Piezo-to-piezo (P2P) conversion: simultaneous $\beta$-phase crystallization and poling of ultrathin, transparent and freestanding homopolymer PVDF films via MHz-order nanoelectromechanical vibration


Journal article


Robert Komljenovic, Peter C Sherrell, Eirini Goudeli, Amgad R Rezk, Leslie Y Yeo
Materials Horizons, Royal Society of Chemistry, 2024

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Cite

APA   Click to copy
Komljenovic, R., Sherrell, P. C., Goudeli, E., Rezk, A. R., & Yeo, L. Y. (2024). Piezo-to-piezo (P2P) conversion: simultaneous $\beta$-phase crystallization and poling of ultrathin, transparent and freestanding homopolymer PVDF films via MHz-order nanoelectromechanical vibration. Materials Horizons.


Chicago/Turabian   Click to copy
Komljenovic, Robert, Peter C Sherrell, Eirini Goudeli, Amgad R Rezk, and Leslie Y Yeo. “Piezo-to-Piezo (P2P) Conversion: Simultaneous $\Beta$-Phase Crystallization and Poling of Ultrathin, Transparent and Freestanding Homopolymer PVDF Films via MHz-Order Nanoelectromechanical Vibration.” Materials Horizons (2024).


MLA   Click to copy
Komljenovic, Robert, et al. “Piezo-to-Piezo (P2P) Conversion: Simultaneous $\Beta$-Phase Crystallization and Poling of Ultrathin, Transparent and Freestanding Homopolymer PVDF Films via MHz-Order Nanoelectromechanical Vibration.” Materials Horizons, Royal Society of Chemistry, 2024.


BibTeX   Click to copy

@article{komljenovic2024a,
  title = {Piezo-to-piezo (P2P) conversion: simultaneous $\beta$-phase crystallization and poling of ultrathin, transparent and freestanding homopolymer PVDF films via MHz-order nanoelectromechanical vibration},
  year = {2024},
  journal = {Materials Horizons},
  publisher = {Royal Society of Chemistry},
  author = {Komljenovic, Robert and Sherrell, Peter C and Goudeli, Eirini and Rezk, Amgad R and Yeo, Leslie Y}
}


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