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- PubFact’s Showcase of Strain-induced resonances in the dynamical quadratic magnetoelectric response of multiferroics
- “Enhanced BFO Magnetoelectric Response Could Mean Faster, Cheaper Data Storage”: An article by eeDesignIt about our research on magnetoelectric effect
- “Physicists document method to improve magnetoelectric response”, a Phys.Org article about our work on electroacoustic magnons
- “University of Arkansas Researchers Leverage Supercomputer to Improve Magnetoelectric Response”: HPC wires article about our work on strain-induced resonances in magnetoelectric response of multiferroics
- “Strain-induced resonances in the dynamical quadratic magnetoelectric response of multiferroics” is in the top 5% of all research outputs scored by Altmetric
- SCIENMAG’s article about our research on improving magnetoelectric response
- “Strain-induced resonances in the dynamical quadratic magnetoelectric response of multiferroics” in Nature (npj Computational Materials) Homepage
- New publication in Nature (npj Computational Materials)
- PubFact’s Showcase of Giant Resistive Switching in Mixed Phase BiFeO3
- PubFact’s Showcase of Novel Dynamical Magnetoelectric Effects in BiFeO3
- Altmetric ranks the “Novel Dynamical Magnetoelectric Effects in Multiferroic BiFeO3” within the top %5
- “Promising material could lead to faster, cheaper computer memory”: A Phys.org Article on “Novel Dynamical Magnetoelectric Effects in Multiferroic BiFeO3“
- “New Material Promises to Make Computer Memory More Faster and Affordable”: World Industrial Reporter’s Article about our research on Novel Dynamical Magnetoelectric effects
- ScienceDaily’s Article about our Research
- The Journal of Chemistry & Industry Writes about our Research on Multiferroics
- Material for Faster Computer Memory. An Article about our Research in TechBriefs.com
- New publication in Physical Review Letters
- New publication in Nanoscale
- New publication in Physical Review Materials
- New publication in Physical Review B
