Transfer and beyond: emerging strategies and trends in two-dimensional material device fabrication [0.03%]
转移与展望:二维材料器件制备新策略和新趋势
Gang Huang,Ruosi Chen,Mingxi Chen et al.
Gang Huang et al.
The field of two-dimensional (2D) materials has seen remarkable progress, driven by their exceptional electronic, optical, and mechanical properties. In addition to their intrinsic qualities, 2D materials are atomically thin and readily int...
Tadashi Mori
Tadashi Mori
The development of materials exhibiting circularly polarized luminescence (CPL) is a key area of research for next-generation optical technologies, including 3D displays and secure communications. The central goal in this field is to create...
Understanding the pentafluorosulfanyl group and property-driven design of SF5-containing compounds [0.03%]
五氟代硫酰基团及含SF5化合物的功能导向设计研究进展
Thi Mo Nguyen,Floriane René,Vincent Bizet et al.
Thi Mo Nguyen et al.
The SF5 group has recently gained prominence as a versatile and promising structural motif in synthetic organic chemistry, attracting considerable attention from organofluorine chemists as a significant framework for innovative research. It...
How can thermoelectric coupling catalysis be applied to facilitate biomass conversion into value-added products and hydrogen? [0.03%]
热电偶催化在生物质转化增值产品和氢气中的应用如何实现?
Hao Chang,Xuesong Liu,Ao Xia et al.
Hao Chang et al.
Biomass conversion into fuels and chemicals holds great promise for sustainable development, yet its efficient valorization remains hindered by the intrinsic complexity of polymeric structures and oxygen-rich functionalities. While thermoca...
Tailoring grain boundaries of solid-state electrolytes for building better all-solid-state lithium batteries [0.03%]
用于构建更好的全固态锂离子电池的固态电解质晶界调控研究进展
Yang Luo,Yuke Shen,Xiaofei Yang et al.
Yang Luo et al.
Grain boundaries (GBs), which are inherent and unavoidable microstructural features in polycrystalline materials, play a decisive role in determining the overall performance of solid-state electrolytes (SSEs). Although SSEs hold great promi...
Jianyu Zhang,Zuping Xiong,Xiong Liu et al.
Jianyu Zhang et al.
In molecular science, theories based on covalent through-bond conjugation (TBC) serve as the foundational framework for designing efficient organic functional materials (OFMs). However, while TBC has been extensively established, through-sp...
Designing rare-earth-based nanoalloys for advanced catalysis: trends, challenges, and perspectives [0.03%]
稀土基纳米合金的设计用于先进催化:趋势、挑战与展望
Shuai Zhang,Yong Jiang,Jinyuan Zhao et al.
Shuai Zhang et al.
In recent years, rare-earth (RE) elements have demonstrated tremendous potential in constructing high-performance catalytic materials, owing to their unique 4f electronic configurations and low electronegativity. Incorporating RE elements i...
Designing physically separated bimetallic catalysts through cooperative redox enhancement (CORE) [0.03%]
通过协同氧化还原增强设计物理分离的双金属催化剂(CORE)
Bohyeon Kim,Isaac T Daniel,Mark Douthwaite et al.
Bohyeon Kim et al.
Liquid-phase heterogeneous catalysis underpins numerous chemical manufacturing processes, ranging from essential products to renewable energy sources, such as hydrogen. Despite the differences in reactor setups and the driving forces betwee...
Shuguo An,Pengyao Xing
Shuguo An
The halogen bond (XB) is a directional noncovalent interaction formed between a halogen atom acting as an electrophilic site and a Lewis base. In recent years, it has shown great potential in the design of functional chiral systems. Due to ...
Progress of surface-modified inorganic phosphors for performance improvement: from methods to applications [0.03%]
表面改性无机发光材料的研究进展:从方法到应用
Fuyan Su,Wei Wang,Piaoyang Wu et al.
Fuyan Su et al.
Surface modification strategies exhibit superior interface control capability and functional scalability, which can not only protect the structure and performance stability but also endow the materials with new features. In particular, surf...