优化后的MXene Ti₃C₂电导率比还原氧化石墨烯（rGO）高约5-10倍，已广泛应用于生物医学领域。Ti3C2 MXenes于2018年首次用于修饰电极阵列，显示出优异 ...

与MXene膜相比，MXene@CNF膜虽层间距略有增加，但MXene@CNF膜的氘水吸附能力比MXene膜提高了9倍，质子电导率是MXene膜的3倍。 这说明MXene@CNF膜的氢键/氘键 ...

高效分离水同位素获得氘水对能源、生物医学以及先进制造等领域均具有重要战略意义。然而，水同位素近乎相同物理化学性质--如动力学直径（水：2.641 Å；氘水：2.641 Å）、键长（水：1.01 Å；氘水：0.98 Å）与键能（水：458.9 kJ/mol；氘水：466.4 kJ/mol）--导致其 ...

同时，制备了七乙二醇桥接的 MXene（HBM）薄膜作为对照。 结构表征技术：运用多种手段对材料的结构进行表征，如氢核磁共振（ 1 H NMR）光谱、高分辨率质谱、X 射线衍射（XRD）、原子力显微镜（AFM）、扫描电子显微镜（SEM）、傅里叶变换红外（FTIR）光谱、热重 ...

Researchers have developed a binder-free 3D printing method for MXene, enabling high-resolution microstructures with enhanced conductivity and electromagnetic shielding. MXene, first discovered in the ...

Seol Seung-kwon has developed the world's first technology for printing high-resolution 3D microstructures using MXene, a material known as the dream material. The work is published in the journal ...

The versatility of MXene materials opens new avenues for resolving future energy demands. Lithium-ion batteries are already a dominant technology in portable and flexible electronics industry. However ...

A recent study in Scientific Reports explores the heterogeneous wetting behavior of water on silica glass using advanced AFM techniques, revealing insights into nano-water droplet ... researchers from ...

The trick is to find the ones that are stable. By using a high-throughput computational platform and scanning through the formation energies of millions of alloying configurations, researchers ...

MXenes: Changing the World, the 3rd International MXene Conference at Drexel University, August 5-7, 2024, will focus on chemistry and physics of materials, as well as research innovations, new ...