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Materials scientist paper and patent writting with 15 years experience in Materials science

Profile Summary

Innovative materials scientist and technology leader with over 15 years of experience bridging academic research and industrial applications in advanced ceramics, nanomaterials, and semiconductor component manufacturing. Proven track record in leading R&D, product development, and international collaboration, with expertise spanning MAX phases, thermal spraying, and high-performance coatings.

Subject Matter Expertise

• ☆ Materials Science & Engineering
• ☆ Nanotechnology & Nanomaterials
• ☆ Surface Chemistry
• ☆ Metallurgy
• ☆ Glass Science
• ☆ Ceramic Engineering
• ☆ Corrosion
• ☆ Carbon Materials
• ☆ Powder Metallurgy
• ☆ Powders & Bulk Materials
• ☆ Refractory Materials
• ☆ Composite Materials
• ☆ Electronic, Optical & Magnetic Materials

Services

• Writing
• Research
• Data & AI
• Product Development

Writing Technical Writing

Research Market Research, Meta-Research, Technology Scouting, Scientific and Technical Research

Data & AI Image Processing, Image Analysis

Product Development Material Sourcing, Quality Assurance & Control (QA/QC)

Work Experience

Dr.

Technische Universiteit Delft

July 2015 - Present

Co-Director, CTO

China Porcelain Fuchi (Suzhou) Nano Materials High-Tech Co., Ltd

March 2019 - August 2025

Senior Researcher

Department of Mechanical, Maritime and Materials Engineering (3mE), TU Delft The Netherlands

July 2015 - December 2018

Research Associate / Helio Nanolab 600i FIB Workstation Lead

University of Erlangen-Nürnberg, Germany

October 2011 - June 2015

Dr.

Friedrich-Alexander-Universität Erlangen-Nürnberg

November 2011 - May 2015

Education

Doctorate

Université de Poitiers - France

May 2008 - July 2011

Dr. (PHYMAT)

Institut Pprime

May 2008 - July 2011

Masters (Science)

beijing jiaotong university

September 2004 - January 2007

Bachelors

Beijing Technology and Business University

September 2000 - July 2004

Certifications

• Certification details not provided.

Publications

JOURNAL ARTICLE

Guoping Bei, Yunjia Hu, Renli Fu, Xiumei Li, Zhenguo Wang, Guangming Liu, Bingjie Xie (2026). Interface structure and macroscale performance trade-offs in hydrogen-reduced Cu/Al2O3 electronic packaging: An integrated experimental and DFT study on time-dependent interfacial engineering . Journal of the European Ceramic Society.

Guoping Bei, Xiumei Li, Renli Fu, Ran Lu, Yunjia Hu, Wencong Huang, Guangming Liu, Bingjie Xie, Xuhai Liu (2025). Laser-induced surface texturing enables selective copper metallization on alumina via precise ligand adsorption . Ceramics International.

Guoping Bei, Mirza Mačković, Erdmann Spiecker, Peter Greil (2019). Low‐temperature oxidation‐induced crack healing in Ti2Al0.5Sn0.5C–Al2O3 composites . International Journal of Applied Ceramic Technology.

Linda Boatemaa, Myrthe Bosch, Ann‐Sophie Farle, Guo‐Ping Bei, Sybrand van der Zwaag, Willem G. Sloof (2018). Autonomous high‐temperature healing of surface cracks in Al2O3 containing Ti2AlC particles . Journal of the American Ceramic Society.

Guoping Bei, Bin Li, Peng Jiang, Famin Zhai, Junhong Chen, Xinmei Hou, Kuo-Chih Chou(2018). Boron doping induced thermal conductivity enhancement of water-based 3C-Si(B)C nanofluids . Nanotechnology. {IOP} Publishing

Guoping Bei, Xinhua Chen (2017). Toughening Mechanisms in Nanolayered MAX Phase Ceramics—A Review . Materials.

(2017). Toughening Mechanisms in Nanolayered MAX Phase Ceramics—A Review . Materials.

Wang, W., Zhai, H., Chen, L., Zhou, Y., Huang, Z., Bei, G., Greil, P.(2017). Sintering and properties of mechanical alloyed Ti<inf>3</inf>AlC<inf>2</inf>-Cu composites . Materials Science and Engineering A. 685. Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 154-158.

Li, S., Bei, G., Chen, X., Zhang, L., Zhou, Y., Mačković, M., Spiecker, E., Greil, P.(2016). Crack healing induced electrical and mechanical properties recovery in a Ti<inf>2</inf>SnC ceramic . Journal of the European Ceramic Society. 36. (1). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 25-32.

Wang, W., Zhai, H., Chen, L., Huang, Z., Bei, G., Greil, P.(2016). Preparation and mechanical properties of TiC<inf>x</inf>–(NiCu)<inf>3</inf>Al–CuNi<inf>2</inf>Ti–Ni hybrid composites by reactive pressureless sintering pre-alloyed Cu/Ti<inf>3</inf>AlC<inf>2</inf> and Ni as precursor . Materials Science and Engineering A. 670. Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 351-356.

