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RU2018101471A - Композитное покрытие на основе углеродных нанотрубок и способ его получения - Google Patents

Композитное покрытие на основе углеродных нанотрубок и способ его получения Download PDF

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RU2018101471A
RU2018101471A RU2018101471A RU2018101471A RU2018101471A RU 2018101471 A RU2018101471 A RU 2018101471A RU 2018101471 A RU2018101471 A RU 2018101471A RU 2018101471 A RU2018101471 A RU 2018101471A RU 2018101471 A RU2018101471 A RU 2018101471A
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Науфаль БАЛАВАН
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Люксембург Инститьют Оф Сайенс Энд Текнолоджи (Лист)
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Claims (23)

1. Композитное покрытие на основе углеродных нанотрубок (УНТ), содержащее слой углеродных нанотрубок, отличающееся тем, что углеродные нанотрубки содержат металлоксидные оболочки, покрывающие углеродные нанотрубки.
2. Композитное покрытие на основе углеродных нанотрубок по п. 1, где углеродные нанотрубки являются неориентированными.
3. Композитное покрытие на основе углеродных нанотрубок по п. 1 или 2, где углеродные нанотрубки имеют средний диаметр в диапазоне от 0,3 до 150 нм.
4. Композитное покрытие на основе углеродных нанотрубок по любому из пп. 1-3, где металлоксидные оболочки содержат или состоят из MgO.
5. Композитное покрытие на основе углеродных нанотрубок по любому из пп. 1-4, содержащее керамический защитный слой в виде слоя поверх указанных углеродных нанотрубок с покрытием и/или в виде заполнителя в указанном слое углеродных нанотрубок.
6. Композитное покрытие на основе углеродных нанотрубок по п. 5, где керамический защитный слой состоит из материала, отличного от материала указанных металлоксидных оболочек.
7. Композитное покрытие на основе углеродных нанотрубок по п. 5 или 6, где указанный керамический защитный слой состоит из материала, выбранного из группы, содержащей Al2O3, Si2O, Si3N4, MgF2, SiOxNx, AlN, AlNO, MgO, ZnO, SnO2, NiO, ZrO2, Cr2O3, MoO2, RuO2, CoOx, CuOx, VOx, FeOx, MnOx, TiO2, CaF2, BaF2, тройные и/или сложные оксиды, включающие один или более видов элементов из вышеуказанных, и их смеси.
8. Оптическое черное покрытие, содержащее композитное покрытие на основе углеродных нанотрубок по любому из пп. 1-7.
9. Способ получения углеродных нанотрубок с помощью химического осаждения из газовой фазы, включающий:
обеспечение в реакционной камере основы, имеющей на поверхности наночастицы металла и/или карбида металла, содержащие первый катализирующий рост УНТ металл, выбранный из группы, содержащей Fe, Со, Ni и их смеси;
введение неорганического, металлорганического или органометаллического прекурсора в реакционную камеру совместно с прекурсором УНТ, при этом неорганический, металлорганический или органометаллический прекурсор выбран для осаждения второго металла;
выращивание УНТ из прекурсора УНТ, при этом второй металл, полученный из неорганического, металлорганического или органометаллического прекурсора, усиливает катализирующую рост УНТ активность первого металла.
10. Способ по п. 9, где прекурсор УНТ включает углеводород, предпочтительно спирт.
11. Способ по п. 9 или 10, где второй металл образует с первым металлом фазу сплава или карбида, вызывающую усиление катализирующей рост УНТ активности.
12. Способ по любому из пп. 9-11, где рост УНТ проводят в температурном диапазоне от 300 до 600°С, предпочтительно в температурном диапазоне от 350°С до 500°С, даже более предпочтительно в диапазоне от 350 до 450°С.
13. Способ по п. 12, где рост УНТ не индуцирован ни плазмой, ни излучением.
14. Способ по любому из пп. 9-13, где второй металл образует металлоксидную оболочку, покрывающую УНТ.
15. Способ по любому из пп. 9-14, где второй металл представляет собой Mg.
16. Способ по любому из пп. 9-14, включающий осаждение керамического защитного слоя поверх УНТ.
17. Способ по п. 16, где защитный слой состоит из материала, выбранного из группы, содержащей Al2O3, Si2O, Si3N4, SiOxNx, AlN, AlNO, MgO, ZnO, SnO2, NiO, ZrO2, Cr2O3, MoO2, RuO2, CoOx, CuOx, VOx, FeOx, MnOx, TiO2, CaF2, BaF2, MgF2, тройные и/или сложные оксиды, включающие один или более видов элементов из вышеуказанных, и их смеси.
18. Способ по любому из пп. 9-17, где наночастицы металла и/или карбида металла осаждают из металлорганического или органометаллического прекурсора первого металла.
19. Способ по любому из пп. 9-18, где химическое осаждение из газовой фазы включает химическое осаждение из газовой фазы с испарением импульсным распылением, при этом наночастицы металла и/или карбида металла осаждают из раствора первого прекурсора, содержащего металлорганический или органометаллический прекурсор первого металла, растворенный в растворителе, второй металл осаждают из раствора второго прекурсора, содержащего металлорганический или органометаллический прекурсор, выбранный для осаждения второго металла, растворенный в спирте, служащем в качестве прекурсора УНТ.
20. Способ по п. 19, где прекурсор первого металла содержит ацетилацетонат кобальта, и/или ацетилацетонат никеля, и/или ацетилацетонат железа, и где прекурсор, выбранный для осаждения второго металла, содержит ацетилацетонат магния.
RU2018101471A 2015-06-29 2016-06-28 Композитное покрытие на основе углеродных нанотрубок и способ его получения RU2727604C2 (ru)

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LU92758B1 (en) 2015-06-29 2016-12-30 Luxembourg Inst Of Science And Tech (List) Carbon-nanotube-based composite coating and production method thereof
DE102017206386A1 (de) * 2017-04-13 2018-10-18 Robert Bosch Gmbh Verfahren zum Schutz einer MEMS-Einheit vor Infrarot-Untersuchungen sowie MEMS-Einheit
CN110031107B (zh) * 2018-01-11 2022-08-16 清华大学 黑体辐射源及黑体辐射源的制备方法
CN110031116A (zh) * 2018-01-11 2019-07-19 清华大学 腔式黑体辐射源
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CN110031104A (zh) * 2018-01-11 2019-07-19 清华大学 面源黑体
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