Research papers Cotton cloth-derived porous carbon skeleton with graphite layer for enhancing the thermal conductivity of energy storage phase change materials
In electrochemical reactions of supercapacitor, carbon cloth can be an auspicious current collector and backbone for the conformal coating of NiCo2 O 4 for energy storage.
Highlights • The porous nest-like NCCO-2 is successfully anchored on activated carbon cloth by rational morphology control strategies. • The NCCO@ACC-2 with enhanced
Advanced flexible supercapacitors with high energy/power density are an imperative research objective. In this study, a dually activated carbon cloth
In this article, we report an electrode of uniform and ultrathin nanosheets of silver-doped manganese oxide (Ag2-MnO2) synthesized on carbon cloth thr
Aqueous gel supercapacitors, as an important component of flexible energy storage devices, have received widespread attention for their fast charging/discharging rates, long cycle life and high
The optimized doped MnO 2 /carbon cloth composites were further used as a symmetrical electrode to assemble flexible supercapacitors (NSCs) to demonstrate actual
Advanced flexible supercapacitors with high energy/power density are an imperative research objective. In this study, a dually activated carbon cloth is designed as the functional current
Carbon-based nanomaterials, including graphene, fullerenes, and carbon nanotubes, are among the most rapidly emerging building blocks
The high performance results with the commercial available carbon cloth can not only offer a competitive approach for industry application of Li metal battery, but also be used
Researchers are investigating combining carbon composites with nanomaterials, such as metal oxides and polymers, to create hybrid electrode materials that have
The structural design of transition metal-based electrode materials with gigantic energy storage capabilities is a crucial task. In this work, we report an assembly of thin layered
A facile, one-step and environmentally-friendly strategy for the preparation of hierarchical nitrogen-doped carbon cloth (hNCC) is presented
In this work, hydrophobic carbon cloth (HCC) was chemically activated by the facile oxidation method using a mixture of concentrated acid (H2SO4:HNO3) followed by
Carbon quantum dots boosted structure stability of nickel cobalt layered double hydroxides nanosheets electrodeposited on carbon cloth for energy storage Wenchao Chen a,
Finally, we summarize the critical issues in carbon cloth-based lithium metal batteries and put forward the most potential modification strategies, paving the pathways for
Grown of flower-like polyaniline nanosheet clusters on carbon cloth for enhanced electrochemical energy storage Author links open overlay panel Hui Wang a, Yiwei
The exploration and optimization of electrodes in capacitors with high capacitance, excellent rate capacity and considerable energy density without sacrificing power
A Novel Exfoliation Strategy to Signifi cantly Boost the Energy Storage Capability of Commercial Carbon Cloth Wang Wang, Wenyue Liu, Yinxiang Zeng, Yi Han, Minghao Yu, Xihong Lu, *
Carbon-based supercapacitors (SCs) are emerging as desirable energy storage devices because of their ultrahigh power density and long lifespan. As an
The MOFs-derived basic Co-Ni carbonates with excellent energy storage performance are grown on carbon cloth by adjusting the microscopic morphology, which
NiCo layered double hydroxides (LDHs) have attracted extensive attention in supercapacitors nowadays due to their ion insertable layer structure, however, improvement of
The findings of this work shall present a sustainable approach for the large-scale preparation of functionalized carbon cloth, which suits the demands raised by
Flexible carbon@graphene composite cloth was fabricated, and the resultant composite cloth consists of core–shell hollow structured carbon/graphene hybrid fibers with
Binder-free electrodes were synthesized by growing carbon nanofibers (CNFs) directly on carbon cloth (CC) via a low-temperature thermal chemical vapor
High-areal-energy density flexible supercapacitors are promising devices for energy storage, to fulfill the growing demand for portable and wearable electronic equipment.
Recently, fabricating integrated and binder-free electrodes by coating active materials on proper self-standing substrate with high electrical conductivity and mechanical
While carbon cloth is generally regarded as improper electrode material due to its poor electrochemical performance, here, we demonstrate the capacitance of carbon cloth can
The structural design of transition metal-based electrode materials with gigantic energy storage capabilities is a crucial task. In this
Capacitive deionization is a promising desalination technique to tackle with freshwater scarcity, due to its facile, energy-efficient and eco-friendly operation. Carbon
Plasma surface functionalization induces nanostructuring and nitrogen-doping in carbon cloth with enhanced energy storage performance † Bo Ouyang ‡ a,
