H
Haidee Mana-ay
Researcher at Silliman University
Publications - 7
Citations - 53
Haidee Mana-ay is an academic researcher from Silliman University. The author has contributed to research in topics: Ferroelectricity & Bismuth ferrite. The author has an hindex of 3, co-authored 4 publications receiving 28 citations. Previous affiliations of Haidee Mana-ay include Ming Chi University of Technology & University of San Carlos.
Papers
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Journal ArticleDOI
Synthesis and Characterization of Acetic Acid-Doped Polyaniline and Polyaniline–Chitosan Composite
Bianca Rae Pasela,Acelle Pearl T. Castillo,Rhenish C. Simon,Maria Teresa R. Pulido,Haidee Mana-ay,Ma Roxan Abiquibil,Rhys Montecillo,Kanjana Thumanu,Doebner von C. Tumacder,Kathrina Lois M. Taaca +9 more
TL;DR: Raman spectroscopy revealed that the synthesized PAni–Cs composites were nontoxic and may be utilized for future biomedical applications, and Ultraviolet–visible (UV–Vis) spectroscopic showed the interaction of P ani with Cs where the Cs characteristic peak shifted to a higher wavelength.
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Electric field poling effect on the photosensitivity of samarium-doped bismuth ferrite ceramics
Haidee Mana-ay,Haidee Mana-ay,Haidee Mana-ay,Chiu-Yen Wang,Kuo-Yung Hung,Pin-Yi Chen,Chi-Shun Tu,Chi-Shun Tu,Cheng-Sao Chen +8 more
TL;DR: In this paper, the authors highlight improved photosensing performance in ITO/ (Bi 0.93 Sm 0.07 ) FeO 3 /Au heterostructure through a prior electric field poling.
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Electric field and temperature induced local polarization switching and piezoresponse in Bi0.88Sm0.12FeO3 ceramics for nanoscale applications
J. Anthoniappen,Wei Sea Chang,Wei Sea Chang,Flora Mae Ruiz,Chi-Shun Tu,Carvyn Blaise,Pin-Yi Chen,Cheng-Sao Chen,Haidee Mana-ay +8 more
TL;DR: In this article, a phase transition to non-polar phase where piezoeresponse would be nearly zero was studied in polycrystalline Bi0.88Sm0.12FeO3 ceramics using piezoresponse force microscopy.
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Enhanced UV photosensing properties by field-induced polarization in ZnO-modified (Bi0.93Gd0.07)FeO3 ceramics
TL;DR: In this paper , a self-powered photodetection was studied using x wt% ZnO-modified (Bi0.93Gd0.07)FeO3 (abbreviated as B7GFO-xZn) ferroelectric ceramics.
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Improved microstructure and ferroelectric properties in B-site Ti4+-substituted (Bi0.86Sm0.14)FeO3 polycrystalline ceramics
Haidee Mana-ay,J. Anthoniappen,Chi-Shun Tu,Raymund Sarmiento,Cheng-Sao Chen,Pin-Yi Chen,Flora Mae Ruiz +6 more
TL;DR: In this article, the influence of Ti4+ doping on the microstructure, dielectric, and ferroelectric behaviors of multiferroic (Bi 0.86 Sm 0.14 ) (Fe 1 − x Ti x ) O 3 ceramics was investigated.