Structure of Carbon Nanotubes in Colloidal Solutions under the Influence of a Constant Electric Field

Processes of self-organization in diffusive and limited conditions of colloidal solutions of carbon nanotubes under the influence of constant electric fields are studied. It is established that functionalized MCNT – COOH in a drop of colloidal solution is oriented in an electric field in a controllable way, which is of great practical value

Structure of Carbon Nanotubes in Colloidal Solutions under the Influence of a Constant Electric Field

Processes of self-organization in diffusive and limited conditions of colloidal solutions of carbon nanotubes under the influence of constant electric fields are studied. It is established that functionalized MCNT – COOH in a drop of colloidal solution is oriented in an electric field in a controllable way, which is of great practical value

Self-assembly and Self-organization Processes of Carbon Nanotubes in the Colloidal Systems

The features and patterns of self-organization processes in the diffusion-limited conditions (method of drops) of carbon-containing compounds and carbon nanotubes have been studied. The results of the research influence of the substrate temperature and solvent on the formation of nanoscale fractal structures in sediments of colloidal solutions are provided

Self-assembly and Self-organization Processes of Carbon Nanotubes in the Colloidal Systems

The features and patterns of self-organization processes in the diffusion-limited conditions (method of drops) of carbon-containing compounds and carbon nanotubes have been studied. The results of the research influence of the substrate temperature and solvent on the formation of nanoscale fractal structures in sediments of colloidal solutions are provided

Образование иерархических структур из функционализированных многостенных углеродных нанотрубок в растворе с аэросилом

The features and  regularities of self−assembly and  self− organization processes in the diffusion−limited conditions (method of drops) of aqueous (deionized water) colloidal solutions of multi−walled carbon nanotubes with aerosil under the influence of constant electric fields with a value varying of direct  current voltage  from 15 to 25 V have been studied. During droplet evaporation in an electric field, the processes of hierarchical structuring have been studied and the formation of linear piecewise with the sizes of 40—120 nm, fractal structures 25—45 nm and  diffusion structures 250 nm from MWCNT — COOH + aerosil  + H2ODI  have  been observed. These structures have  been analyzed by methods of confocal microscopy, X−ray powder diffraction, Raman scattering, atomic force microscopy, FT−IR spectroscopy and scanning electron microscopy. The size of micro− and nanostructures in hyperbolic dependence of d = 1/U in the  approximation d → 2R, and their growth rate  increases as U2 have been observed. Intensive ultrasonic dispersion proves to produce a centrally−axial arrangement located SWCNT after ultrasonic dispersing of functionalized MWCNT — COOH + aerosil  + H2ODI colloidal solution, as confirmed by excitation of Raman lines in the low−wavelength region, the so−called breathing mode, resulting in the existence of mixed types sp2−hybridization with π− and σ−carbon bonds, as well as metallic and semiconducting conductivity, which indicates great practical importance of this structuring for the development of nanoelectronics. Изучены особенности и закономерности процессов самосборки и самоорганизации в диффузионно−ограниченных условиях (методом из капли) водных (деионизированная вода)  коллоидных растворов многостенных углеродных нанотрубок (МУНТ) с аэросилом под воздействием постоянных электрических полей, варьируемых по величине от 15 до 25 В. В ходе испарения капли в однородном электрическом поле изучены процессы иерархического структурирования и обнаружено формирование линейно−кусочных образований размером 40—120 нм, фрактальных структур — 25—45 нм, а также диффузных структур — 250 нм из «МУНТ — COOH + аэросил + H2Oд.в». Проведены исследования структур методами конфокальной микроскопии, рентгеновской дифрактометрии, спектроскопии комбинационного рассеяния, атомно−силовой микроскопии, ИК−спектроскопии и сканирующей электронной микроскопии. Установлено,  что размеры наблюдаемых микро− и наноструктур уменьшаются по гиперболической зависимости d = 1/U в приближении d  → 2R, а скорость их роста возрастает как U2. Доказано, что интенсивное ультразвуковое диспергирование функционализированных «МУНТ — COOH + аэросил + H2Oд.в» в коллоидном растворе вызывает появление внутри одностенных углеродных нанотрубок с центрально−осевым расположением так называемых дыхательных мод. Это подтверждается возбуждением линий КРС в коротковолновой области, и обусловливает как существование смешанных типов sp2−гибридизации с π− и σ−углеродными связями, так и металлической и полупроводниковой проводимостей, что указывает на большое практическое значение такого структурирования для развития наноэлектроники

