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1.
Li Ding Dan Xiao Zong Lu Junjie Deng Yanying Wei Jürgen Caro Haihui Wang 《Angewandte Chemie (International ed. in English)》2020,59(22):8720-8726
Membrane‐based reverse electrodialysis (RED) is considered as the most promising technique to harvest osmotic energy. However, the traditional membranes are limited by high internal resistance and low efficiency, resulting in undesirable power densities. Herein, we report the combination of oppositely charged Ti3C2Tx MXene membranes (MXMs) with confined 2D nanofluidic channels as high‐performance osmotic power generators. The negatively or positively charged 2D MXene nanochannels exhibit typical surface‐charge‐governed ion transport and show excellent cation or anion selectivity. By mixing the artificial sea water (0.5 m NaCl) and river water (0.01 m NaCl), we obtain a maximum power density of ca. 4.6 Wm?2, higher than most of the state‐of‐the‐art membrane‐based osmotic power generators, and very close to the commercialization benchmark (5 Wm?2). Through connecting ten tandem MXM‐RED stacks, the output voltage can reach up 1.66 V, which can directly power the electronic devices. 相似文献
2.
K. Venkata Rao Dr. K. K. R. Datta Prof. Muthusamy Eswaramoorthy Dr. Subi. J. George 《Chemistry (Weinheim an der Bergstrasse, Germany)》2012,18(8):2184-2194
Light‐harvesting hybrids have gained much importance as they are considered as potential mimics for photosynthetic systems. In this Concept article we introduce the design concepts involved in the building up of light‐harvesting hybrids; these resemble the well‐studied organic‐based assemblies for energy transfer. We have structured this article into three parts based on the strategies adopted in the synthesis of hybrid assemblies, as covalent, semicovalent, and noncovalent procedures. Furthermore, the properties and structural features of the hybrids and analogous organic assemblies are compared. We also emphasize the challenges involved in the processability of these hybrid materials for device applications and present our views and results to address this issue through the design of soft‐hybrids by a solution‐state, noncovalent, self‐assembly process. 相似文献