Your search keyword '"Kejun Tu"' showing total 7 results

1. Neuromorphic electro-stimulation based on atomically thin semiconductor for damage-free inflammation inhibition

Author

Rong Bao, Shuiyuan Wang, Xiaoxian Liu, Kejun Tu, Jingquan Liu, Xiaohe Huang, Chunsen Liu, Peng Zhou, and Shen Liu

Subjects

Science

Abstract

Abstract Inflammation, caused by accumulation of inflammatory cytokines from immunocytes, is prevalent in a variety of diseases. Electro-stimulation emerges as a promising candidate for inflammatory inhibition. Although electroacupuncture is free from surgical injury, it faces the challenges of imprecise pathways/current spikes, and insufficiently defined mechanisms, while non-optimal pathway or spike would require high current amplitude, which makes electro-stimulation usually accompanied by damage and complications. Here, we propose a neuromorphic electro-stimulation based on atomically thin semiconductor floating-gate memory interdigital circuit. Direct stimulation is achieved by wrapping sympathetic chain with flexible electrodes and floating-gate memory are programmable to fire bionic spikes, thus minimizing nerve damage. A substantial decrease (73.5%) in inflammatory cytokine IL-6 occurred, which also enabled better efficacy than commercial stimulator at record-low currents with damage-free to sympathetic neurons. Additionally, using transgenic mice, the anti-inflammation effect is determined by β2 adrenergic signaling from myeloid cell lineage (monocytes/macrophages and granulocytes).

Published

2024

2. A flexible neural implant with ultrathin substrate for low-invasive brain–computer interface applications

Author

Zhejun Guo, Fang Wang, Longchun Wang, Kejun Tu, Chunpeng Jiang, Ye Xi, Wen Hong, Qingda Xu, Xiaolin Wang, Bin Yang, Bomin Sun, Zude Lin, and Jingquan Liu

Subjects

Technology, Engineering (General). Civil engineering (General), TA1-2040

Abstract

Abstract Implantable brain–computer interface (BCI) devices are an effective tool to decipher fundamental brain mechanisms and treat neural diseases. However, traditional neural implants with rigid or bulky cross-sections cause trauma and decrease the quality of the neuronal signal. Here, we propose a MEMS-fabricated flexible interface device for BCI applications. The microdevice with a thin film substrate can be readily reduced to submicron scale for low-invasive implantation. An elaborate silicon shuttle with an improved structure is designed to reliably implant the flexible device into brain tissue. The flexible substrate is temporarily bonded to the silicon shuttle by polyethylene glycol. On the flexible substrate, eight electrodes with different diameters are distributed evenly for local field potential and neural spike recording, both of which are modified by Pt-black to enhance the charge storage capacity and reduce the impedance. The mechanical and electrochemical characteristics of this interface were investigated in vitro. In vivo, the small cross-section of the device promises reduced trauma, and the neuronal signals can still be recorded one month after implantation, demonstrating the promise of this kind of flexible BCI device as a low-invasive tool for brain–computer communication.

Published

2022

3. An Ultrathin Low-Invasive Flexible Probe for Accurate Neural Stimulating

Author

Zhejun Guo, Longchun Wang, Kejun Tu, Ye Xi, Wen Hong, Xiaolin Wang, Bin Yang, Zude Lin, and Jingquan Liu

Subjects

Electrical and Electronic Engineering, Electronic, Optical and Magnetic Materials

Published

2022

4. Ionic Polyimide Derived Porous Carbon Nanosheets as High‐Efficiency Oxygen Reduction Catalysts for Zn–Air Batteries

Author

Yuezeng Su, Xiaodong Zhuang, Chongqing Yang, Lingyi Zou, Kejun Tu, Jinhui Zhu, Changchun Ke, Fan Zhang, and Chenbao Lu

Subjects

Dopant, 010405 organic chemistry, Chemistry, Organic Chemistry, Heteroatom, Limiting current, Ionic bonding, General Chemistry, Conductivity, 010402 general chemistry, 01 natural sciences, Catalysis, 0104 chemical sciences, Chemical engineering, Porosity, Polyimide

Abstract

Two-dimensional (2D) porous carbon nanosheets (2DPCs) have attracted great attention for their good porosity and long-distance conductivity. Factors such as templates, precursors, and carbonization-activation methods, directly determine their performance. However, rational design and preparation of porous carbon materials with controlled 2D morphology and heteroatom dopants remains a challenge. Therefore, an ionic polyimide with both sp2 - and sp3 -hybridized nitrogen atoms was prepared as a precursor for fabricating N-doped hexagonal porous carbon nanosheets through a hard-template approach. Because of the large surface area and efficient charge-mass transport, the resulting activated 2D porous carbon nanosheets (2DPCs-a) displayed promising electrocatalytic properties for oxygen reduction reaction (ORR) in alkaline and acidic media, such as ultralow half-wave potential (0.83 vs. 0.84 V of Pt/C) and superior limiting current density (5.42 vs. 5.14 mA cm-2 of Pt/C). As air cathodes in Zn-air batteries, the as-developed 2DPCs-a exhibited long stability and high capacity (up to 614 mA h g-1 ), which are both higher than those of commercial Pt/C. This work provides a convenient method for controllable and scalable 2DPCs fabrication as well as new opportunities to develop high-efficiency electrocatalysts for ORR and Zn-air batteries.

Published

2020

5. Cover Feature: Ionic Polyimide Derived Porous Carbon Nanosheets as High‐Efficiency Oxygen Reduction Catalysts for Zn–Air Batteries (Chem. Eur. J. 29/2020)

Author

Yuezeng Su, Kejun Tu, Jinhui Zhu, Chongqing Yang, Lingyi Zou, Fan Zhang, Xiaodong Zhuang, Changchun Ke, and Chenbao Lu

Subjects

Porous carbon, Chemical engineering, Chemistry, Feature (computer vision), Organic Chemistry, Oxygen reduction reaction, Ionic bonding, Cover (algebra), General Chemistry, Catalysis, Polyimide, Oxygen reduction

Published

2020

6. A Robust, Freestanding MXene‐Sulfur Conductive Paper for Long‐Lifetime Li–S Batteries

Author

Kejun Tu, Wenlong Li, Niall McEvoy, Chuanfang (John) Zhang, Jian Yang, Huan Tang, Fei Du, Conor P. Cullen, Limei Pan, and Tai Qiu

Subjects

Biomaterials, Materials science, chemistry, Electrochemistry, chemistry.chemical_element, Nanotechnology, Condensed Matter Physics, Sulfur, Electrical conductor, Electronic, Optical and Magnetic Materials

Published

2019

7. Self-adaptive cardiac optogenetics device based on negative stretching-resistive strain sensor.

Author

Wen Hong, Chunpeng Jiang, Mu Qin, Ziliang Song, Pengfei Ji, Longchun Wang, Kejun Tu, Lijun Lu, Zhejun Guo, Bin Yang, Xiaolin Wang, and Jingquan Liu

Subjects

*STRAIN sensors, *RUBBER, *OPTOGENETICS, *WRINKLE patterns, *LASER beam cutting, *SHAPE memory effect

Abstract

The article presents a study that explores the self-adaptive cardiac optogenetics device based on negative stretching-resistive strain sensor. It demonstrates the potential of a negative stretching-resistive device in controlling-in-sensor electronics for wearable/ implantable autodiagnosis and telehealth applications.

Published

2021