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Xiaolong Chen

Assistant Professor in Sustainable Engineering, Faculty of Engineering

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Biography

Dr. Xiaolong Chen is an Assistant Professor at the Department of Mechanical, Materials and Manufacturing Engineering (M3) at the University of Nottingham. He is affiliated with the Advanced Manufacturing Research Group, and work with Centre for Additive Manufacturing as an associate member at the University of Nottingham.

He has editorial roles with Nano Materials Science (Youth Editor 2023 - 2025), Journal of Material Research (Guest Editor for a Special Focus Issue on 3D printing electrodes for energy storage), and International Journal of Machine Tools and Manufacturing (Reviewing Committee).

His professional endeavours are directed towards Sustainable Engineering, with a concentrated emphasis on the intersection between sustainable additive manufacturing processes and an array of engineering applications. These applications include but are not limited to electrochemical devices (e.g., supercapacitors) and solar energy harvesting (e.g., semi-artificial photosynthesis). Within the M3 Department, he is a co-convenor of the year 3 course module of Engineering Sustainability (MMME3066 UNUK).

Prior to his current role, he was a Post-doctoral Research Associate at the Department of Chemistry at the University of Cambridge from Sept 2018 to Feb 2023. His research contributions were focused on developing efficient semi-artificial photosynthesis systems utilizing state-of-the-art manufacturing techniques (e.g., Aerosol Jet Spraying/Printing, Inkjet Printing, and Micro/Nano Templating). His educational background includes a PhD from Imperial College London, awarded in 2018 for his work on developing a cost-effective, desktop, electrochemical metal additive manufacturing system. He obtained a Master's degree with Honours in Advanced Manufacturing Technologies and Systems Management from the University of Manchester in 2014.

Selected Publications

  • CHEN, XIAOLONG, LAWRENCE, JOSHUA M., WEY, LAURA T., SCHERTEL, LUKAS, JING, QINGSHEN, VIGNOLINI, SILVIA, HOWE, CHRISTOPHER J., KAR-NARAYAN, SOHINI and ZHANG, JENNY Z., 2022. 3D-printed hierarchical pillar array electrodes for high-performance semi-artificial photosynthesis NATURE MATERIALS. 21(7), 811-+
  • CHEN, XIAOLONG, LIU, XINHUA, OUYANG, MENGZHENG, CHILDS, PETER, BRANDON, NIGEL and WU, BILLY, 2019. Electrospun composite nanofibre supercapacitors enhanced with electrochemically 3D printed current collectors JOURNAL OF ENERGY STORAGE. 26,
  • CHEN, XIAOLONG, LIU, XINHUA, OUYANG, MENGZHENG, CHEN, JINGYI, TAIWO, OLUWADAMILOLA, XIA, YUHUA, CHILDS, PETER R. N., BRANDON, NIGEL P. and WU, BILLY, 2019. Multi-metal 4D printing with a desktop electrochemical 3D printer SCIENTIFIC REPORTS. 9,
  • CHEN, XIAOLONG, LIU, XINHUA, CHILDS, PETER, BRANDON, NIGEL and WU, BILLY, 2018. DESIGN AND FABRICATION OF A LOW COST DESKTOP ELECTROCHEMICAL 3D PRINTER PROCEEDINGS OF THE 3RD INTERNATIONAL CONFERENCE ON PROGRESS IN ADDITIVE MANUFACTURING. 395-400

Future Research

The primary objective of his research activities involves developing next-generation additive manufacturing processes, which will promote the sustainable use of materials and reduce the environmental impact of manufacturing. He also plans to expand his research to investigate how to produce multiple materials and multifunctional structures through smart digital manufacturing processes for a wide range of sustainable applications. These applications include but not limited to fabrication and evaluation of energy harvesting and storage devices.

With this rich tapestry of experience and a perpetual drive to innovate, Dr Xiaolong Chen looks forward to potential academic collaborations and inviting enthusiastic students who are ready to explore the frontiers of sustainable engineering. Together, we can write the future chapters of this exciting field.

Prospective research topics, poised to shape Dr. Chen's future research journey, are as follows:

Research Topics:

  1. Refinement of Sustainable Additive Manufacturing Processes
  2. Advancement of Smart Materials for Additive Manufacturing
  3. Additive Manufacturing of the Functional Electrodes for Energy Devices

Prospective PhD candidates with an interest in these areas are invited to reach out to Dr. Chen at xiaolong.chen@nottingham.ac.uk When initiating contact, please include a full academic CV for consideration.

