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High Purity and Yield of Boron Nitride Nanotubes Using Amorphous Boron and a Nozzle-Type Reactor

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dc.contributor.authorKim, Jaewoo-
dc.contributor.authorSeo, Duckbong-
dc.contributor.authorYoo, Jeseung-
dc.contributor.authorJeong, Wanseop-
dc.contributor.authorSeo, Young-Soo-
dc.contributor.authorKim, Jaeyong-
dc.date.accessioned2022-07-07T05:27:09Z-
dc.date.available2022-07-07T05:27:09Z-
dc.date.issued2014-08-
dc.identifier.issn1996-1944-
dc.identifier.issn1996-1944-
dc.identifier.urihttps://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/143339-
dc.description.abstractEnhancement of the production yield of boron nitride nanotubes (BNNTs) with high purity was achieved using an amorphous boron-based precursor and a nozzle-type reactor. Use of a mixture of amorphous boron and Fe decreases the milling time for the preparation of the precursor for BNNTs synthesis, as well as the Fe impurity contained in the B/Fe interdiffused precursor nanoparticles by using a simple purification process. We also explored a nozzle-type reactor that increased the production yield of BNNTs compared to a conventional flow-through reactor. By using a nozzle-type reactor with amorphous boron-based precursor, the weight of the BNNTs sample after annealing was increased as much as 2.5-times with much less impurities compared to the case for the flow-through reactor with the crystalline boron-based precursor. Under the same experimental conditions, the yield and quantity of BNNTs were estimated as much as similar to 70% and similar to 1.15 g/batch for the former, while they are similar to 54% and 0.78 g/batch for the latter.-
dc.format.extent13-
dc.language영어-
dc.language.isoENG-
dc.publisherMDPI Open Access Publishing-
dc.titleHigh Purity and Yield of Boron Nitride Nanotubes Using Amorphous Boron and a Nozzle-Type Reactor-
dc.typeArticle-
dc.publisher.location스위스-
dc.identifier.doi10.3390/ma7085789-
dc.identifier.scopusid2-s2.0-84940253251-
dc.identifier.wosid000341210400026-
dc.identifier.bibliographicCitationMaterials, v.7, no.8, pp 5789 - 5801-
dc.citation.titleMaterials-
dc.citation.volume7-
dc.citation.number8-
dc.citation.startPage5789-
dc.citation.endPage5801-
dc.type.docTypeArticle-
dc.description.isOpenAccessN-
dc.description.journalRegisteredClassscie-
dc.description.journalRegisteredClassscopus-
dc.relation.journalResearchAreaChemistry-
dc.relation.journalResearchAreaMaterials Science-
dc.relation.journalResearchAreaMetallurgy & Metallurgical Engineering-
dc.relation.journalResearchAreaPhysics-
dc.relation.journalWebOfScienceCategoryChemistry, Physical-
dc.relation.journalWebOfScienceCategoryMaterials Science, Multidisciplinary-
dc.relation.journalWebOfScienceCategoryMetallurgy & Metallurgical Engineering-
dc.relation.journalWebOfScienceCategoryPhysics, Applied-
dc.relation.journalWebOfScienceCategoryPhysics, Condensed Matter-
dc.subject.keywordPlusHYDROGEN STORAGE-
dc.subject.keywordPlusTHERMAL-CONDUCTIVITY-
dc.subject.keywordPlusCOMPOSITES-
dc.subject.keywordPlusPURIFICATION-
dc.subject.keywordPlusPLASMA-
dc.subject.keywordAuthorboron nitride nanotubes (BNNTs)-
dc.subject.keywordAuthoramorphous boron-
dc.subject.keywordAuthorball milling-
dc.subject.keywordAuthorannealing-
dc.subject.keywordAuthorcore-shell structure-
dc.subject.keywordAuthorseed nanoparticles-
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