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966 results on '"Yong, Ken-Tye"'

1. Advancements in Programmable Lipid Nanoparticles: Exploring the Four-Domain Model for Targeted Drug Delivery

Author

Liu, Zhaoyu, Chen, Jingxun, Xu, Mingkun, Gracias, David H., Yong, Ken-Tye, Wei, Yuanyuan, and Ho, Ho-Pui

Subjects
Quantitative Biology - Biomolecules, Physics - Biological Physics
Abstract

Programmable lipid nanoparticles, or LNPs, represent a breakthrough in the realm of targeted drug delivery, offering precise spatiotemporal control essential for the treatment of complex diseases such as cancer and genetic disorders. In order to provide a more modular perspective and a more balanced analysis of the mechanism, this review presents a novel Four-Domain Model that consists of Architecture, Interface, Payload, and Dispersal Domain. We explored the dynamical equilibrium between LNPs components and the surroundings throughout their destiny, from formulation to release. On the basis of this, we delve deep into manufacturing challenges, scalability issues, and regulatory hurdles, associated with the clinical translation of LNP technology. Within the framework focusing on the programmability in each domain, we prioritized patient-centric factors like dosing regimens, administration techniques, and potential consequences. Notably, this review expands to innovative anatomical routes, such as intranasal and intraocular administration, offering a thorough examination of the advantages and disadvantages of each route. We also offered a comprehensive comparison between artificial LNPs and natural exosomes in terms of functionality, biocompatibility, and therapeutic potential. Ultimately, this review highlights the potential of programmable LNPs to evolve into more intelligent, naturally integrated systems, achieving optimal biocompatibility and functionality., Comment: 46 pages, 8 figures

Published
2024

9. Phase-controllable growth of ultrathin 2D magnetic FeTe crystals

Author

Kang, Lixing, Ye, Chen, Zhao, Xiaoxu, Zhou, Xieyu, Hu, Junxiong, Li, Qiao, Ouyang, Qingling, Yang, Jiefu, Hu, Dianyi, Chen, Jieqiong, Cao, Xun, Zhang, Yong, Xu, Manzhang, Di, Jun, Tian, Dan, Song, Pin, Kutty, Govindan, Zeng, Qingsheng, Fu, Qundong, Deng, Ya, Zhou, Jiadong, Pennycook, Stephen J., Ariando, Ariando, Miao, Feng, Hong, Guo, Huang, Yizhong, Yong, Ken-Tye, Ji, Wei, Wang, Xiao Renshaw, and Liu, Zheng

Subjects
Condensed Matter - Materials Science
Abstract

Two-dimensional (2D) magnets with intrinsic ferromagnetic/antiferromagnetic (FM/AFM) ordering are highly desirable for future spintronics devices. However, the synthesis of 2D magnetic crystals, especially the direct growth on SiO2/Si substrate, is just in its infancy. Here, we report a chemical vapor deposition (CVD)-based rational growth approach for the synthesis of ultrathin FeTe crystals with controlled structural and magnetic phases. By precisely optimizing the growth temperature (Tgrowth), FeTe nanoplates with either layered tetragonal or non-layered hexagonal phase can be controlled with high-quality. The two controllable phases lead to square and triangular morphologies with a thickness down to 3.6 and 2.8 nm, respectively. More importantly, transport measurements reveal that tetragonal FeTe is antiferromagnetic with a Neel temperature (TN) about 71.8 K, while hexagonal FeTe is ferromagnetic with a Curie temperature (TC) around 220 K. Theoretical calculations indicate that the ferromagnetic order in hexagonal FeTe is originated from a concomitant lattice distortion and the spin-lattice coupling. This study represents a major step forward in the CVD growth of 2D magnetic materials on SiO2/Si substrates and highlights on their potential applications in the future spintronic devices., Comment: 15 pages, 5 figures

Published
2019
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23. Computational Models for Optimizing Particle Separation in Spiral Inertial Microfluidics: A Step Toward Enhanced Biosensing and Cell Sorting.

