Your search keyword '"Zeng, Jianhua"' showing total 6 results

1. Intrinsically stretchable tribotronic mechanoplastic artificial synapse.

Author

Zeng, Jianhua, Chen, Libo, Bu, Tianzhao, Wang, Ziyue, Gong, Likun, Zhang, Zhi-Bin, Zhao, Junqing, Lin Wang, Zhong, and Zhang, Chi

Subjects

*SYNAPSES, *NEUROPLASTICITY, *MORSE code, *ARTIFICIAL limbs, *NERVOUS system

Abstract

• An intrinsically stretchable tribotronic mechanoplastic artificial synapse was proposed. • The device can be modulated by the triboelectric potential induced by mechanical stimulation. • The device establishes an active mechanically adjustable synaptic plasticity. Stretchable synaptic devices with adaptability to elastic deformation, sensing environmental stimuli, and unique information processing functions are of great significance for the development of the next generation of artificial nervous systems. Here, an intrinsically stretchable tribotronic mechanoplastic artificial synapse (STMAS) is proposed, which is integrated by a triboelectric nanogenerator and an electrolyte-gated transistor with ion-gel as dielectric layer. The STMAS can be modulated by the triboelectric potential induced by mechanical stimulation without the need to apply an external gate voltage, achieving an active mechanical tuning of synaptic plasticity such as excitatory postsynaptic current, paired-pulse facilitation, short-term plasticity, and long-term plasticity. The STMAS exhibits stable synaptic plasticity under 0–50% stretcher strain in parallel and vertical to channel directions, respectively. Furthermore, the International Morse code triggered by mechanical signals has been successfully mimicked. This work has achieved an intrinsically stretchable tribotronic artificial synapse with mechanically tuned synaptic behavior, which will help promote the development of artificial nervous systems and expand the applications of artificial synapses in intelligent robotics, artificial limbs and human–machine interaction. [ABSTRACT FROM AUTHOR]

Published

2024

2. Numerical Simulation of Segregation in Slabs under Different Secondary Cooling Electromagnetic Stirring Modes.

Author

Liu, Daiwei, Zhang, Guifang, Zeng, Jianhua, and Xie, Xin

Subjects

*CONSTRUCTION slabs, *CONTINUOUS casting, *COMPUTER simulation, *MASS transfer, *THREE-dimensional modeling, *SOLIDIFICATION, *CONCRETE slabs

Abstract

Secondary cooling electromagnetic stirring (S-EMS) significantly impacts the internal quality of continuous casting slabs. In order to investigate the effects of S-EMS modes on segregation in slabs, a three-dimensional numerical model of the full-scale flow field, solidification, and mass transfer was established. A comparative analysis was conducted between continuous electromagnetic stirring and alternate stirring modes regarding their impacts on steel flow, solidification, and carbon segregation. The results indicated that adopting the alternate stirring mode was more advantageous for achieving uniform flow fields and reducing the disparity in solidification endpoints, thus mitigating carbon segregation. Specifically, the central carbon segregation index under continuous stirring at 320 A was 1.236, with an average of 1.247, while under alternate stirring, the central carbon segregation index decreased to 1.222 with an average of 1.227. [ABSTRACT FROM AUTHOR]

Published

2024

3. Investigation of Solidification Heat Transfer in Slab Continuous Casting Process Based on Different Roll Contact Calculation Methods.

Author

Liu, Daiwei, Zhang, Guifang, Zeng, Jianhua, and Wu, Chenhui

Subjects

*ROLLING contact, *CONTINUOUS casting, *HEAT transfer, *CONTINUOUS processing, *SOLIDIFICATION, *INFRARED cameras

Abstract

The heat transfer of a slab is significantly influenced by roll contact during the continuous casting process. The influence of roll contact calculation methods on the predicted heat transfer results has not been previously investigated. In this work, the non-uniform solidification of the wide-thick slab was studied with a 2D heat transfer model using real roll contact method (R. method) and equivalent roll contact method (E. method). The predicted slab surface temperature and shell thickness were verified with the measured results of the infrared camera and nail shooting experiments, respectively. Then, the predicted heat transfer results (including the slab surface temperature, mushy region length, and solidification end position) for the wide-thick slab with different thicknesses and different casting speeds were calculated using the E. method and R. method, and the influence of these two roll contact methods on the predicted heat transfer results was discussed for the first time. The results show that both these two roll contact methods could be applied to accurately predict the slab surface temperature without considering the transient temperature dips in the roll–slab contact regions. However, the deviation of the predicted mushy region length and solidification end position using the E. method are obvious. Compared with the R. method, the predicted mushy region length obtained using the E. method is larger and the solidification end obviously subsequently moves along the casting direction. [ABSTRACT FROM AUTHOR]

Published

2024

4. Effective Charging of Commercial Lithium Cell by Triboelectric Nanogenerator with Ultrahigh Voltage Energy Management.

