郭再萍   澳大利亚科学院院士、澳大  锌离子电池是一种具有广泛应用前景的储能系统。但由于锌离子半  王树涛   中国科学院理化技术研究所  仿生粘附界面材料是一种受到生物粘附启发的材料，它们模拟了生
 Guo   利亚阿德莱德大学教授  径较大和电荷密度较高等问题，完全适用于锌离子电池的正极材料  Wang   研究员  物体表面粘附的机制，以实现具有优异粘附性能的界面材料。
                                    Researcher at the
 Academician of the
 Zaiping  Australian Academy of   较少。因此，设计适合的电解液和界面对于提高锌离子电池的性能  Shutao  Technical Institute of   Bio-inspired adhesion interface materials are materials inspired
 Science, Professor at the   至关重要。  Physics and Chemistry,
 University of Adelaide             Chinese Academy of     by biological adhesion mechanisms. They mimic the adhesion
 Zinc-ion batteries form a kind of energy storage systems with   Sciences  mechanisms on biological surfaces to achieve interface materi-
 broad application prospects. However, due to issues such as   als with excellent adhesion properties.
 the large radius and high charge density of zinc ions, there
 are relatively few positive electrode materials suitable for zinc-
 ion batteries. Therefore, designing suitable electrolytes and
 interfaces is crucial for enhancing the performance of zinc-ion
 batteries.









 窦世学   澳大利亚科学院院士，上海  可持续能源体系的发展战略包括坚持节能战略，实现能源结构的转  王丹   中国科学院过程工程研究所  多功能结构体系在合成化学和储能应用中都具有广泛的研究和应
 Dou Shixue  理工大学能源材料科学研究  变，实施水电、核电的长期发展计划，注重环境保护以及做好可再  Wang Dan  研究员  用。在合成化学中，多功能结构体系为材料的多功能化提供了结构
                                    Researcher at the Institute
 院院长、教授
 Fellow of the Engineers   生能源发展的规划和支持。  of Process Engineering,   基础。
 Australia, Dean and                Chinese Academy of
 Professor of the Institute   The development strategy of a sustainable energy system   Sciences  Multifunctional structural systems boast extensive research
 of Energy Materials   requires adhering to energy-saving strategies, achieving a   and applications in synthetic chemistry and energy storage. In
 Science at University of   transformation in energy structure, implementing long-term   synthetic chemistry, they provide a structural basis for the mul-
 Shanghai for Science and   development plans for hydropower and nuclear power, empha-  tifunctionalization of materials.
 Technology
 sizing environmental protection, and planning and supporting
 the development of renewable energy.













 刘化鹍   澳大利亚科学院院士、上海  钠电池作为储能新兴技术，有着巨大的潜力。发展钠电池不仅有助  谷林   中国科学院物理研究所研究员  功能材料的特性主要源于其内部的结构和物理性质。这些特性通常
 Liu Huakun  理工大学教授  于减少对锂资源的依赖，还能够降低电池制造的成本，使清洁能源  Gu Lin  Researcher at the   包括但不限于热学、光学、电学、磁学和化学性质，是由其晶体结构、电
                                    Institute of Physics,
 Fellow of the Engineers
 Australia, Professor of   更加普惠。    Chinese Academy of     子结构以及缺陷结构等决定的。
 Shanghai for Science and           Sciences
 Technology  Sodium batteries, as an emerging energy storage technology,   The properties of functional materials mainly stem from their
 have tremendous potential. Development of sodium batteries   internal structure and physical properties. These properties typ-
 not only helps reduce dependence on lithium resources but   ically include but are not limited to thermal, optical, electrical,
 also lowers battery manufacturing costs, making clean energy   magnetic, and chemical properties, which are determined by
 more accessible.                                          their crystal structure, electronic structure, and defect structure.















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