Intertwined CNT Assemblies as an All-Around Current Collector for Volume-Efficient Lithium-Ion Hybrid Capacitors

Abstract: The increasing demands for conversion systems for clean energy, wearable devices powered by energy storage systems, and electric vehicles have greatly promoted the development of innovative current collectors to replace conventional metal-based foils, including those in multidimensional forms. In this study, carbon nanotubes (CNTs) with desirable features and ease of processing are used in the preparation of floating catalyst–chemical vapor deposition-derived CNT sheets for potential use as all-around current … Show more

“…As we all know, 1D CNTs and 2D graphene are widely studied as new carbon materials with high electrical conductivity . The linear structure of CNTs can overlap on the surface of active material particles to form electron transport paths, and the 2D structure of graphene can be used as a supporting material to carry other active materials, which can help to build a conductive network more effectively , so that the active materials on the entire electrode can be used more effectively.…”

Recent Advances in Hybrid Lithium-Ion Capacitors: Materials and Processes

“…As we all know, 1D CNTs and 2D graphene are widely studied as new carbon materials with high electrical conductivity . The linear structure of CNTs can overlap on the surface of active material particles to form electron transport paths, and the 2D structure of graphene can be used as a supporting material to carry other active materials, which can help to build a conductive network more effectively , so that the active materials on the entire electrode can be used more effectively.…”

Recent Advances in Hybrid Lithium-Ion Capacitors: Materials and Processes

“…In addition, both carbon nanotubes and PEDOT have the advantages of good electrical conductivity, good stability, and controllable morphology, so they can be used as excellent substrate materials for capacitors. [35][36][37] However, there are few reports on the rational incorporation of two conductive substrates into the skeletons of COFs for supercapacitors.…”

A simple strategy for the construction of bi-supported triazine-based covalent organic frameworks as high-performance capacitive materials

“…7 In various applications such as energy devices, ILs are typically assembled with carrier materials and transformed into solid devices to guarantee sustainable and stable operation. 2 To maintain the accessibility of ILs within solid devices simultaneously, porous materials such as porous carbon, 8–10 metal–organic frameworks (MOFs), 11 and silica 12 are often employed. Porous carbon materials such as graphene and carbon nanotubes (CNTs) exhibit remarkable conductivity and customizable pore sizes and structures, rendering them as promising application candidates, particularly in energy storage.…”

Molecular insights into the nanoconfinement effect on the structure and dynamics of ionic liquids in carbon nanotubes