Gaoxiaolong

Gao Xiaolong, PhD, associate professor, master's supervisor. He has made certain research achievements in the field of polymer material processing principles and equipment manufacturing, polymer micro-nano manufacturing, design and preparation of micro-nano structure functional devices, especially in polymer micro-nano manufacturing. He has presided over 5 scientific research projects and participated as a main research member in 2 national natural science fund projects, 6 enterprise horizontal projects, and 2 national defense projects. He has published more than 20 SCI academic papers, including 3 top-3 papers in the first area of engineering technology, and has been granted 3 patents and 2 PCT patents.

Main research direction:

(1) High-performance conductive and thermal nanocomposites

(2) Intelligent flexible sensors

(3) Application of 3D printing technology

(4) Polymer micro-nano manufacturing technology

(5) Plastic communication optical fiber

(6) High-frequency film welding technology

Recruitment targets and requirements:

Strong practical ability, apply what they have learned, dare to innovate, break tradition, be unique and blaze new trails.

(1) Students with certain foundation in polymer material processing

(2) Students who have some understanding of micro-nano processing

Education and work experience:

2017/09~Now, Beijing University of Chemical Technology, School of Mechanical and Electrical Engineering, Lecturer

2018/9-2019/09, University of Bradford, Warwick University, visiting scholar

2011/09~2017/07, Beijing University of Chemical Technology, School of Mechanical and Electrical Engineering, Master's and Doctoral Degree

2006/09~2010/07, Beijing University of Chemical Technology, School of Mechanical and Electrical Engineering, Bachelor

Taking charge of the project:

(1) Huawei Central Research Institute, scientific research institute project, plastic optical fiber preparation technology, 2022-2023, 2.7 million yuan, concluded, presided over.

(2) Beijing Remote Sensing Equipment Research Institute, scientific research institute project, research on simulation and forming technology of telescopic shading hood, 2021-01 to 2021-12, 500,000 yuan, in progress, leading;

(3) The Fundamental Research Funds for the Central Universities, the Fundamental Research Funds for the Central Universities, JD2111, Research on Preparation of Flexible Sensing Composites Based on Femtosecond Laser Micro-Nano Processing Technology, 2021-01 to 2021-12, 80,000 yuan, in progress, leader;

(4) China Petroleum & Chemical Corporation, enterprise project, H2020367, preparation and mechanism research of graphene thermal conductive materials, 2020-07 to 2022-12, 1 million yuan, in progress, participated;

(5) Shenzhen Kailai Medical Co., Ltd., corporate project, H2018226, production technology of double-layer variable hardness TPU-steel mesh composite tube, 2018-06 to 2019-06, 1.48 million yuan, concluded, participated;

(6) Zhejiang Tiantie Co., Ltd., enterprise project, H2018171, research and development of flexible sensors for rubber springs, 2018-05 to 2021-12, 620,000 yuan, in progress, lead;

(7) The basic scientific research business fund project of central universities, the basic scientific research fund project of central universities, ZY1812, the preparation of high-performance polymer-based thermal conductive composites by spatially confined compulsory assembly, 2018-01 to 2019-04, 50,000 yuan, concluded, hosted;

(8) Funding project of the special fund for basic scientific research business expenses of central universities, basic scientific research project of central universities, JD1810, preparation of high-sensitivity flexible sensors based on forced assembly-anchoring method, 2018-01 to 2019-04, 120,000 yuan, concluded, participated;

(9) National Natural Science Foundation of China, general project, 51673020, study on the isothermal micro-nano thermal imprinting mechanism of solid-like polymers, 2017-01 to 2020-12, 620,000 yuan, concluded, participated;

(10) National Natural Science Foundation of China, general project, 51173015, research on the isothermal micro-nano thermal imprinting mechanism of quasi-solid polymer, 2012-01 to 2015-12, 620,000 yuan, concluded, participated.