Author

Dai, Yiming, Liu, Guoxu, Cao, Jie, Fan, Beibei, Zhou, Weilin, Li, Yongbo, Yang, Jun, Li, Ming, Zeng, Jianhua, Chen, Yuanfen, Wang, Zhong Lin, and Zhang, Chi

Subjects

*LITHIUM cells, *POWER resources, *ELECTRONIC equipment, *ENERGY management, *ENERGY consumption, *ENERGY storage

Abstract

It is an increasingly mature application solution that triboelectric nanogenerator (TENG) supplies power to electronic devices through its power management system (PMS). However, the previous PMS is able to manage a limited voltage magnitude and the energy storage elements are limited to capacitors. This work proposes an ultrahigh voltage PMS (UV‐PMS) to realize the charging of commercial lithium cells (LCs) by TENG. The design of UV‐PMS enables energy management of TENGs with ultrahigh open‐circuit voltages up to 3500 V and boosts the peak charging current from 30.9 µA to 2.77 mA, an increase of 89.64 times. With the introduction of UV‐PMS, the effective charging capacity of LC charged by a TENG at a working frequency of 1.5 Hz for 1 h comes to 429.7 µAh, making a 75.3 times enhancement compared to charging by TENG directly. The maximum charging power comes to 1.56 mW. The energy storage efficiency is above 97% and the overall charge efficiency can be maintained at 81.2%. This work provides a reliable strategy for TENG to store energy in LC, and has promising applications in energy storage, LC's life, and self‐powered systems. [ABSTRACT FROM AUTHOR]

Published

2024

5. Upgrading lignocellulosic biomass to high-value products through the pretreatment driven by bio-based ethylene glycol solvent.

Author

Chai, Youzheng, Tong, Zhaohui, Al-Dhabi, Naif Abdullah, Zhou, Litong, Chen, Anwei, Zhu, Shiye, Tang, Wangwang, Ji, Zehua, and Zeng, Jianhua

Subjects

*MOLECULAR dynamics, *ETHYLENE glycol, *DENSITY functional theory, *CHEMICAL structure, *BIOMASS conversion, *LIGNIN structure, *LIGNOCELLULOSE

Abstract

[Display omitted] • Biomass-derived ethylene glycol achieves closed-loop biorefinery as a green solvent. • Coupling effect increase glucose and HMF production with more favorable conditions. • Recovered lignin has average molecular weight and retained rich functional group. • The solubilization effect of BEG on lignin promotes enzymatic saccharification. Sustainable processing of lignocellulosic biomass is meaningful for comprehensive biomass conversion. Here, a ball milling (BM) assisted biomass-derived ethylene glycol (BEG) pretreatment is proposed to removes nearly 90 % of the lignin and increases cellulose accessibility by 3 times than raw biomass, facilitating subsequent enzymatic saccharification or catalytic conversion for 5-hydroxymethylfurfural (HMF), achieving yields of 92.9 % and 32.6 %. The synergistic effect of BM/BEG positively impacted delignification, followed by saccharification and HMF conversion. Introduction of biomass-derived solvent recovers the lignin with a well-preserved chemical structure, uniform molecular weight, short side chains, and high purity, making it highly suitable for downstream utilization. Density functional theory revealed hydrogen bonding and good miscibility between BEG and lignin units, suggesting reaction mechanisms and pathways. Molecular dynamics simulations showed that the solubilizing effect of BEG on lignin promoted cellulase-cellulose binding, thereby enhancing saccharification efficiency. The successful use of BEG solvents to maximize the biomass value is conducive to achieve closed-loop biorefinery approaches. [ABSTRACT FROM AUTHOR]

Published

2024

6. Autonomous cantilever buck switch for ultra-efficient power management of triboelectric nanogenerator.

Author

Zhou, Han, Liu, Guoxu, Bu, Tianzhao, Wang, Zheng, Cao, Jie, Wang, Zhaozheng, Zhang, Zhi, Dong, Sicheng, Zeng, Jianhua, Cao, Xiaoxin, and Zhang, Chi

Subjects

*NANOGENERATORS, *CANTILEVERS, *ELECTROSTATIC fields, *ENERGY consumption

Abstract

Power management is an efficacious route to promote the development of triboelectric nanogenerators (TENGs), in which the buck switch for efficient energy extraction has always been a challenge. Here, we propose a three-port cantilever buck switch which can autonomously release energy from the TENG in maximum by the generated electrostatic field of the TENG. The influence of closing voltage of the buck switch on different structure parameters has been thoroughly investigated. The U-Q curve indicates that the optimal energy extraction can reach 90.86%, and the matched impedance of the TENG is reduced from 60 MΩ to 470 kΩ. Compared to the output power at matched impedance, the average power managed by this three-port cantilever buck switch is increased by 1.554 times, which can power the Bluetooth device, electronic watch, calculator and thermo-meter. This work has realized ultra-efficient power management of TENG by leveraging an autonomous cantilever buck switch, which can contribute to the efficient utilization of micromechanical energy. • A three-port cantilever buck switch controlled by the electrostatic field of the TENG for its power management is pioneered. • A detailed analysis of the force-electricity conversion process has been conducted. • U-Q curve and P-R curve has been linked to characterize the output efficiency for the first time. [ABSTRACT FROM AUTHOR]

Published

2024