Guo Ping Bei, Birgit Joana Pedimonte, Marc Pezoldt, Johannes Ast, Tobias Fey, Mathias Goeken, Peter Greil, F. Wakai (2015). Crack Healing in Ti2Al0.5Sn0.5C–Al2O3 Composites . Journal of the American Ceramic Society.

Filbert-Demut, I., Bei, G., H&#246;schen, T., Riesch, J., Travitzky, N., Greil, P.(2015). Influence of Ti<inf>3</inf>SiC<inf>2</inf> Fiber Coating on Interface and Matrix Cracking in an SiC Fiber-Reinforced Polymer-Derived Ceramic . Advanced Engineering Materials. 17. (8). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 1142-1148.

Bei, G.P., Pedimonte, B.J., Pezoldt, M., Ast, J., Fey, T., Goeken, M., Greil, P.(2015). Crack healing in Ti<inf>2</inf>Al<inf>0.5</inf>Sn<inf>0.5</inf>C-Al<inf>2</inf>O<inf>3</inf> composites . Journal of the American Ceramic Society. 98. (5). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 1604-1610.

Lane, N.J., Vogel, S.C., Caspi, E.N., Dubois, S., Gauthier-Brunet, V., Bei, G.P., Barsoum, M.W.(2014). A high-temperature neutron diffraction and first-principles study of Ti 3 AlC 2 and Ti 3(Al 0.8 Sn 0.2) C 2 . Journal of the American Ceramic Society. 97. (2). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 570-576.

Pedimonte, B.J., Bei, G., Pourjafar, D., Fey, T., Greil, P.(2014). Oxidative crack healing in Al2O3 composites loaded with Ti2AC (A = Al, Sn) repair fillers . Journal of Ceramic Science and Technology. 5. (1). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 63-68.

Wang, W., Zhai, H., Chen, L., Huang, Z., Bei, G., Baumg&#228;rtner, C., Greil, P.(2014). Preparation and mechanical properties of in situ TiCx-Ni (Si, Ti) alloy composites . Materials Science and Engineering A. 616. Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 214-218.

Bei, G, Guitton, A, Joulain, A, Brunet, V, Dubois, S, Thilly, L & Tromas, C, 2013, 'Pressure-enforced plasticity in MAX phases: from single grain to polycrystal investigation', <i>Philosophical Magazine</i>, vol. 7, pp. 719-18 .

Bei, G.-P., Guitton, A., Joulain, A., Brunet, V., Dubois, S., Thilly, L., Tromas, C.(2013). Pressure-enforced plasticity in MAX phases: From single grain to polycrystal investigation . Philosophical Magazine. 93. (15). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 1784-1801.

Bei, G.-P., Laplanche, G., Gauthier-Brunet, V., Bonneville, J., Dubois, S.(2013). Compressive behavior of Ti3AlC2 and Ti 3Al0.8Sn0.2C2 MAX phases at room temperature . Journal of the American Ceramic Society. 96. (2). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 567-576.

Ouabadi, N., Gauthier-Brunet, V., Cabioc&#39;H, T., Bei, G.-P., Dubois, S.(2013). Formation mechanisms of Ti3 SnC2 nanolaminate carbide using Fe as additive . Journal of the American Ceramic Society. 96. (10). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 3239-3242.

Bei, G., Pedimonte, B.-J., Fey, T., Greil, P.(2013). Oxidation behavior of MAX phase Ti2 Al(1-x) Sn xC solid solution . Journal of the American Ceramic Society. 96. (5). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 1359-1362.

Bei, G.P., Gauthier-Brunet, V., Tromas, C., Dubois, S.(2012). Synthesis, characterization, and intrinsic hardness of layered nanolaminate Ti 3 AlC 2 and Ti 3 Al 0.8 Sn 0.2 C 2 solid solution . Journal of the American Ceramic Society. 95. (1). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 102-107.

Wang, W.J., Gauthier-Brunet, V., Bei, G.P., Laplanche, G., Bonneville, J., Joulain, A., Dubois, S.(2011). Powder metallurgy processing and compressive properties of Ti3AlC2/Al composites . Materials Science and Engineering A. 530. (1). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 168-173.

Dubois, S., Bei, G.P., Tromas, C., Gauthier-Brunet, V., Gadaud, P.(2010). Synthesis, microstructure, and mechanical properties of Ti 3Sn(1-x)AlxC2 MAX phase solid solutions . International Journal of Applied Ceramic Technology. 7. (6). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 719-729.

Li, S.-B., Bei, G.-P., Xiang, W.-H., Zhai, H.-X., Zhou, Y., Zhang, Z.-L., Li, C.-W.(2009). Controlling the oriented growth of Ti2SnC grains with carbon fiber as a reactive template in the Ti-Sn-C system . Materials Research Bulletin. 44. (5). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 966-969.

