Articles with "thermal energy" as a keyword



Emerging Solid‐to‐Solid Phase‐Change Materials for Thermal‐Energy Harvesting, Storage, and Utilization

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Published in 2022 at "Advanced Materials"

DOI: 10.1002/adma.202202457

Abstract: Phase‐change materials (PCMs) offer tremendous potential to store thermal energy during reversible phase transitions for state‐of‐the‐art applications. The practicality of these materials is adversely restricted by volume expansion, phase segregation, and leakage problems associated with… read more here.

Keywords: change; thermal energy; solid solid; phase ... See more keywords

Perovskite Materials for Efficient Utilization of Thermal Energy

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Published in 2025 at "Asia-Pacific Journal of Chemical Engineering"

DOI: 10.1002/apj.70029

Abstract: Global warming is the primary concern of the world because it results in environmental damage and eventually causes serious effects on human health. Thermal energy storage and conversion systems can be opted to reduce the… read more here.

Keywords: energy storage; energy; thermal energy; perovskite materials ... See more keywords

Quasi-solid-State Electrolytes for Low-Grade Thermal Energy Harvesting using a Cobalt Redox Couple.

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Published in 2018 at "ChemSusChem"

DOI: 10.1002/cssc.201800794

Abstract: Thermoelectrochemical cells, also known as thermocells, are electrochemical devices for the conversion of thermal energy directly into electricity. They are a promising method for harvesting low-grade waste heat from a variety of different natural and… read more here.

Keywords: redox couple; couple; cobalt; thermal energy ... See more keywords

A semi‐analytical solution for time‐varying latent heat thermal energy storage problems

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Published in 2020 at "International Journal of Energy Research"

DOI: 10.1002/er.5078

Abstract: Latent heat thermal energy storage (LHTES) problems include a lot of boundary conditions that could not be solved by exact solution, so new approaches to solving such problems could revolutionize the advanced energy storage devices.… read more here.

Keywords: energy; solution; thermal energy; energy storage ... See more keywords

Patent‐based trend analysis for advanced thermal energy storage technologies and their applications

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Published in 2020 at "International Journal of Energy Research"

DOI: 10.1002/er.5148

Abstract: Today, the world is moving towards sustainable and renewable energy resources. In order to ensure sustainable and steady power supply, thermal energy storage (TES) is playing a vital role. Most parts of the literature focus… read more here.

Keywords: energy; thermal energy; energy storage; research ... See more keywords

PolyHIPE composite based‐form stable phase change material for thermal energy storage

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Published in 2020 at "International Journal of Energy Research"

DOI: 10.1002/er.5390

Abstract: A novel shape‐stabilized n‐hexadecane/polyHIPE composite phase change material (PCM) was designed and thermal energy storage properties were determined. Porous carbon‐based frameworks were produced by polymerization of styrene‐based high internal phase emulsions (HIPEs) in existence of… read more here.

Keywords: energy; storage; phase; phase change ... See more keywords

Enhanced dynamic simulation approach towards the efficient mining thermal energy supply with improved operational flexibility

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Published in 2020 at "International Journal of Energy Research"

DOI: 10.1002/er.6089

Abstract: This paper presents a thermal power plant retrofitting approach focused on improvements in the operational flexibility of existing combined cycle power plants dedicated to providing thermal energy for medium and low‐temperature processes in copper mining… read more here.

Keywords: energy; system; operational flexibility; thermal energy ... See more keywords

Phase Change Thermal Energy Storage Enabled by an In Situ Formed Porous TiO2.

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Published in 2022 at "Small"

DOI: 10.1002/smll.202204998

Abstract: Uneven and insufficient encapsulation caused by surface tension between supporting and phase change materials (PCMs) can be theoretically avoided if the encapsulation process co-occurs with the formation of supporting materials in the same environment. Herein,… read more here.

Keywords: thermal energy; porous tio2; phase change; energy storage ... See more keywords

Sustainable Thermal Energy Batteries from Fully Bio-Based Transparent Wood.

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Published in 2023 at "Small"

DOI: 10.1002/smll.202301262

Abstract: The sustainable development of functional energy-saving building materials is important for reducing thermal energy consumption and promoting natural indoor lighting. Phase-change materials embedded in wood-based materials are candidates for thermal energy storage. However, the renewable… read more here.

Keywords: thermal energy; energy; fully bio; bio based ... See more keywords

Porous-Based Materials for High Power Density Thermal Energy Storage and Flexible Conversion: A Comprehensive Review.

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Published in 2025 at "Small"

DOI: 10.1002/smll.202504953

Abstract: Addressing the thermal challenges inherent in energy storage and conversion-driven by the demand for high energy and power density-is crucial for advancing carbon neutrality. Porous materials, characterized by their high surface area, tunable porosity, and… read more here.

Keywords: energy storage; energy; review; conversion ... See more keywords

Effective Surface Modification of 2D MXene toward Thermal Energy Conversion and Management.

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Published in 2023 at "Small methods"

DOI: 10.1002/smtd.202300077

Abstract: Thermal energy management is a crucial aspect of many research developments, such as hybrid and soft electronics, aerospace, and electric vehicles. The selection of materials is of critical importance in these applications to manage thermal… read more here.

Keywords: management; thermal energy; energy; surface modification ... See more keywords