Tailoring Electro/Optical Properties of Transparent Boron-Doped Carbon Nanowalls Grown on Quartz - Publikacja - MOST Wiedzy

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Tailoring Electro/Optical Properties of Transparent Boron-Doped Carbon Nanowalls Grown on Quartz

Abstrakt

Carbon nanowalls (CNWs) have attracted much attention for numerous applications in electrical devices because of their peculiar structural characteristics. However, it is possible to set synthesis parameters to vary the electrical and optical properties of such CNWs. In this paper, we demonstrate the direct growth of highly transparent boron-doped nanowalls (B-CNWs) on optical grade fused quartz. The effect of growth temperature and boron doping on the behavior of boron-doped carbon nanowalls grown on quartz was studied in particular. Temperature and boron inclusion doping level allow for direct tuning of CNW morphology. It is possible to operate with both parameters to obtain a transparent and conductive film; however, boron doping is a preferred factor to maintain the transparency in the visible region, while a higher growth temperature is more effective to improve conductance. Light transmittance and electrical conductivity are mainly influenced by growth temperature and then by boron doping. Tailoring B-CNWs has important implications for potential applications of such electrically conductive transparent electrodes designed for energy conversion and storage devices.

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Informacje szczegółowe

Kategoria:
Publikacja w czasopiśmie
Typ:
artykuł w czasopiśmie wyróżnionym w JCR
Opublikowano w:
Materials nr 12, strony 1 - 13,
ISSN: 1996-1944
Język:
angielski
Rok wydania:
2019
Opis bibliograficzny:
Pierpaoli M., Ficek M., Rycewicz M., Sawczak M., Karczewski J., Ruello M., Bogdanowicz R.: Tailoring Electro/Optical Properties of Transparent Boron-Doped Carbon Nanowalls Grown on Quartz// Materials. -Vol. 12, iss. 3 (2019), s.1-13
DOI:
Cyfrowy identyfikator dokumentu elektronicznego (otwiera się w nowej karcie) 10.3390/ma12030547
Źródła finansowania:
  • Działalność statusowa
  • The financial support received from the Polish National Science Centre (NCN) under grant nos. 2016/21/B/ST7/01430, 2016/22/E/ST7/00102, and 2014/14/M/ST5/00715. This work was partially supported by the Science for Peace Program of NATO (grant no. G5147).
Weryfikacja:
Politechnika Gdańska

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