appearing at moving contact line [71], mass transport in evaporating droplets [72,9,73], stain geometry during evaporation of surfactant solution [74], evaporation of nanoparticleladen droplets [75], control of Marangoni convection in liquid films [76], hydrodynamics in thin liquid films [77], properties and applications of liquid marbles (droplets wrapped by microand nanoparticles) [78], heat and mass transfer near liquid-gas interface on heated substrates [79], methods for self-assembly of monolayers of colloidal particles [80], mitigating, suppression, and use of coffee-ring effect [43,81], wetting and evaporation effects [82], deposits appearing at substrate after drying of multicomponent droplet...…”

Section: Introductionmentioning

confidence: 99%

Applying Droplets and Films in Evaporative Lithography

Kolegov,

Barash

2020

Preprint

View full text Add to dashboard Cite

The review covers experimental results of evaporative lithography and analyzes existing mathematical models of this method. Evaporating droplets and films are applied in different fields, such as cooling of heated surfaces of electronic devices, diagnostics in health care, creation of transparent conductive coatings on flexible substrates, surface patterning. A method called evaporative lithography emerged after establishing the connection between the coffee ring effect taking place in drying colloidal droplets, and naturally occuring inhomogeneous vapor flow densities from fluid-vapor interfaces. Essential control of the colloidal particle deposit patterns is achieved in this method by producing ambient conditions that induce a nonuniform evaporation profile from the colloidal liquid surface. Evaporative lithography is part of a wider field, which is known as "Evaporative-induced self-assembly" (EISA). EISA involves methods based on the contact line processes, methods employing particle interaction effects and evaporative lithography. As a rule, evaporative lithography is a flexible and single-stage process with such advantages as simplicity, low price and possibility of application to almost any substrate without pretreatment. Since no mechanical impact on a template is present in evaporative lithography, the template integrity is preserved in the process. The method is also useful for creating materials with localized functions, such as slipperiness and self-healing. For these reasons, evaporative lithography attracts increasing attention and has a number of noticeable achievements at present. We also analyze limitations of the approach and ways of its further development.

show abstract

“…Molecules of plant origin have such characteristics that determine their photostability and thermal stability, these characteristics are a guarantee of their use in pharmaceuticals and medicine. In [7][8][9], the results of a research on the study of photochemical processes occurring in solutions Some medications are water-soluble, which allows them to be prepared on the basis of various drugs used in pharmaceuticals [10,11] in the form of their concentrated aqueous solutions [12,13].…”

Section: Introductionmentioning

confidence: 99%

Optical Systems for Removal of Polarization Spectra

Astanov¹

2019

Eurasian phys. tech. j.

View full text Add to dashboard Cite

In the article optical systems are presented that are developed by the authors and have been used for many years to remove the polarization properties of anisotropic molecules. Both systems are designed for visible and close to ultraviolet spectral regions. In this case, the double Fresnel parallelepiped plays the role of an achromatic quarter of the wave plate. They are used in the Jasco-20 dichrograph after the Pockels cell. As a result, the sensitivity of the device increases from to of the value of the differences in optical density.

show abstract

Self-assembly of nanoparticles in the microvolume of colloidal solution: Physics, modeling, and experiment

Cited by 31 publications

References 46 publications

Капельный Реактор В Нанотехнологиях

Капельный Реактор В Нанотехнологиях

Applying Droplets and Films in Evaporative Lithography

Optical Systems for Removal of Polarization Spectra

Contact Info

Product

Resources

About