Author

Boland, Julian Tristan Joshua, Yang, Zhenxu, Yin, Qiankun, Liu, Xiaochen, Xu, Zhejun, Kong, Kien‐Voon, Vigolo, Daniele, and Yong, Ken‐Tye

Subjects
MICROFLUIDIC devices, COMPUTATIONAL fluid dynamics, SALMONELLA typhimurium, FLUID flow, PREDICTION models, MICROCHANNEL flow
Abstract

Inertial microfluidics is essential for separating particles and cells, enabling numerous biomedical applications. Despite the simplicity of spiral microchannels, the lack of predictive models hampers real‐world applications, highlighting the need for cost‐effective computational tools. In this study, four novel data fitting models are developed using linear and power regression analyses to investigate how flow conditions influence particle behaviors within spiral microchannels. These models are rigorously tested under two different flow rates, focusing on a smaller particle representing Salmonella Typhimurium and a larger particle representing bacterial aggregates, aiming for effective separation and detection. A critical parameter, the sheath‐to‐sample flow rate ratio, is either interpolated or extrapolated using the microchannel's aspect ratios to predict particle separation. The models show strong agreement with experimental data, underscoring their predictability and efficiency. These insights suggest that further refinement of these models can significantly reduce research and development costs for advanced inertial microfluidic devices in biomedical applications. This work represents a crucial step towards establishing a robust computational framework, advancing inertial microfluidics towards practical biomedical applications. [ABSTRACT FROM AUTHOR]

Published
2024
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30. Chiral nanomaterials in tissue engineering

Author

Yang, Zhenxu, primary, Jaiswal, Arun, additional, Yin, Qiankun, additional, Lin, Xiaoqi, additional, Liu, Lu, additional, Li, Jiarong, additional, Liu, Xiaochen, additional, Xu, Zhejun, additional, Li, Jiao Jiao, additional, and Yong, Ken-Tye, additional

Published
2024
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31. Recent Advances in Engineering Carriers for siRNA Delivery

Author

Yang, Chengbin, primary, Lin, Zheng‐Ian, additional, Zhang, Xinmeng, additional, Xu, Zhourui, additional, Xu, Gaixia, additional, Wang, Yu‐Min, additional, Tsai, Tzu‐Hsien, additional, Cheng, Pei‐Wen, additional, Law, Wing‐Cheung, additional, Yong, Ken‐Tye, additional, and Chen, Chih‐Kuang, additional

Published
2023
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43. Microvasculature‐on‐a‐Post Chip That Recapitulates Prothrombotic Vascular Geometries and 3D Flow Disturbance (Adv. Mater. Interfaces 29/2023)

Author

Zhang, Yingqi, primary, Aye, San‐Seint‐Seint, additional, Cheng, Vivian, additional, Nasser, Arian, additional, Hong, Tianbo, additional, Vatankhah, Parham, additional, Jiang, Fengtao, additional, Zhao, Yunduo Charles, additional, Moldovan, Laura, additional, Sun, Allan, additional, Dupuy, Alexander, additional, Wang, Yao, additional, Li, Zhiyong, additional, Ang, Timothy, additional, Passam, Freda, additional, Yong, Ken‐Tye, additional, and Ju, Lining Arnold, additional

Published
2023
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45. A Pilot Study in Non-Human Primates Shows No Adverse Response to Intravenous Injection of Quantum Dots

Author

Ye, Ling, primary, Yong, Ken-Tye, additional, Liu, Liwei, additional, Roy, Indrajit, additional, Hu, Rui, additional, Zha, Jing, additional, Cai, Hongxing, additional, Law, Wing-Cheung, additional, Liu, Jianwei, additional, Wang, Kai, additional, Liu, Jing, additional, Liu, Yaqian, additional, Hu, Yazhuo, additional, Zhang, Xihe, additional, Swihart, Mark T., additional, and Prasad, Paras N., additional

Published
2020
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48. SPR Biosensors

Author

Ho, Aaron Ho-Pui, Wu, Shu-Yuen, Kong, Siu-Kai, Zeng, Shuwen, Yong, Ken-Tye, Ho, Aaron Ho-Pui, editor, Kim, Donghyun, editor, and Somekh, Michael G., editor

Published
2017
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