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Achieving thermally conductive low loss PVDF-based dielectric composites via surface functionalization and orientation of SiC nanowires

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Zeitschriftentitel: Express Polymer Letters
Personen und Körperschaften: Wang, B., Yin, X. H., Peng, D., Lv, R. H., Na, B., Liu, H. S., Gu, X. B., Wu, W., Zhou, J. L., Zhang, Y.
In: Express Polymer Letters, 14, 2020, 1, S. 2-11
Format: E-Article
Sprache: Englisch
veröffentlicht:
Department of Polymer Engineering, Scientific Society of Mechanical Engineering
Schlagwörter:
Materials Chemistry
Organic Chemistry
Polymers and Plastics
Physical and Theoretical Chemistry
General Chemical Engineering
author_facet Wang, B.
Yin, X. H.
Peng, D.
Lv, R. H.
Na, B.
Liu, H. S.
Gu, X. B.
Wu, W.
Zhou, J. L.
Zhang, Y.
Wang, B.
Yin, X. H.
Peng, D.
Lv, R. H.
Na, B.
Liu, H. S.
Gu, X. B.
Wu, W.
Zhou, J. L.
Zhang, Y.
author Wang, B.
Yin, X. H.
Peng, D.
Lv, R. H.
Na, B.
Liu, H. S.
Gu, X. B.
Wu, W.
Zhou, J. L.
Zhang, Y.
spellingShingle Wang, B.
Yin, X. H.
Peng, D.
Lv, R. H.
Na, B.
Liu, H. S.
Gu, X. B.
Wu, W.
Zhou, J. L.
Zhang, Y.
Express Polymer Letters
Achieving thermally conductive low loss PVDF-based dielectric composites via surface functionalization and orientation of SiC nanowires
Materials Chemistry
Organic Chemistry
Polymers and Plastics
Physical and Theoretical Chemistry
General Chemical Engineering
author_sort wang, b.
spelling Wang, B. Yin, X. H. Peng, D. Lv, R. H. Na, B. Liu, H. S. Gu, X. B. Wu, W. Zhou, J. L. Zhang, Y. 1788-618X Department of Polymer Engineering, Scientific Society of Mechanical Engineering Materials Chemistry Organic Chemistry Polymers and Plastics Physical and Theoretical Chemistry General Chemical Engineering http://dx.doi.org/10.3144/expresspolymlett.2020.2 Achieving thermally conductive low loss PVDF-based dielectric composites via surface functionalization and orientation of SiC nanowires Express Polymer Letters
doi_str_mv 10.3144/expresspolymlett.2020.2
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title Achieving thermally conductive low loss PVDF-based dielectric composites via surface functionalization and orientation of SiC nanowires
title_unstemmed Achieving thermally conductive low loss PVDF-based dielectric composites via surface functionalization and orientation of SiC nanowires
title_full Achieving thermally conductive low loss PVDF-based dielectric composites via surface functionalization and orientation of SiC nanowires
title_fullStr Achieving thermally conductive low loss PVDF-based dielectric composites via surface functionalization and orientation of SiC nanowires
title_full_unstemmed Achieving thermally conductive low loss PVDF-based dielectric composites via surface functionalization and orientation of SiC nanowires
title_short Achieving thermally conductive low loss PVDF-based dielectric composites via surface functionalization and orientation of SiC nanowires
title_sort achieving thermally conductive low loss pvdf-based dielectric composites via surface functionalization and orientation of sic nanowires
topic Materials Chemistry
Organic Chemistry
Polymers and Plastics
Physical and Theoretical Chemistry
General Chemical Engineering
url http://dx.doi.org/10.3144/expresspolymlett.2020.2
publishDate 2020
physical 2-11
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author Wang, B., Yin, X. H., Peng, D., Lv, R. H., Na, B., Liu, H. S., Gu, X. B., Wu, W., Zhou, J. L., Zhang, Y.
author_facet Wang, B., Yin, X. H., Peng, D., Lv, R. H., Na, B., Liu, H. S., Gu, X. B., Wu, W., Zhou, J. L., Zhang, Y., Wang, B., Yin, X. H., Peng, D., Lv, R. H., Na, B., Liu, H. S., Gu, X. B., Wu, W., Zhou, J. L., Zhang, Y.
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imprint Department of Polymer Engineering, Scientific Society of Mechanical Engineering, 2020
imprint_str_mv Department of Polymer Engineering, Scientific Society of Mechanical Engineering, 2020
institution DE-L229, DE-D275, DE-Bn3, DE-Brt1, DE-Zwi2, DE-D161, DE-Gla1, DE-Zi4, DE-15, DE-Pl11, DE-Rs1, DE-105, DE-14, DE-Ch1
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mega_collection Department of Polymer Engineering, Scientific Society of Mechanical Engineering (CrossRef)
physical 2-11
publishDate 2020
publishDateSort 2020
publisher Department of Polymer Engineering, Scientific Society of Mechanical Engineering
record_format ai
recordtype ai
series Express Polymer Letters
source_id 49
spelling Wang, B. Yin, X. H. Peng, D. Lv, R. H. Na, B. Liu, H. S. Gu, X. B. Wu, W. Zhou, J. L. Zhang, Y. 1788-618X Department of Polymer Engineering, Scientific Society of Mechanical Engineering Materials Chemistry Organic Chemistry Polymers and Plastics Physical and Theoretical Chemistry General Chemical Engineering http://dx.doi.org/10.3144/expresspolymlett.2020.2 Achieving thermally conductive low loss PVDF-based dielectric composites via surface functionalization and orientation of SiC nanowires Express Polymer Letters
spellingShingle Wang, B., Yin, X. H., Peng, D., Lv, R. H., Na, B., Liu, H. S., Gu, X. B., Wu, W., Zhou, J. L., Zhang, Y., Express Polymer Letters, Achieving thermally conductive low loss PVDF-based dielectric composites via surface functionalization and orientation of SiC nanowires, Materials Chemistry, Organic Chemistry, Polymers and Plastics, Physical and Theoretical Chemistry, General Chemical Engineering
title Achieving thermally conductive low loss PVDF-based dielectric composites via surface functionalization and orientation of SiC nanowires
title_full Achieving thermally conductive low loss PVDF-based dielectric composites via surface functionalization and orientation of SiC nanowires
title_fullStr Achieving thermally conductive low loss PVDF-based dielectric composites via surface functionalization and orientation of SiC nanowires
title_full_unstemmed Achieving thermally conductive low loss PVDF-based dielectric composites via surface functionalization and orientation of SiC nanowires
title_short Achieving thermally conductive low loss PVDF-based dielectric composites via surface functionalization and orientation of SiC nanowires
title_sort achieving thermally conductive low loss pvdf-based dielectric composites via surface functionalization and orientation of sic nanowires
title_unstemmed Achieving thermally conductive low loss PVDF-based dielectric composites via surface functionalization and orientation of SiC nanowires
topic Materials Chemistry, Organic Chemistry, Polymers and Plastics, Physical and Theoretical Chemistry, General Chemical Engineering
url http://dx.doi.org/10.3144/expresspolymlett.2020.2