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Baiju G. Nair
Researcher at Toyo University
Publications - 15
Citations - 1465
Baiju G. Nair is an academic researcher from Toyo University. The author has contributed to research in topics: Medicine & Magnetic nanoparticles. The author has an hindex of 7, co-authored 13 publications receiving 1183 citations. Previous affiliations of Baiju G. Nair include Electronics Research Center.
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Nanoparticulate material delivery to plants
TL;DR: The delivery of nanoparticulate materials to plants and their ultimate effects are reviewed to provide some insights for the safe use of this novel technology for the improvement of crops.
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Aptamer conjugated magnetic nanoparticles as nanosurgeons
Baiju G. Nair,Yutaka Nagaoka,Yutaka Nagaoka,Hisao Morimoto,Hisao Morimoto,Yasuhiko Yoshida,Toru Maekawa,Toru Maekawa,D. Sakthi Kumar,D. Sakthi Kumar +9 more
TL;DR: The nanosurgeon will be a useful tool in the medical field for selective surgery and cell manipulation studies and could be upgraded for the selective removal of complex cancers from diverse tissues by incorporating various target specific ligands on magnetic nanoparticles.
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Sensors Based on Carbon Nanotubes and Their Applications: A Review
Saino Hanna Varghese,Remya Nair,Baiju G. Nair,Tatsuro Hanajiri,Toru Maekawa,Yasuhiko Yoshida,D. Sakthi Kumar +6 more
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Promising bioactive compounds from the marine environment and their potential effects on various diseases
TL;DR: The application of marine-derived bioactive compounds has gained importance because of their therapeutic uses in several diseases and their possible contribution to humanity is highlighted.
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End-Sealed High Aspect Ratio Hollow Nanotubes Encapsulating an Anticancer Drug: Torpedo-Shaped Peptidic Nanocapsules
Motoki Ueda,Siyoong Seo,Siyoong Seo,Baiju G. Nair,Stefan Müller,Eiki Takahashi,Takashi Arai,Tomonori Iyoda,Shin-ichiro Fujii,Satoshi Tsuneda,Yoshihiro Ito +10 more
TL;DR: The torpedo-shaped nanocapsules with an aspect ratio (length/diameter) of 2.4 showed more rapid cellular uptake and accumulation at the tumor site compared with spherical analogues.