energy storage aerogel

An ultralight, elastic carbon nanofiber aerogel with efficient

The fabrication of ultralight strong carbon nanofiber aerogels with excellent elasticity is still a challenge. Herein, 3D mesoporous graphene/carbon nanofibers (G/CNF) were prepared

Multifunctional hierarchical graphene-carbon fiber hybrid aerogels for strain sensing and energy storage

Graphene oxide nanosheets can be assembled into multifunctional graphene aerogels for sensing and energy storage applications. However, due to strong van der Waals forces, reduced graphene oxide nanosheets often stack together, significantly compromising their performance. Here, we demonstrate high-performance multifunctional

Exploring the Versatility of Aerogels: Broad Applications in

Research has been conducted on nanocellulose aerogels as a sustainable energy alternative that might potentially substitute current energy storage techniques.

Aerogels: promising nanostructured materials for energy

The attractive structural properties of aerogel put together aerogel as a superior material for battery, solar cell, fuel cell and supercapacitor applications.

Graphene aerogels for efficient energy storage and conversion

Concerns over air quality reduction resulting from burning fossil fuels have driven the development of clean and renewable energy sources. Supercapacitors, batteries and solar cells serve as eco-friendly energy storage and conversion systems vitally important for the sustainable development of human society.

Metal sulfides encapsulated in doped carbon aerogel towards superior and safe energy storage

Hence, it is necessary to fabricate safe anodes with satisfying energy storage performance. In fact, the impacts of TMSs on thermal safety of battery stay unexplored. Inspired by the "Two birds with one stone" strategy, we have designed a 3D micro-nanostructure of CoS 2 /doped carbon aerogel (CoS 2 @NCA) as Li + /Na +

Carbonized clay pectin-based aerogel for light-to-heat conversion and energy storage

Carbonized aerogel has an excellent mechanical property (0.4 MPa at 80% strain). •. The composite PCM has a phase change enthalpy of 161.8 kJ kg −1 (after 300 cycles). •. The photothermal conversion efficiency

Ultralight and robust carbon nanofiber aerogels for

Currently, it still remains a grand challenge to simultaneously enhance the mechanical and electrochemical properties of carbon materials for advanced energy storage and conversion. Herein, we reported the exploration of a

Aerogels for Energy Saving and Storage | Wiley Online Books

About this book. Explore the energy storage applications of a wide variety of aerogels made from different materials. In Aerogels for Energy Saving and Storage,

A review on nanofiber reinforced aerogels for energy storage and

This article provides an overview of the development of nanofibrous aerogels focusing on the carbon and polymer nanofiber reinforced aerogels and their

Aerogels, additive manufacturing, and energy storage

These efforts have resulted in novel electro-chemical energy storage devices (EESDs) with a variety of chemis-tries and materials, such as aerogels, which have significantly

High-frequency electrochemical capacitors based on plasma pyrolyzed bacterial cellulose aerogel for current ripple filtering and pulse energy storage

Using such kHz HF-ECs, we further demonstrated their applications in rapid pulse energy storage for vibrational energy harvesting, as well as in ripple current filtering for AC/DC conversion. The promising results suggest this technology has great potential for developing practical compact HF-ECs in substitution of electrolytic capacitors

Graphene aerogel stabilized phase change material for thermal

Phase change material (PCM) with thermal energy storage capacity has been a hot topic due to the advantages of satisfying the demand for energy storage,

High micropore‐utilization carbon aerogel with controlled

For the carbon aerogel prepared by this method, there are several advantages for energy storage: controllability at the micropore level, designability of the

Exploring the Versatility of Aerogels: Broad Applications in Biomedical Engineering, Astronautics, Energy Storage

Finally, aerogel''s utilizations in numerous disciplines, for instance, energy storage, thermal insulation, catalysis, environmental remedy, and biomedical applications, are summarized. This review paper provides a comprehensive understanding of aerogels and their prospective uses in diverse fields, highlighting their unique properties for future

Heteroatom tuning in agarose derived carbon aerogel for enhanced potassium ion multiple energy storage

Carbon Energy is an open access energy technology journal publishing innovative interdisciplinary clean energy research from around the world. Abstract The incorporation of heteroatoms into carbon aerogels (CAs) can lead to structural distortions and changes in active sites due to their smaller size and electronegativity compared to

Hierarchical-graphene-coupled polyaniline aerogels for electrochemical energy storage

Hierarchical-graphene-coupled polyaniline aerogels for electrochemical energy storage Author links open overlay panel Yang Qu a, Chenbao Lu b, Yuezeng Su a, Daxiang Cui a, Yafei He b, Chao Zhang b, Ming Cai b, Fan Zhang b, Xinliang Feng c, Xiaodong Zhuang b c

Aerogels for Energy Saving and Storage | SpringerLink

Abstract. Aerogels have drawn a great deal of research attention in recent years because their unique and advantageous structural characteristics of high porosity, high specific surface area, and mesopores, find a wide range of potential applications. Among them, their timely and imperative applications in energy saving and energy

Aerogels Meet Phase Change Materials:

Benefiting from the inherent properties of ultralight weight, ultrahigh porosity, ultrahigh specific surface area, adjustable thermal/electrical conductivities, and mechanical flexibility, aerogels are

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