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Thermal solar container metamaterials

Thermal Metamaterials for Temperature Maintenance: From

This review introduces three innovative devices: the energy-free thermostat, the negative-energy thermostat, and the multi-temperature maintenance container. All are grounded in the principles of

Tunable Multifunctional Thermal Metamaterials: Manipulation of Local

Herein, we introduce tunable thermal metamaterials that use the assembly of unit-cell thermal shifters for a remarkable enhancement in multifunctionality as well as manufacturability.

Recent Advances in Thermal Metamaterials and Their Future

In this paper, we review and summarize the recent progress, and outlook, of thermal metamaterials as related to challenges in thermal management of electronic packaging. In Sec. 2, we

Thermal metamaterials: From static to dynamic heat manipulation

Moreover, the dynamic thermal metamaterials allow accurate control at both time and space dimensions, leading to exciting applications such as adjustable, reconfigurable, and intelligent

A near-perfect solar metamaterial absorber with material

These two materials not only have excellent thermal stability and mechanical properties but are also widely available and low-cost, providing feasibility for lower production costs and large

Topology optimization methods for thermal metamaterials: A review

In this review, we focus on the topology optimization methods for thermal metamaterials, which are summarized into three categories: heat-flux driven, temperature-field driven, and thermal

Broadband Solar Thermal Absorber Based on Optical Metamaterials

In this work, a tandem grating solar absorber is proposed, which can be easily fabricated on a wafer scale and is thermally stable up to 800 K. The base of the solar thermal absorber consists of a

Thermal metamaterials for enhanced non-Fourier heat transport

We have identified scenarios where thermal metamaterials enable the generation of much larger temperature gradients compared to the classical Fourier approach, offering insights into

Solution‐Processed All‐Ceramic Plasmonic Metamaterials for Efficient

Abstract Low-cost and large-area solar–thermal absorbers with superior spectral selectivity and excellent thermal stability are vital for efficient and large-scale solar–thermal

Thermal Metamaterials for Temperature Maintenance: From

Maintaining temperature is crucial in both daily life and industrial settings, ensuring human comfort and device functionality. In the quest for energy conservation and emission reduction, several

Transforming heat transfer with thermal metamaterials and devices

They are often simply called thermal metamaterials, but in this Review we use this term to refer to all kinds of metamaterials for heat transfer control, including the nanophononic and...

Visibly Clear Radiative Cooling Metamaterials for Enhanced

Based on experimental analysis, it has been observed that diverse photonic structures and metamaterials manipulate the solar reflection and thermal emission for daytime radiative cooling. One

Thermal Metamaterial: Fundamental, Application, and Outlook

SUMMARY Thermal metamaterials have amazing properties in heat transfer beyond natu-rally occurring materials owing to their well-designed artificial structures. The idea of thermal metamaterial has

Visibly Clear Radiative Cooling Metamaterials for Enhanced Thermal

The visibly clear metamaterials deployed in solar cells and windows can effectively suppress the rise in temperature under solar irradiation, thereby mitigating the performance degradation of solar cells by

Thermal Metamaterials for Temperature Maintenance: From

When compared with traditional technologies, the unparalleled efficacy of thermal metamaterials in temperature management is evident. Moreover, brief prospects present strategies to improve

Visibly Clear Radiative Cooling Metamaterials for Enhanced Thermal

已完结文献求助详情标题 Visibly Clear Radiative Cooling Metamaterials for Enhanced Thermal Management in Solar Cells and Windows 用于增强太阳能电池和窗户热管理的可视透明辐射

Thermal Metamaterials for Temperature Maintenance: From

Maintaining temperature is crucial in both daily life and industrial settings, ensuring human comfort and device functionality. In the quest for energy conservation and emission reduction, several

Thermal Metamaterial: Fundamental, Application, and Outlook

In this perspective, we review the up-to-date progress of thermal metamaterials start-ing from 2008. We focus on both the key theoretical fundamentals and tech-niques for applications and give a

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