程斯一

发布人:李昌平发表时间:2019-12-27点击:


AAD9

个人简介

程斯一,湖北黄冈人,工学博士,副教授,硕士生导师,地大学者青年优秀人才计划(A类)。作为项目负责人主持国家自然科学基金青年项目与湖北省自然科学基金面上项目,主持和参与企事业单位委托项目10余项;博士期间公派留学加州大学伯克利分校,并建立长期合作关系。在本领域高水平期刊发表论文30余篇。

联系方式:

邮箱:chengsiyi@cug.edu.cn

办公地址:教二楼317

主要经历:

2020.05-至今   中国地质大学,太阳成集团tyc33455ccwww,副教授,硕士生导师

2017.10-2019.9   加州大学伯克利分校,联合培养

2015.09-2019.12  华中科技大学,工学博士

主要研究方向

1)智能检测技术 (涉及嵌入式系统开发、智能传感技术、机器视觉等)

2)机械产品数字化设计(涉及机械设计、CAD/CAM、交互界面开发等)

3)大型装备智能监控(涉及PLC控制、物联网、BIM+GIS、数字孪生等)。


招生信息:

欢迎踏实、勤学上进且具有机械、控制、电子信息、材料等学科背景的学生加入团队,课题组将为其提供良好的科研平台及耐心指导,支持学生的研究兴趣,鼓励学生参加国内国际学术会议和CSC联合培养。

科研项目:

1)国家自然科学基金青年基金:碳气凝胶基多点协同电极阵列构筑及高性能汗液传感特性研究,2023.1-2025.12主持,在研;

2)湖北省自然科学基金面上项目:基于仿生嗅觉的锂电池热失控过程气体检测技术研究,2022.10-2024.10,主持,在研;

3)企业横向课题:桩工机械施工管理系统,2022.07-2023.09主持,在研;

4)企业横向课题:旋挖钻机动力头数字化设计平台开发与应用,2021.06-2022.12主持,结题;

5)教育部产学合作协同育人项目:基于数字孪生的三维地质可视化虚拟仿真实验中心,2022.09-2023.08,主持,在研;

6)教育部工程研究中心开放基金:面向隧道围岩压力监测的柔性传感阵列技术研究,2021.07-2023.06,主持,在研;

7)中央高校基本科研业务费专项资金—杰出人才培育基金:金属有机物框架结构调控及气体传感阵列特性研究,2020.05-2023.04,主持,在研;

学术论文:

[1] Chen B, Wen G, He X, Liu X, Liu H, Cheng S*. Application of adaptive grid-based multi-objective particle swarm optimization algorithm for directional drilling trajectory design. Geoenergy Science and Engineering. 2023; 222:211431.

[2] Cheng S, Zheng X, Hou Z, Hu R, Jiang S, Xi S, Wen G, Liu X. Passivating the vacancy defects of CsPbCl 3 polycrystalline films by a Cl-containing ionic liquid for self-powered, charge-transport-layer-free UV photodetectors. Journal of Materials Chemistry C. 2022;10(14):5693-706.

[3] 文国军,高晓峰,毛宇,程斯一*. 基于GRU-CNN网络的隧道裂缝实时检测算法研究. 地质科技通报. 2022.0219.

[4] Ma Y, Wen G, Cheng S, He X, Mei S. Multimodal convolutional neural network model with information fusion for intelligent fault diagnosis in rotating machinery. Measurement Science and Technology. 2022; 33(12):125109.

[5] Cheng S, DelaCruz S, Chen C, Tang Z, Shi T, Carraro C, Maboudian R. Hierarchical Co3O4/CuO nanorod array supported on carbon cloth for highly sensitive non-enzymatic glucose biosensing. Sensors and Actuators B: Chemical. 2019; 298:126860.

[6] Cheng S, Gao X, DelaCruz S, Chen C, Tang Z, Shi T, Carraro C, Maboudian R. In situ formation of metal–organic framework derived CuO polyhedrons on carbon cloth for highly sensitive non-enzymatic glucose sensing. Journal of Materials Chemistry B. 2019;7(32):4990-6.

[7] Cheng S, Shi T, Huang Y, Tao X, Li J, Cheng C, Liao G, Tang Z. Rational design of nickel cobalt sulfide/oxide core-shell nanocolumn arrays for high-performance flexible all-solid-state asymmetric supercapacitors. Ceramics International. 2017; 43(2):2155-64.

[8] Cheng S, Shi T, Chen C, Zhong Y, Huang Y, Tao X, Li J, Liao G, Tang Z. Construction of porous CuCo2S4 nanorod arrays via anion exchange for high-performance asymmetric supercapacitor. Scientific reports. 2017; 7(1):6681.

