Синтез и физико-химические свойства покрытий на основе углеродных наноструктур
Диссертация
Большой интерес представляет синтез и исследование высокопроводящих материалов, содержащих фуллерены и углеродные нанотрубки. В настоящее время исследования в электрохимии фуллеренов направлены на поиск принципов предотвращения растворения твердых материалов на основе фуллеренов при их катодном восстановлении. Эта практическая потребность является основной движущей силой соответствующих… Читать ещё >
Содержание
- Актуальность проблемы
- Цель работы
- Научная новизна работы
- Практическая значимость работы
- Апробация работы
- Объем и структура диссертации
- Глава 1. Литературный обзор
- 1. 1. Особенности строения фуллерена
- 1. 2. Электрохимия фуллеренов и их производных
- 1. 2. 1. Фуллерены и их производные
- 1. 2. 2. Пленки фуллеренов
- 1. 2. 3. Полимерные материалы на основе фуллеренов
- 1. 3. Электрохимия углеродных нанотрубок
- 1. 3. 1. Применение углеродных нанотрубок в литиевых ионных аккумуляторах
- 1. 3. 2. Электрохимические конденсаторы на основе углеродных нанотрубок
- 1. 3. 3. Накопление водорода
- 2. 1. Методика электроосаждения полимерных фуллереновых пленок и методика исследования их электрохимических свойств
- 2. 2. Способы приготовления фуллереновых пленок Сбо- Методика получения пленок Ленгмюра-Блоджетт на основе ферроцен-замещенного пирролидинового аддукта фуллерена Сборуг- Fc
- 2. 3. Методика исследования пористой структуры, электросорбционных и электрохимических свойств углеродных нанотрубок и графитовых нановолокон
- 2. 4. Методика получения композитных электродных материалов на основе ИК-пиролизованного полиакрилонитрила и углеродных компонент: фуллерены и многостенные углеродные нанотрубки
- 2. 5. Методика получения композитных электродных материалов на основе полимеров (полиацетилен и полианилин) и углеродных наполнителей графит и одностенные углеродные нанотрубки)
- 3. 1. Исследование электрохимического поведения мономерных и полимерных фуллереновых пленок
- 3. 1. 1. Электрохимическое поведение тонких Сбо пленок, полученных сублимацией Сбо на поверхности электрода
- 3. 1. 2. Электрохимическое поведение многослойных Сбо пленок, нанесенных на поверхность электродов методом полива-выпаривания
- 3. 2. Электроосаждение полимерных фуллереновых покрытий
- 3. 3. Создание электропроводящего слоистого углеродного материала
- 3. 4. Исследование структуры и электрохимических свойств полимерных фуллереновых пленок, полученных электровосстановлением Сбо
- 3. 5. Получение и редокс-свойства пленок Ленгмюра-Блоджетт Сборуг — Fc
6.1. Исследование электрохимических свойств полимерных композитных материалов на основе ИК-пиролизованного полиакрилонитрила (ИКПАН) и углеродных компонент: Сбо и многостенные углеродные нанотрубки (МНТ).
6.2. Электрофизические свойства композитов на основе полиацетилена (ПА), полианилина (ПАн) и одностенных углеродных нанотрубок (ОНТ).
Выводы.
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