Regenerative Hydrovoltaic Power Generator with Remarkable Duration and Fast Power Generation Achieved by Deep Eutectic Biomass Complex [0.03%]
一种基于深吴太溶解生物质复合材料的长寿命快速发电的再生式水电发电机
Haowei Jiang,Huanhuan Zhang,Zhikun Gao et al.
Haowei Jiang et al.
Hydrovoltaic power generators (HPGs) are pivotal for addressing the global energy crisis. However, most prevalent HPGs suffer from a conflict: either generating transient electricity or sustaining long-term output reliant on a continuous wa...
Gregory G Guymon,Hao A Nguyen,David Sharp et al.
Gregory G Guymon et al.
The unique optical properties of quantum dots (QDs), size-tunable emission, and high quantum yield make them ideal candidates for applications in secure quantum communication, quantum computing, targeted single-cell and molecular tagging, a...
Ionizable Coenzyme-Engineered Lipid/Fiber Microplexes Boost Ribosomal Translation to Improve mRNA Therapy for Degenerative Diseases [0.03%]
可离子化的辅酶工程脂质/纤维微复物增强核糖体翻译以改善退行性疾病中的mRNA治疗效果
Shifeng Ling,Yixiang Zhang,Yanyang Chen et al.
Shifeng Ling et al.
Mitochondrial dysfunction-mediated ribosomal translation suppression is a hallmark of aging and a major driver of degenerative diseases, limiting mRNA therapy efficacy. Here, ionizable coenzyme Q10 (iCoQ10)-engineered lipid/fiber microplexe...
Beyond Enzyme Mimics: Engineering Photo-Responsive Nanozymes for Therapeutic Innovation [0.03%]
超越酶 mimics:工程光响应纳米酶用于治疗创新
Qihang Ding,Kai Liao,Kunxiu Zhang et al.
Qihang Ding et al.
Nanozymes, which mimic the catalytic functions of natural enzymes, have attracted increasing attention because of their high stability, low cost, and scalable synthesis. However, their clinical potential is often constrained by their limite...
Zeolite-Anchored Single-Atom Catalysts for Enhanced Hydrogenation and Dehydrogenation Reaction Process [0.03%]
金属有机框架材料负载单原子促进加氢脱氢反应中的催化性能研究
Yingying Liu,Xin Zhang,Zhidong Wang et al.
Yingying Liu et al.
Zeolite-anchored metal catalysts have shown promising applications in hydrogenation and dehydrogenation reactions. However, difficulties such as high synthesis costs, inherent diffusion limitations, and stability issues have limited their l...
Thermal Expansion Matching as a Key Criterion for Developing High-Performance Mn-based Mullite Cathodes in SOFCs [0.03%]
热膨胀匹配作为开发高性能锰基 Mullite 燃料电池 cathode 的关键指标
Yuanchen Duan,Huan Li,Shiqing Li et al.
Yuanchen Duan et al.
Thermal expansion matching is crucial for solid oxide fuel cell (SOFC) cathode design to prevent interfacial delamination or cracking. This work adopts thermal expansion coefficient (TEC) matching as the primary design principle to enable b...
Immuno-Packed T-Cell-Fusogenic Liposome Empowers Adoptive T Cell Therapy for Solid Tumor Treatment [0.03%]
免疫封装的T细胞融合脂质体赋能过继性T细胞治疗实体肿瘤
Chunxiong Zheng,Ke Yi,Yongkang Du et al.
Chunxiong Zheng et al.
Adoptive T cell therapy has achieved remarkable success in certain blood cancers, but its efficacy against solid tumors remains limited by multiple immunological challenges including inadequate tumor infiltration, tumor cell's immune tolera...
Ultrastable Calcium Metal Anodes Enabled by a Strongly Coordinated Electrolyte Derived Bilayer Solid Electrolyte Interphase [0.03%]
由强协调电解质衍生的双层固态电解质界面膜使超稳定的钙金属阳极成为可能
Huijun Lin,Zhen Zhan,Hongxi Zeng et al.
Huijun Lin et al.
Calcium (Ca) metal battery is a promising alternative to current lithium battery chemistry due to the high crustal abundance of Ca element and potentially dendrite-free cycling of high-capacity Ca metal anodes. However, reversible Ca metal ...
High Iontronic Performance in Organic Electrochemical Transistors Enabled by Intramolecular Noncovalent Interactions [0.03%]
基于分子内非共价相互作用的有机电化学晶体管的高性能离子输运性质研究
Guocai Liu,Meng Zhang,Jikai Lv et al.
Guocai Liu et al.
Organic electrochemical transistors (OECTs) show great potential in bioelectronics due to their iontronic coupling, low driving voltages (
3D Spatiotemporal Electrophysiology of Cardiac Organoids Using Shell Microelectrode Arrays [0.03%]
基于壳型微电极阵列的类心脏器官体电生理学时空特性研究
Soo Jin Choi,Zhaoyu Liu,Feiyu Yang et al.
Soo Jin Choi et al.
Cardiac organoids have emerged as powerful platforms for modeling human heart development and disease. However, traditional 2D microelectrode arrays (MEAs) are limited to planar recordings and fail to capture the 3D propagation of electrica...