Flexible Multilayered(灵活的多层)研究综述
Flexible Multilayered 灵活的多层 - Herein, a novel self-powered EF degradation system was built via combining 3D printed flexible multilayered triboelectric nanogenerator (PFM-TENG) with the N-doped porous carbon materials as EF cathode catalysts. [1] Herein, the flexible multilayered MXene/thermoplastic polyurethane films were prepared via a simple layer-by-layer spraying technique. [2] Plasmonic surface of flexible multilayered nanofibers possesses special superiority for the surface-enhanced Raman scattering (SERS) sensing of molecules and microbial cells. [3] Here, a cation-driven assembly process is demonstrated to fabricate highly stable and flexible multilayered films of V2 CTx and Ti2 CTx MXenes from their chemically unstable delaminated single-layer flakes. [4]在此,通过将 3D 打印柔性多层摩擦纳米发电机 (PFM-TENG) 与 N 掺杂多孔碳材料作为 EF 阴极催化剂相结合,构建了一种新型的自供电 EF 降解系统。 [1] 在此,通过简单的逐层喷涂技术制备了柔性多层 MXene/热塑性聚氨酯薄膜。 [2] 柔性多层纳米纤维的等离子体表面对于分子和微生物细胞的表面增强拉曼散射(SERS)传感具有特殊的优势。 [3] 在这里,展示了一种阳离子驱动的组装工艺,可以从其化学不稳定的分层单层薄片中制造出高度稳定和灵活的 V2 CTx 和 Ti2 CTx MXenes 多层薄膜。 [4]