Phase change energy storage aerogel

Tags: Phase Change Energy Energy Storage

Cellulose nanofibrous/MXene aerogel encapsulated phase change

Phase change materials (PCMs) have emerged as the most efficient thermal energy storage solutions due to their unique energy storage properties, but they inevitably have
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Structurally stable cellulose nanofiber-based phase

This study introduces the creation of cellulose nanofiber-based phase change composite aerogels (CPCAs), which consist of cellulose
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Cellulose nanofiber/melanin hybrid aerogel supported phase change

Organic phase change materials (PCMs) have been widely applied in thermal energy storage fields due to their good structural stability, high energy storage density, adjustable phase
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A review of shape stabilized aerogel-based phase change materials

TES technology provides a reasonable and effective solution for the sustainable energy supply, and mainly focuses on latent heat storage of phase change materials (PCMs), sensible heat
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Tailoring SiC Nanowire Aerogel in Phase Change Composites with

Herein, a SiC nanowire aerogel with tailorable porosity and surface was used to encapsulate stearic acid for fabricating phase change composites.
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Journal of Energy Storage | Vol 153, Part B, In progress (1 April 2026

Read the latest articles of Journal of Energy Storage at ScienceDirect , Elsevier''s leading platform of peer-reviewed scholarly literature
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Beehive-Inspired Aerogels with Self-Assembled Phase Change Walls

Inspired by honeycomb architecture, we present a bioinspired self-assembly strategy to construct phase change aerogels (PCAs), where solid PCM particles function as both structural and
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Cellulose aerogel-based phase-change composites for high-efficiency

Here, a cellulose aerogel composite by integrating ionic liquid-modified graphene oxide (IGNs) with polyethylene glycol (PEG) for personal thermal management was proposed.
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Intrinsic photothermal performance and flexibility of polyurethane

Abstract Phase change materials (PCMs) with photothermal properties can effectively convert solar energy into thermal energy and store it via phase change, subsequently provide heat
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Ultra-flexible, Adaptable and Multifunctional Polymer-Based

Phase change materials (PCMs) offer great potential for realizing zero-energy thermal management due to superior thermal storage and stable phase-change temperatures.
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Graphene aerogel stabilized phase change material for thermal

Fabrication of shape-stable composite phase change materials based on lauric acid and graphene/graphene oxide complex aerogels for enhancement of thermal energy storage and
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Graphene aerogel-based phase changing composites for thermal energy

Phase changing materials (PCM) release or absorb heat in high quantity when there is a variation in phase. PCMs show good energy storage density, restricted operating temperatures and hence find
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The design of phase change materials with carbon

Herein, we propose a multi-responsive thermal energy capture and storage system involving Fe-doped carbon aerogel as a supporting matrix and eicosane as a PCM.
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Advanced polyethylene glycol based flexible composite phase change

Self-assembled cellulose nanofibers/graphene aerogel-supported phase change composites with a three-dimensional network structure for enhanced solar-thermal energy conversion and storage.
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Heat transfer performance study of gypsum boards integrated with

Thermal energy storage technology based on phase change materials (PCMs) has garnered significant attention for its capacity to reversibly store and release substantial thermal
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Preparation and properties of capric acid: Stearic acid/hydrophobic

Article: Preparation and properties of capric acid: Stearic acid/hydrophobic expanded perlite-aerogel composite phase change materials
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Research progress on carbon aerogel composite phase-change energy

The over-reliance of human society on fossil fuels has triggered global climate change and an energy crisis, a severe situation that urgently demands the development of clean, efficient, and
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Aerogel-Based Phase Change Materials Meet Flame Retardancy:

Aerogels, characterized by high porosity, low density, and tunable structures, provide effective support matrices for encapsulating PCMs, thereby improving shape stability and enabling
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Graphene aerogel stabilized phase change material for thermal energy

Abstract 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, saving and conversion.
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Self-Assembly of Binderless MXene Aerogel for Multiple-Scenario and

This work proposes a tactic for improving the efficiency of thermal energy conversion and expanding the application scenarios of phase change materials by constructing non-binder and oriented MXene-K+
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Aerogel‐Functionalized Phase Change Materials toward Lightweight

With their low density and high porosity, aerogels are widely used as supporting frameworks for phase change materials (PCMs).
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PLA aerogel as a universal support for the typical organic phase change

Latent heat storage technologies based on Phase change materials (PCMs) are particularly attractive for applications where thermal energy must be stored or delivered over a
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Microencapsulation of phase change materials via interfacial jamming

Compared with the sensible heat storage and thermochemical heat storage systems, PCMs offer distinct advantages, including high energy storage density, constant phase change temperature,
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Hybrid graphene aerogels/phase change material composites:

Phase change material (PCM) used as advanced LHTES material, is one of the most effective technique for thermal energy storage with high storage density, enabling a compact energy
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Dong, Kaixin, Sheng, Nan, Zou, Deqiu, Wang, Cheng, Yi, Xuemei,

Qian, Tingting, Li, Jinhong, Feng, Wuwei, Nian, Hong''en (2017) Enhanced thermal conductivity of form-stable phase change composite with single-walled carbon nanotubes for thermal energy storage.
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