Adele Moatti
North Carolina State University
27 Papers
47 Citations
Adele Moatti is an academic researcher from North Carolina State University. The author has contributed to research in topics: Medicine & Epitaxy. The author has an hindex of 6, co-authored 18 publications. Previous affiliations of Adele Moatti include University of North Carolina at Chapel Hill & Iran University of Science and Technology.
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Papers
Inhalable dry powder mRNA vaccines based on extracellular vesicles
Kristen D. Popowski,Adele Moatti,Grant Scull,Dylan Silkstone,Halle Lutz,B. A. López de Juan Abad,Arianna George,Elizabeth Belcher,Dashuai Zhu,Xuan Mei,Xiao Cheng,Megan Cislo,Asma Ghodsi,Yu Cai,Ke Huang,Junlang Li,Ashley C. Brown,Alon Greenbaum,Phuong-Uyen Dinh,Ke-Wen Cheng +19 more
TL;DR: In this paper , the authors developed room-temperature stable inhalable lung-derived extracellular vesicles or exosomes (Lung-Exos) as mRNA and protein drug carriers.
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Deep learning-based autofocus method enhances image quality in light-sheet fluorescence microscopy.
TL;DR: In this paper, a deep learning-based autofocus framework is proposed to estimate the position of the objective-lens focal plane relative to the light-sheet, based on two defocused images.
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Vacancy-Driven Robust Metallicity of Structurally Pinned Monoclinic Epitaxial VO2 Thin Films.
TL;DR: A defect engineering pathway through the control of oxygen vacancies to tune electrical and optical properties in epitaxial monoclinic VO2 is proposed, leading to convenient free-electron transport through the oxygen-deficient VO2- x thin films, resulting in metallic characteristics at room temperature.
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Volatile and non-volatile behavior of metal–insulator transition in VO2 through oxygen vacancies tunability for memory applications
TL;DR: In this paper, the reversibility of the behavior and structure of the VO2 when oxygen vacancies are introduced to and removed from the system was shown, which paves the way for the nonvolatile application of VO2 in neuromorphic devices.
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Ontogeny of cellular organization and LGR5 expression in porcine cochlea revealed using tissue clearing and 3D imaging
Adele Moatti,Chen Li,Sasank Sivadanam,Yu Cai,James Ranta,Jorge A. Piedrahita,Alan Cheng,Frances S. Ligler,Alon Greenbaum +8 more
TL;DR: In this paper , the porcine cochlea was analyzed in 3D using tissue clearing and light-sheet microscopy, and the resulting 3D images can be employed to compare cochelleae across different ages and conditions, investigate the ontogeny of cochlear cytoarchitecture, and produce quantitative expression maps of LGR5, a marker of co-lear progenitors in mice.
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