Dr. Quanquan Guo | Mechanics of Functional and Intelligent Materials | Excellence in Research Award
Postdoctoral Researcher at Max Planck Institute of Microstructure Physics | Germany
Dr. Quanquan Guo is a materials scientist whose research bridges dynamic polymer chemistry, sustainable energy systems, and advanced functional materials, with a strong focus on “Structure Code of Organic Electrode Materials for Rechargeable Multivalent Metal Batteries,” “Proton-Selective Coating Enables Fast-Kinetics High-Mass-Loading Cathodes for Sustainable Zinc Batteries,” and “Hierarchically Structured Hydrogel Actuator for Microplastic Pollutant Detection and Removal,” reflecting the breadth of his scientific vision. He serves as a Postdoctoral Associate at the Max Planck Institute of Microstructure Physics and Technische Universität Dresden, where he advances high-performance aqueous battery electrode-skin strategies, molecularly engineered polymer networks, and recyclable electronics. His academic foundation spans a doctorate, master’s, and bachelor’s training in polymer science and engineering, during which he developed pioneering works such as “Protein-Inspired Self-Healable Ti₃C₂ MXenes-Based Supramolecular Elastomer for Intelligent Sensing,” “A Cephalopod-Inspired Mechanoluminescence Material with Skin-Like Self-Healing and Sensing Properties,” “A Review of Mechanochromic Polymers and Composites,” and “Biological Phytic Acid as a Multifunctional Curing Agent for Elastomers.” His contributions extend to emerging technologies including two-dimensional conjugated MOFs, smart adsorbent materials, mechanochromic electronic skins, recyclable functional membranes, and scalable manufacturing platforms such as screen printing and latex-template self-assembly. With more than forty publications, including numerous first and co-first-author articles in leading journals such as Nature Communications, Chemical Society Reviews, Angewandte Chemie, ACS Nano, Advanced Functional Materials, and Chemistry of Materials, his work has accumulated thousands of citations and has earned widespread recognition. His portfolio is complemented by patented polymer-composite technologies and contributions to the monograph Solutions to Microplastics Pollution. Through his interdisciplinary approach, Quanquan Guo continues to develop transformative materials aimed at sustainable energy storage, smart electronics, and environmental remediation.
Featured Publications:
Su, G., Yin, S., Guo, Y., Zhao, F., Guo, Q., Zhang, X., Zhou, T., & Yu, G. (2021). Balancing the mechanical, electronic, and self-healing properties in conductive self-healing hydrogel for wearable sensor applications. Materials Horizons, 8(6), 1795–1804.
Liu, X., Su, G., Guo, Q., Lu, C., Zhou, T., Zhou, C., & Zhang, X. (2018). Hierarchically structured self-healing sensors with tunable positive/negative piezoresistivity. Advanced Functional Materials, 28(15), 1706658.
Guo, Q., Zhang, X., Zhao, F., Song, Q., Su, G., Tan, Y., Tao, Q., Zhou, T., Yu, Y., … (2020). Protein-inspired self-healable Ti₃C₂ MXenes/rubber-based supramolecular elastomer for intelligent sensing. ACS Nano, 14(3), 2788–2797.
Guo, Q., Huang, B., Lu, C., Zhou, T., Su, G., Jia, L., & Zhang, X. (2019). A cephalopod-inspired mechanoluminescence material with skin-like self-healing and sensing properties. Materials Horizons, 6(5), 996–1004.
Wang, Y., Guo, Q., Su, G., Cao, J., Liu, J., & Zhang, X. (2019). Hierarchically structured self-healing actuators with superfast light- and magnetic-response. Advanced Functional Materials, 29(50), 1906198.