The relevance of thermochemical energy storage in the last two decades: The analysis of research evolution

“…The methodology employed in this bibliometric study follows the methodology developed by Calderón et al [ 27 ], which has been widely employed in various bibliometric studies [ 20 , 21 ]. Such methodology consists of several steps, detailed in Fig.…”

“…Bibliometrics can provide a thorough scientific background on the main trends of a specific area [ 19 ]. These studies can help to target issues to address in a research field, perform strategic decision-making, and select the relevant directions to follow in future research [ 20 ]. Bibliometric analyses have been used in several research areas: econometrics, management, statistics, ecology, waste management, production management, renewable energies, and thermal energy storage technologies, among others [ 21 ].…”

Research evolution of limestone calcined clay cement (LC3), a promising low-carbon binder – A comprehensive overview

“…The methodology employed in this bibliometric study follows the methodology developed by Calderón et al [ 27 ], which has been widely employed in various bibliometric studies [ 20 , 21 ]. Such methodology consists of several steps, detailed in Fig.…”

“…Bibliometrics can provide a thorough scientific background on the main trends of a specific area [ 19 ]. These studies can help to target issues to address in a research field, perform strategic decision-making, and select the relevant directions to follow in future research [ 20 ]. Bibliometric analyses have been used in several research areas: econometrics, management, statistics, ecology, waste management, production management, renewable energies, and thermal energy storage technologies, among others [ 21 ].…”

Research evolution of limestone calcined clay cement (LC3), a promising low-carbon binder – A comprehensive overview

“…[21][22][23] Over the past decade, TCES, which stores thermal heat via reversible chemical reactions, has become an important research direction owing to its promise in wide operating temperature ranges and high energy storage density. [24,25] Moreover, since the energy is stored in a chemical form, TCES is capable of long-term, long-distance, and even seasonal energyThe structural and compositional flexibility of perovskite oxides and their complex yet tunable redox properties offer unique optimization opportunities for thermochemical energy storage (TCES). To improve the relatively inefficient and empirical-based approaches, a high-throughput combinatorial approach for accelerated development and optimization of perovskite oxides for TCES is reported here.…”

“…[21][22][23] Over the past decade, TCES, which stores thermal heat via reversible chemical reactions, has become an important research direction owing to its promise in wide operating temperature ranges and high energy storage density. [24,25] Moreover, since the energy is stored in a chemical form, TCES is capable of long-term, long-distance, and even seasonal energy…”

Accelerated Perovskite Oxide Development for Thermochemical Energy Storage by a High‐Throughput Combinatorial Approach

Fluidisable mesoporous silica composites for thermochemical energy storage