Y
Yahong Chai
Researcher at Chinese Academy of Sciences
Publications - 12
Citations - 76
Yahong Chai is an academic researcher from Chinese Academy of Sciences. The author has contributed to research in topics: Medicine & Chemistry. The author has an hindex of 4, co-authored 8 publications receiving 36 citations.
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Journal ArticleDOI
One-Pot Synthesis of High-Quality Bimagnetic Core/Shell Nanocrystals with Diverse Exchange Coupling
Yahong Chai,Feng Feng,Qilong Li,Chanchan Yu,Xueyan Feng,Pan Lu,Xiaolin Yu,Maofa Ge,Xiuyu Wang,Li Yao +9 more
TL;DR: A robust and general one-pot approach for the synthesis of different kinds of bimagnetic core/shell nanostructures (BMCS NSs) and it is envisioned that this new strategy will open up exciting opportunities toward large-scalable production of such high-quality BMCSNSs, thereby greatly potentiating the prospective applications of nanomagnetic materials.
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Nanoparticle-Regulated Semiartificial Magnetotactic Bacteria with Tunable Magnetic Moment and Magnetic Sensitivity.
Qilong Li,Haitao Chen,Xueyan Feng,Chanchan Yu,Feng Feng,Yahong Chai,Pan Lu,Tao Song,Xiuyu Wang,Li Yao +9 more
TL;DR: This strategy provides a feasible method to manoeuvre MTB for applications in complex fluid environments, such as magnetic drug release systems and real-time tracking systems, and provides a paradigm for controlling the mobility of micro-/nanomotors based on natural small organisms.
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Dual-Phase Separation in a Semiconfined System: Monodispersed Heterogeneous Block-Copolymer Membranes for Cell Encoding and Patterning.
TL;DR: A new semiconfined system for processing the BCP self-assembly is constructed, in which an unusual dual-phase separation occurs, including nonsolvent-induced microphase separation and osmotically driven macrophase separation, ultimately yielding heterogeneous BCP membranes.
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Insulin-like growth factor type I selectively binds to G-quadruplex structures.
TL;DR: This study provides a new perspective to understand the possible physiological relationship between IGF-1 and G- quadruplexes and also conveys a strategy to regulate the interaction between G-quadruplex DNA and proteins.
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Direct Measurement of Through-Bond Effects in Molecular Multivalent Interactions
TL;DR: The specific interaction between bivalent aptamer and thrombin has been measured directly and quantitatively by force-induced remnant magnetization spectroscopy to investigate the binding force and through-bond effects of the multivalent interactions.