Silver Attached Graphene-Based Aerogel Composite Phase Change Material and the Enhancement of Thermal Conductivity

Zhang, Liang; Zeng, Shi; Zhang, Buning; Huang‬‬‬‬, Jinhui Jeanne

doi:10.3390/ma13153271

Cited by 21 publications

(8 citation statements)

References 30 publications

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“…In addition, the T m and T c of pure PW are 54.08 and 49.19 °C, and the Δ H m and Δ H c reach 137.00 and 141.37 J/g, respectively. Compared to pure PW, the slightly decreased T m and T c for PW-GAA may be explained by that the high thermal conductivity of the GAA skeleton enables rapid heat transfer, thus accelerating the phase transition process . However, it can be clearly observed that the latent heat of phase change for composite PCMs decreases to different degrees with increasing AgNP content compared to that of pure PW (Figure c), with H m and H c fluctuating roughly between 130.70 and 136.62 J/g and between 135.00 and 140.43 J/g.…”

Section: Results and Discussionmentioning

confidence: 96%

“…Compared to pure PW, the slightly decreased T m and T c for PW-GAA may be explained by that the high thermal conductivity of the GAA skeleton enables rapid heat transfer, thus accelerating the phase transition process. 38 However, it can be clearly observed that the latent heat of phase change for composite PCMs decreases to different degrees with increasing AgNP content compared to that of pure PW (Figure 5c), with H m and H c fluctuating roughly between 130.70 and 136.62 J/g and between 135.00 and 140.43 J/g. It is evident that the thermal energy storage and release of composite PCMs are highly dependent on the weight percentage of PW since the GA and GAA skeletons hardly behave as phase transition.…”

Section: Thermal Storage Properties Of Pw-gaamentioning

confidence: 96%

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Multi-Stimuli-Responsive Aerogels Composed of Ag Nanoparticle-Coated Graphene Nanosheets for Energy Storage and Conversion

He,

Lu,

Shi

et al. 2023

ACS Appl. Nano Mater.

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Phase change materials (PCMs) offer considerable possibilities in multienergy conversion and thermal energy storage, but the obvious drawbacks of melt leakage, fire risk, low thermal conductivity, and poor light absorption hinder their practical application. In this work, an excellent match of AgNPs and graphene nanosheets was achieved by constructing hybrid aerogels (GAA) through a hydrothermal reduction and thermal annealing process, followed by vacuum impregnation of paraffin wax (PW) to obtain shape-stable composite PCMs (PW-GAA). The 3D porous network connected by graphene nanosheets served as a dispersion carrier for AgNPs, ensuring efficient heat transfer pathways, effective thermal storage ability, and excellent solar-thermal and electro-thermal conversion capability of PW-GAA. Compared to pure PW, the melt leakage rate of PW-GAA3 is reduced to 2.56%, while the thermal stability and flame safety are improved. In addition, the PW-GAA3 can reach a solar-thermal conversion efficiency of 92.62% and an electro-thermal conversion efficiency of 95.19%. Furthermore, it achieves a solar-thermal-electric energy conversion output voltage of 200.5 mV. This work offers a promising approach for effective multienergy conversion and thermal energy storage utilization.

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Section: Results and Discussionmentioning

confidence: 96%

Section: Thermal Storage Properties Of Pw-gaamentioning

confidence: 96%

Multi-Stimuli-Responsive Aerogels Composed of Ag Nanoparticle-Coated Graphene Nanosheets for Energy Storage and Conversion

He,

Lu,

Shi

et al. 2023

ACS Appl. Nano Mater.

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“…The longitudinal thermal conductivity of the obtained composite PCMs was 0.79 W/m•K when the content of rGO/EG aerogels was 8.7 wt %, which was almost four times higher than pristine paraffin. Similarly, Zhang et al 128 prepared anisotropic graphene/silver hybrid aerogels using an ice crystal template method. During the preparation process, silver was tightly attached to the interfaces of graphene nanosheets to reduce the thermal resistance between graphene and PCMs.…”

Section: Carbon Aerogel-based Pcmsmentioning

confidence: 99%

Aerogels Meet Phase Change Materials: Fundamentals, Advances, and Beyond

Chen

Yang

et al. 2022

ACS Nano

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Benefiting from the inherent properties of ultralight weight, ultrahigh porosity, ultrahigh specific surface area, adjustable thermal/electrical conductivities, and mechanical flexibility, aerogels are considered ideal supporting alternatives to efficiently encapsulate phase change materials (PCMs) and rationalize phase transformation behaviors. The marriage of versatile aerogels and PCMs is a milestone in pioneering advanced multifunctional composite PCMs. Emerging aerogel-based composite PCMs with high energy storage density are accepted as a cutting-edge thermal energy storage (TES) concept, enabling advanced functionality of PCMs. Considering the lack of a timely and comprehensive review on aerogel-based composite PCMs, herein, we systematically retrospect the state-of-the-art advances of versatile aerogels for high-performance and multifunctional composite PCMs, with particular emphasis on advanced multiple functions, such as acoustic−thermal and solar−thermal−electricity energy conversion strategies, mechanical flexibility, flame retardancy, shape memory, intelligent grippers, and thermal infrared stealth. Emphasis is also given to the versatile roles of different aerogels in composite PCMs and the relationships between their architectures and thermophysical properties. This review also showcases the discovery of an interdisciplinary research field combining aerogels and 3D printing technology, which will contribute to pioneering cutting-edge PCMs. This review aims to arouse wider research interests among interdisciplinary fields and provide insightful guidance for the rational design of advanced multifunctional aerogel-based composite PCMs, thus facilitating the significant breakthroughs in both fundamental research and commercial applications.

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“…25 In the preparation of composite organic PCMs, due to the high contact surface area of additives and high capillary, they can transfer heat to the absorbent of PCMs very well, and thus avoid liquid leakage. 23,26 Therefore, due to the properties of silver, it is selected as an additive dispersed in PCMs to improve the thermal properties of the composite. Then, silver nanoparticles are synthesized via an in situ reduction strategy and encapsulated via phase change selfassembled micelles (APPG).…”

Section: Introductionmentioning

confidence: 99%

Healable supramolecular micelle/nano-encapsulated metal composite phase change material for thermal energy storage

Muhabie

2023

RSC Adv.

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Silver Attached Graphene-Based Aerogel Composite Phase Change Material and the Enhancement of Thermal Conductivity

Cited by 21 publications

References 30 publications

Multi-Stimuli-Responsive Aerogels Composed of Ag Nanoparticle-Coated Graphene Nanosheets for Energy Storage and Conversion

Multi-Stimuli-Responsive Aerogels Composed of Ag Nanoparticle-Coated Graphene Nanosheets for Energy Storage and Conversion

Aerogels Meet Phase Change Materials: Fundamentals, Advances, and Beyond

Healable supramolecular micelle/nano-encapsulated metal composite phase change material for thermal energy storage

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