Flexible high-temperature dielectric materials from polymer nanocomposites

Li, Qi; Chen, Lei; Gadinski, Matthew R.; Zhang, Shihai; Zhang, Guangzu; Li, Haoyu U.; Iagodkine, Elissei; Haque, Aman; Chen, Long-Qing; Jackson, Thomas N.; Wang, Qing

Flexible high-temperature dielectric materials from polymer nanocomposites

Qi Li, Lei Chen, Matthew R. Gadinski, Shihai Zhang, Guangzu Zhang, Haoyu U. Li, Elissei Iagodkine, Aman Haque, Long-Qing Chen, Thomas N. Jackson and Qing Wang ()
Additional contact information
Qi Li: The Pennsylvania State University, University Park
Lei Chen: The Pennsylvania State University, University Park
Matthew R. Gadinski: The Pennsylvania State University, University Park
Shihai Zhang: PolyK Technologies, State College
Guangzu Zhang: The Pennsylvania State University, University Park
Haoyu U. Li: The Pennsylvania State University, University Park
Elissei Iagodkine: Dow Chemical Company, 455 Forest Street
Aman Haque: The Pennsylvania State University, University Park
Long-Qing Chen: The Pennsylvania State University, University Park
Thomas N. Jackson: The Pennsylvania State University, University Park
Qing Wang: The Pennsylvania State University, University Park

Nature, 2015, vol. 523, issue 7562, 576-579

Abstract: The addition of boron nitride nanosheets to polymer nanocomposites creates dielectric materials that operate at much higher working temperatures than previous polymer dielectrics, as well as being flexible, lightweight, photopatternable, scalable and robust, which now makes them more attractive for electronic device applications than ceramic dielectrics.

Date: 2015
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DOI: 10.1038/nature14647

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