Published papers:

1. Xiaolong Gao, Wu DM*, et al., Improved Electrical Conductivity of PDMS/SCF Composite sheets with Bolting Cloth Prepared by a Spatial Confining Forced Network Assembly method. RSC Advances, 2017, 7, 14761 - 14768;

2. Xiaolong Gao, and Daming Wu*. Mechanically Enhanced Electrical Conductivity of Polydimethylsiloxane-Based Composites by a Hot Embossing Process. Polymers, 2019，11,56.

3. Xiaoxiang He , Xiaolong Gao*, and Daming Wu*. Improved Thermal Conductivity of Polydimethylsiloxane/Short Carbon Fiber Composites Prepared by Spatial Confining Forced Network Assembly. Journal of Materials Science, 2018; Volume 53, Issue 20, PP 14299–14310。（TOP）。

4. Xiaoxiang He , Xiaolong Gao*, and Daming Wu*. Enhancing thermal conductivity of polydimethylsiloxane composites through spatially confined network of hybrid fillers. Composites Science and Technology, 2019,172,163-171.（TOP）。

5. Wuyan Si, Xiaoxiang He , Xiaolong Gao*, and Daming Wu*. Polydimethylsiloxane/aluminum oxide composites prepared by spatial confining forced network assembly for heat conduction and dissipation. RSC Adv., 2018, 8, 36007-36014.

6. Daming Wu, Xiaolong Gao, Jingyao Sun, Dan Wu, Ying Liu, S. Kormakov, Xiuting Zheng, Lili Wu, Yao Huang, Zhanhu Guo.  Spacial Confining Forced Network Assembly for preparation of high-performance conductive polymeric composites. Composites Part A-applied science and manufacturing, 2017(102), 88-95;( TOP).

7. S. Kormakov,  Xiaolong Gao,et al. The electrical conductive behaviours of polymer-based three-phase composites prepared by spatial confining forced network assembly. Express Polymer Letters . 2019, Vol. 13 Issue 8, p713-723. 11p.

8. S. Kormakov, Xiaoxiang He, Xiaolong Gao, Daming Wu. A Mathematical Model for Predicting Conductivity of Polymer Composites with a Forced Assembly Network Obtained by SCFNA Method. Polymer composites Polymer Composites (2019) 40(5) 1819-1827.

9. Huang Y, Kormakov S, He X, Gao X, Zheng X, Liu Y, Sun J, Wu D. Conductive Polymer Composites from Renewable Resources: An Overview of Preparation, Properties, and Applications, Polymers (2019) 11(2).

10. Zewen Yang; Hong Xu*; Yao Huang; Jingyao Sun; Daming Wu; Xiaolong Gao; Yajun Zhang. Measuring mechanism and applications of polymer-based flexible sensors.Sensors,2019,19(6).

11. Xiaolong Gao*, Wu DM, et al., Compression-induced electrical percolation and enhanced mechanical properties of polydimethylsiloxane-based nanocomposites， J Mater Sci (2020) 55-10611–10625.(TOP)

12. Wu Dan, Huang Yao, Gao Xiaolong*, Wu Daming. Preparation and Properties of Screen-Polypropylene/Carbon Fiber Conductive Composites by Spatial Limited Forced Assembly. Plastics, 2018.

13. Li Hanwen, Wu Daming, Liu Ying, Wu Dan, Ma Tingyue, Gao Xiaolong. Preparation of superhydrophobic films by isothermal hot embossing. Plastics, 2018.

Application/ authorization of patent:

(1) Gao Xiaolong et al., A method for preparing polymer-based conductive composites by micro-nano precision assembly in confined space, CN201710070455.4. (Patent)

(2) Gao Xiaolong et al., Plastic optical reflector for downlight with microlens array on the surface, CN201410018515.4. (Patent)

(3) Gao Xiaolong et al., A plastic reflector for downlights, CN201320249554.6. (Patent)