MgCl2-MXene based nanohybrid composite for efficient thermochemical heat storage application

“…Renewable energy-based alternative policies must be implemented due to exhaustive consumption of fossil fuels and high energy demand. − The modernism of well-organized technology for turning greenhouse gases like carbon dioxide (CO 2 ) into highly valued products will profoundly influence the environment and the economy. − Furthermore, carbon capture and utilization technologies are becoming more popular as the decarbonization of industries and circular economy become global concerns. − The bioelectrochemical process of microbial electrosynthesis (MES) can potentially convert CO 2 into a variety of short-chain carboxylic acids, alcohols, and methane, most of which are currently created from fossil-based precursors. − It is imperative to build inexpensive modified electrode materials because they are critical for selective microbial richness and serve as sites for microbial attachment and growth. − …”

“… 16 − 19 It is imperative to build inexpensive modified electrode materials because they are critical for selective microbial richness and serve as sites for microbial attachment and growth. 20 − 24 …”

Facial Synthesis, Stability, and Interaction of Ti₃C₂T_x@PC Composites for High-Performance Biocathode Microbial Electrosynthesis Systems

“…Renewable energy-based alternative policies must be implemented due to exhaustive consumption of fossil fuels and high energy demand. − The modernism of well-organized technology for turning greenhouse gases like carbon dioxide (CO 2 ) into highly valued products will profoundly influence the environment and the economy. − Furthermore, carbon capture and utilization technologies are becoming more popular as the decarbonization of industries and circular economy become global concerns. − The bioelectrochemical process of microbial electrosynthesis (MES) can potentially convert CO 2 into a variety of short-chain carboxylic acids, alcohols, and methane, most of which are currently created from fossil-based precursors. − It is imperative to build inexpensive modified electrode materials because they are critical for selective microbial richness and serve as sites for microbial attachment and growth. − …”

“… 16 − 19 It is imperative to build inexpensive modified electrode materials because they are critical for selective microbial richness and serve as sites for microbial attachment and growth. 20 − 24 …”

Facial Synthesis, Stability, and Interaction of Ti₃C₂T_x@PC Composites for High-Performance Biocathode Microbial Electrosynthesis Systems

“…With the increasing global energy demand driven by industrial production and residential consumption, energy has become a focal point of academic research in recent years [1]. The diversity of sources is increasing, load-side energy demand is becoming more complex, energy storage [2][3][4] is becoming more flexible, and innovation in energy devices is promoting different types of energy. Concepts such as the Energy Internet [5,6] and Integrated Energy Systems (IES) [7] have emerged, sparking a new wave of energy reform.…”

A Multi-Agent Integrated Energy Trading Strategy Based on Carbon Emission/Green Certificate Equivalence Interaction

“…[12][13][14] TCS utilizing reversible chemical reactions to store and release energy with high HSD [15][16][17] and lossless heat storage 18 makes a promising and useful contribution to the storage of low-grade thermal energy. Various TCS materials have been studied, such as metal salts with water, 19,20 ammonia, [21][22][23] methanol, 24,25 or metal alloys with hydrogen. 26,27 In a relevant research article, Cot-Gores et al reported that water as an environmentally friendly adsorbate could meet the requirements of safety system, and crystalline hydrate as a heat storage material had a good development prospect.…”

Performance investigation of LiCl·H₂O-γ-Al₂O₃ composite materials for low-grade heat storage