Your search keyword '"Yitian Wu"' showing total 2 results

1. Bioinspired carbon nanotube-based nanofluidic ionic transistor with ultrahigh switching capabilities for logic circuits.

Author

Wenchao Liu, Tingting Mei, Zhouwen Cao, Chun Li, Yitian Wu, Li Wang, Guoheng Xu, Yuanxia Chen, You Zhou, Senyao Wang, Yahui Xue, Yanhao Yu, Xiang-Yu Kong, Ruotian Chen, Bin Tu, and Kai Xiao

Subjects

*CARBON nanotubes, *LOGIC circuits, *VOLTAGE-gated ion channels, *TRANSISTORS, *BRAIN-computer interfaces, *ORGANIC field-effect transistors, *SURFACE properties

Abstract

The voltage-gated ion channels, also known as ionic transistors, play substantial roles in biological systems and ion-ion selective separation. However, implementing the ultrafast switchable capabilities and polarity switching of ionic transistors remains a challenge. Here, we report a nanofluidic ionic transistor based on carbon nanotubes, which exhibits an on/off ratio of 104 at operational gate voltage as low as 1 V. By controlling the morphology of carbon nanotubes, both unipolar and ambipolar ionic transistors are realized, and their on/off ratio can be further improved by introducing an Al2O3 dielectric layer. Meanwhile, this ionic transistor enables the polarity switching between p-type and n-type by controlled surface properties of carbon nanotubes. The implementation of constructing ionic circuits based on ionic transistors is demonstrated, which enables the creation of NOT, NAND, and NOR logic gates. The ionic transistors are expected to have profound implications for low-energy consumption computing devices and brain-machine interfacing. [ABSTRACT FROM AUTHOR]

Published

2024

2. Advances in diagnosis, treatments, and molecular mechanistic studies of traumatic brain injury.

Author

Chunyu Lu, Bin Wang, Yitian Wu, Xiaohui Liu, Yong Zhang, and Jufeng Xia

Subjects

*BRAIN injury diagnosis, *BRAIN injury treatment, *ALTERNATIVE medicine, *CHINESE medicine, *COMPUTED tomography, *FUNCTIONAL magnetic resonance imaging

Abstract

Traumatic brain injury (TBI) is a main cause of death and disability around the world especially in soldiers, children, and young men. Since its clinical diagnosis and treatment cannot predict its prognosis, novel diagnostic techniques need to be developed, insight into its molecular mechanisms needs to be gleaned, and alternative and complementary medicine (ACM) approaches to its treatment need to be developed. This review summarizes the new diagnostic methods used in clinical practice, such as imaging of structural abnormalities after TBI and measurement of prognosis-related biomarkers. This review also describes the cellular mechanisms of traditional Chinese medicine in terms of intracellular signaling pathways, the extracellular microenvironment, and stem cells. This review concludes by describing experimental and clinical studies of the use of traditional Chinese medicine as a form of ACM to treat TBI. This review helps to understand advances in the field of TBI diagnosis and treatment. [ABSTRACT FROM AUTHOR]

Published

2015