  • CHEN, XIAOLONG, LAWRENCE, JOSHUA M., WEY, LAURA T., SCHERTEL, LUKAS, JING, QINGSHEN, VIGNOLINI, SILVIA, HOWE, CHRISTOPHER J., KAR-NARAYAN, SOHINI and ZHANG, JENNY Z., 2022. 3D-printed hierarchical pillar array electrodes for high-performance semi-artificial photosynthesis NATURE MATERIALS. 21(7), 811-+
  • OUYANG, MENGZHENG, BERTEI, ANTONIO, COOPER, SAMUEL J., WU, YUFEI, BOLDRIN, PAUL, LIU, XINHUA, KISHIMOTO, MASASHI, WANG, HUIZHI, MARLOW, MAX NAYLOR, CHEN, JINGYI, CHEN, XIAOLONG, XIA, YUHUA, WU, BILLY and BRANDON, NIGEL P., 2021. Model-guided design of a high performance and durability Ni nanofiber/ ceria matrix solid oxide fuel cell electrode JOURNAL OF ENERGY CHEMISTRY. 56, 98-112
  • WEY, LAURA T., LAWRENCE, JOSHUA M., CHEN, XIAOLONG, CLARK, ROBERT, LEA-SMITH, DAVID J., ZHANG, JENNY Z. and HOWE, CHRISTOPHER J., 2021. A biophotoelectrochemical approach to unravelling the role of cyanobacterial cell structures in exoelectrogenesis ELECTROCHIMICA ACTA. 395,
  • CLIFFORD, ELEANOR R., BRADLEY, ROBERT W., WEY, LAURA T., LAWRENCE, JOSHUA M., CHEN, XIAOLONG, HOWE, CHRISTOPHER J. and ZHANG, JENNY Z., 2021. Phenazines as model low-midpoint potential electron shuttles for photosynthetic bioelectrochemical systems CHEMICAL SCIENCE. 12(9), 3328-3338
  • CHEN, XIAOLONG, LIU, XINHUA, OUYANG, MENGZHENG, CHILDS, PETER, BRANDON, NIGEL and WU, BILLY, 2019. Electrospun composite nanofibre supercapacitors enhanced with electrochemically 3D printed current collectors JOURNAL OF ENERGY STORAGE. 26,
  • WEY, LAURA T., BOMBELLI, PAOLO, CHEN, XIAOLONG, LAWRENCE, JOSHUA M., RABIDEAU, CLAYTON M., ROWDEN, STEPHEN J. L., ZHANG, JENNY Z. and HOWE, CHRISTOPHER J., 2019. The Development of Biophotovoltaic Systems for Power Generation and Biological Analysis CHEMELECTROCHEM. 6(21), 5375-5386
  • OUYANG, MENGZHENG, BOLDRIN, PAUL, MAHER, ROBERT C., CHEN, XIAOLONG, LIU, XINHUA, COHEN, LESLEY F. and BRANDON, NIGEL P., 2019. A mechanistic study of the interactions between methane and nickel supported on doped ceria APPLIED CATALYSIS B-ENVIRONMENTAL. 248, 332-340
  • CHEN, XIAOLONG, LIU, XINHUA, OUYANG, MENGZHENG, CHEN, JINGYI, TAIWO, OLUWADAMILOLA, XIA, YUHUA, CHILDS, PETER R. N., BRANDON, NIGEL P. and WU, BILLY, 2019. Multi-metal 4D printing with a desktop electrochemical 3D printer SCIENTIFIC REPORTS. 9,
  • LIU, XINHUA, MARLOW, MAX NAYLOR, COOPER, SAMUEL J., SONG, BOWEN, CHEN, XIAOLONG, BRANDON, NIGEL P. and WU, BILLY, 2018. Flexible all-fiber electrospun supercapacitor JOURNAL OF POWER SOURCES. 384, 264-269
  • CHEN, XIAOLONG, LIU, XINHUA, CHILDS, PETER, BRANDON, NIGEL and WU, BILLY, 2018. DESIGN AND FABRICATION OF A LOW COST DESKTOP ELECTROCHEMICAL 3D PRINTER PROCEEDINGS OF THE 3RD INTERNATIONAL CONFERENCE ON PROGRESS IN ADDITIVE MANUFACTURING. 395-400
  • CHEN, XIAOLONG, LIU, XINHUA, CHILDS, PETER, BRANDON, NIGEL and WU, BILLY, 2017. A Low Cost Desktop Electrochemical Metal 3D Printer ADVANCED MATERIALS TECHNOLOGIES. 2(10),

Advanced Manufacturing Technology Research Group

The University of Nottingham
Faculty of Engineering
The University of Nottingham
University Park
Nottingham, NG7 2RD



email:AdvManufacturing@nottingham.ac.uk