Formation of hierarchical structures from functionalized multi-walled carbon nanotubes in aerosil containing solutions

Specific features and regularities of self-assembly and self-organization of multi-walled carbon nanotubes (MWCNT) have been studied for diffusion-limited conditions (method of drops) in water-based (deionized water) colloidalal solutions with aerosil exposed to DC electric fields with magnitudes of 15 to 25 V. Studies of hierarchical structure formation during drop evaporation in uniform electric fields have revealed the formation of 40–120 nm sized linear piecewise formations, 25–45 nm sized fractal structures and 250 nm sized diffuse structures from MWCNT – COOH + aerosil + H2Odw. The structures have been studied using confocal microscopy, X-ray diffraction, Raman scattering, atomic force microscopy, IR spectroscopy and scanning electron microscopy. The sizes of the observed micro- and nanostructures decrease following the hyperbolic law d = 1/U in the approximation d → 2R, their growth rate increasing as U2. We show that intense ultrasonication of functionalized MWCNT – COOH + aerosil + H2Odw in colloidal solutions causes the formation of the so-called “breathing" modes in axis centered single-walled carbon nanotubes. This is confirmed by short-wave Raman scattering excitation and enables the existence of both combined sp2-hybridization types with π- and σ- carbon bonds and the metallic and semiconductor conductivity types in the material thus showing good promise of these structures for nanoelectronics

Inadequate knowledge about snakebite envenoming symptoms and application of harmful first aid methods in the community in high snakebite incidence areas of Myanmar.

INTRODUCTION:Every year millions of people in developing countries suffer from snakebite, causing a large number of deaths and long term complications. Prevention and appropriate first aid could reduce the incidence and improve the health outcomes for those who suffer bites. However, many communities where snakebite is a major issue suffer from a lack of information about prevention and first aid measures that a family or community member could take to prevent severe envenoming, complications and poor outcomes. Myanmar suffers from a high burden of snakebites with a large number of deaths. As part of a health services and community development program, a community survey was conducted to identify communities' knowledge about snakebite and their sequelae, and knowledge and practice about first aid and health services use. METHOD:4,276 rural residents of Kyaukse and Madaya townships in the Mandalay region were recruited by cluster sampling, involving random selection of 144 villages and random sampling of 30 households from each village. One adult member of each household was interviewed using a structured questionnaire. RESULTS:The incidence of snakebite was 116/100,000 people. Respondents reported 15 different types of snakes in the area, with Russell's Viper, Cobra and Green snakes as the most common. 88% of the people informed that working in the fields and forests was when most of the bites occur. A majority knew about snakebite prevention methods such as wearing long boots. However, only a few people knew about the specific symptoms caused by snakebites. Only 39% knew about the correct methods of first aid. More than 60% mentioned tourniquet as a first aid method, though this may cause significant complications such as ischaemia of the limb. 88% said that they would take a snakebite victim to a government hospital, and 58% mentioned availability of antivenom as the reason for doing this. At the same time, the majority mentioned that traditional methods existed for first aid and treatment and 25% mentioned at least one harmful traditional method as an effective measure that they might use. CONCLUSION:The community is aware of snakebites as a major public health issue and know how to prevent them. However, the high incidence of snakebites point to lack of application of preventive methods. The community recognise the need for treatment with antivenom. However, inadequate knowledge about appropriate first aid methods, and a reliance on using tourniquets require a targeted education program. Existing knowledge in communities, albeit insufficient, provides a good starting point for mass media educational campaigns