Bei, G, Li, S, Zhai, H & Zhou, Y, 2007, 'Reaction mechanism for synthesis of Ti2SnC', <i>Materials Research Bulletin</i>, vol. 136, no. 12, pp. 1921-1998 .

Li, S, Zhai, H, Bei, G, Zhou, Y & Zhang, Z, 2007, 'Synthesis and microstructure of Ti3AlC2 by mechanically activated sintering of elemental powders', <i>Ceramics International</i>, vol. 30, no. 2, pp. 363-173 .

Li, S.-B., Zhai, H.-X., Bei, G.-P., Zhou, Y., Zhang, Z.-L.(2007). Synthesis and microstructure of Ti3AlC2 by mechanically activated sintering of elemental powders . Ceramics International. 33. (2). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 169-173.

Bei, G.-P., Li, S.-B., Zhai, H.-X., Zhou, Y.(2007). Fabrication and reaction mechanism of high purity of Ti2 SnC . Hangkong Cailiao Xuebao/Journal of Aeronautical Materials. 27. (3). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 47-50.

Li, S, Zhai, H, Bei, G & Zhou, Y, 2007, 'Mechanically Activated Low-Temperature Synthesis of Ti₂SnC', <i>Key Engineering Materials</i>, vol. 336-338, pp. 955-957 .

Li, S.-B., Bei, G.-P., Zhai, H.-X., Zhou, Y., Li, C.-W.(2007). Synthesis of Ti2SnC at low-temperature using mechanically activated sintering process . Materials Science and Engineering A. 457. (1-2). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 282-286.

Li, S.-B., Bei, G.-P., Zhai, H.-X., Zhang, Z.-L., Zhou, Y., Li, C.-W.(2007). The origin of driving force for the formation of Sn whiskers at room temperature . Journal of Materials Research. 22. (11). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 3226-3232.

Bei, G.-P., Li, S.-B., Zhai, H.-X., Zhou, Y.(2007). Reaction mechanism for synthesis of Ti2SnC . Materials Research Bulletin. 42. (12). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 1995-1998.

Li, S, Bei, G, Zhai, H & Zhou, Y, 2006, 'Synthesis of Ti2SnC from Ti/Sn/TiC powder mixtures by pressureless sintering technique', <i>Materials Letters</i>, vol. 89, no. 29-30, pp. 855-3532 .

Li, S.-B., Bei, G.-P., Zhai, H.-X., Zhou, Y.(2006). Synthesis of Ti2SnC from Ti/Sn/TiC powder mixtures by pressureless sintering technique . Materials Letters. 60. (29-30). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 3530-3532.

Li, S.-B., Bei, G.-P., Zhai, H.-X., Zhou, Y.(2006). Bimodal microstructure and reaction mechanism of Ti2SnC synthesized by a high-temperature reaction using Ti/Sn/C and Ti/Sn/TiC powder compacts . Journal of the American Ceramic Society. 89. (12). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 3617-3623.

Li, S.-B., Zhai, H.-X., Bei, G.P., Zhou, Y., Zhang, Z.L.(2006). Formation of Ti3AlC2 by mechanically induced self-propagating reaction in Ti-Al-C system at room temperature . Materials Science and Technology. 22. (6). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 667-672.

Li, S.-B., Bei, G.-P., Li, C.-W., Ai, M.-X., Zhai, H.-X., Zhou, Y.(2006). Synthesis and deformation microstructure of Ti3SiAl0.2C1.8 solid solution . Materials Science and Engineering A. 441. (1-2). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 202-205.

Compressive Behavior of Ti 3AlC 2 and Ti 3Al 0.8Sn 0.2C 2 MAX Phases at Room Temperature .

Powder metallurgy processing and compressive properties of Ti 3AlC 2/Al composites .

Controlling the oriented growth of Ti2SnC grains with carbon fiber as a reactive template in the Ti-Sn-C system .

Synthesis, characterization, and intrinsic hardness of layered nanolaminate Ti 3 AlC 2 and Ti 3 Al 0.8 Sn 0.2 C 2 solid solution .

Synthesis, microstructure, and mechanical properties of Ti 3Sn (1-x)Al xC 2 MAX phase solid solutions .

BOOK

Bei, G., Greil, P.(2016). Oxidation-induced Crack Healing in MAX Phase Containing Ceramic Composites . Advanced Ceramics. Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 231-260.

Dubois, S., Bei, G.P., Gauthier-Brunet, V., Tromas, C., Gadaud, P., Villechaise, P.(2012). Ti3Sn(1-x)AlxC2 MAX phase solid solutions: From synthesis to mechanical properties . MAX Phases: Microstructure, Properties and Applications. Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 73-92.

Li, S.-B., Zhai, H.-X., Bei, G.-P., Zhou, Y.(2007). Mechanically activated low-temperature synthesis of Ti2SnC . Key Engineering Materials. 336-338 II. Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 955-957.