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Publications by authors named "Biwen Shen"

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Temperature Self-Compensating Intelligent Wireless Measuring Contact Lens for Quantitative Intraocular Pressure Monitoring.
Xu Li Wei Chen Hongyang Li Biwen Shen Jiangang He

ACS Appl Mater Interfaces

May 2024

Article Synopsis
  • Researchers have developed a wireless measuring contact lens (WMCL) capable of accurately monitoring intraocular pressure (IOP) in various environments, which is crucial for glaucoma diagnosis and treatment.
  • The WMCL features a dual inductor-capacitor-resistor (LCR) system that compensates for temperature changes, ensuring precise IOP measurements despite fluctuations in temperature.
  • This innovative device demonstrates high sensitivity and reliability during tests on porcine eyes, indicating significant potential for future use in both clinical and home settings.
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Enhancing Mechanical Properties of 3D Printing Metallic Lattice Structure Inspired by Bambusa Emeiensis.
Shikai Jing Wei Li Guanghao Ma Xiaofei Cao Le Zhang Biwen Shen

Materials (Basel)

March 2023

Metallic additive manufacturing process parameters, such as inclination angle and minimum radius, impose constraints on the printable lattice cell configurations in complex components. As a result, their mechanical properties are usually lower than their design values. Meanwhile, due to unavoidable process constraints (e.

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Synopsis of recent research by authors named "Biwen Shen"

  • - Biwen Shen's research primarily focuses on the development of advanced bioelectronic devices and additive manufacturing techniques, addressing challenges in both intraocular pressure monitoring and metallic lattice structures.
  • - In the article on temperature self-compensating wireless measuring contact lenses, Shen presents a novel design that allows for real-time intraocular pressure monitoring, crucial for glaucoma management, integrating a dual LCR resonant system for enhanced accuracy.
  • - The study on 3D printing of metallic lattice structures highlights the influence of manufacturing parameters on mechanical properties, aiming to improve the strength and viability of complex designs inspired by natural structures, such as Bambusa Emeiensis.

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