[9] Cheng S, Shi T, Tao X, Zhong Y, Huang Y, Li J, Liao G, Tang Z. In-situ oxidized copper-based hybrid film on carbon cloth as flexible anode for high performance lithium-ion batteries. Electrochimica Acta. 2016; 212:492-9.

[10] Chen Chen, Siyi Cheng, Tielin Shi, Yan Zhong, Yuanyuan Huang, Junjie Li, Guanglan Liao, and Zirong Tang, Size Distribution Control of Copper Nanoparticles and Oxides: Effect of Wet-Chemical Redox Cycling. Inorganic chemistry 2019, 58, 2533-2542.

[11] Shulan Jiang, Siyi Cheng, Yuanyuan Huang, Tielin Shi, and Zirong Tang. High performance wire-shaped supercapacitive electrodes based on activated carbon fibers core/manganese dioxide shell structures. Ceramics International 2017, 43, 7916-7921.

[12] Xiang Gao, Steven Delacruz, Siyi Cheng, David W. Gardner, Chenhui Zhu, Yuhui Xie, Carlo Carraro, Roya Maboudian, Surface functionalization of carbon cloth with cobalt-porphyrin-based metal organic framework for enhanced electrochemical sensing, Carbon, 2019, 148, 64-71.

[13] Hu Long, Anna Harley-Trochimczyk, Siyi Cheng, Hao Hu, Won Seok Chi, Ameya Rao, Carlo Carraro, Tielin Shi, Zirong Tang, and Roya Maboudian. Nanowire-assembled hierarchical ZnCo2O4 microstructure integrated with a low-power microheater for highly sensitive formaldehyde detection. ACS applied materials & interfaces 2016, 8, 31764-31771.

[14] Yuanyuan Huang, Tielin Shi, Yan Zhong, Siyi Cheng, Shulan Jiang, Chen Chen, Guanglan Liao, and Zirong Tang, Graphene-quantum-dots induced NiCo2S4 with hierarchical-like hollow nanostructure for supercapacitors with enhanced electrochemical performance. Electrochimica Acta 2018, 269, 45-54.

[15] Yuanyuan Huang, Liwei Lin, Tielin Shi, Siyi Cheng, Yan Zhong, Chen Chen, and Zirong Tang, Graphene quantum dots-induced morphological changes in CuCo2S4 nanocomposites for supercapacitor electrodes with enhanced performance. Applied Surface Science 2019, 463, 498-503.

[16] Yan Zhong, Tielin Shi, Yuanyuan Huang, Siyi Cheng, Chen Chen, Guanglan Liao, and Zirong Tang, Three-dimensional MoS2/Graphene Aerogel as Binder-free Electrode for Li-ion Battery. Nanoscale research letters 2019, 14, 85.

[17] Yuanyuan Huang, Tielin Shi, Shulan Jiang, Siyi Cheng, Xiangxu Tao, Yan Zhong, Guanglan Liao, and Zirong Tang. Enhanced cycling stability of NiCo2S4@ NiO core-shell nanowire arrays for all-solid-state asymmetric supercapacitors. Scientific reports 2016, 6, 38620.

[18] Yan Zhong, Tielin Shi, Yuanyuan Huang, Siyi Cheng, Guanglan Liao, and Zirong Tang, One-step synthesis of porous carbon derived from starch for all-carbon binder-free high-rate supercapacitor. Electrochimica Acta 269 (2018): 676-685.

[19] Yan Zhong, Yan, Tielin Shi, Zhiyong Liu, Yuanyuan Huang, Siyi Cheng, Chaoliang Cheng, Xiaoping Li, Guanglan Liao, and Zirong Tang. Scalable Fabrication of Flexible Solid-State Asymmetric Supercapacitors with a Wide Operation Voltage utilizing Printable Carbon Film Electrodes. Energy Technology 2017, 5, 656-664.

[20] Yan Zhong, Tielin Shi, Zhiyong Liu, Siyi Cheng, Yuanyuan Huang, Xiangxu Tao, Guanglan Liao, and Zirong Tang. Ultrasensitive non-enzymatic glucose sensors based on different copper oxide nanostructures by in-situ growth. Sensors and Actuators B: Chemical 2016, 236, 326-333.

[21] Junjie Li, Tielin Shi, Chen Feng, Qi Liang, Xing Yu, Jinhu Fan, Siyi Cheng, Guanglan Liao, and Zirong Tang. The novel Cu nanoaggregates formed by 5 nm Cu nanoparticles with high sintering performance at low temperature. Materials Letters 2018, 216, 20-23.

[22] Junjie Li, Xing Yu, Tielin Shi, Chaoliang Cheng, Jinhu Fan, Siyi Cheng, Tianxiang Li, Guanglan Liao, and Zirong Tang. Depressing of CuCu bonding temperature by composting Cu nanoparticle paste with Ag nanoparticles. Journal of Alloys and Compounds 2017, 709, 700-707.