Elevating the Photothermal Conversion Efficiency of
To alleviate the predicament of resource shortage and environmental pollution, efficiently using abundant solar energy is a great challenge. Herein, we prepared unique photothermal conversion phase
Polypyrrole‐boosted photothermal energy storage in
The photothermal energy conversion and storage efficiency (η) of ODA@MOF/PPy can be calculated by the following equation. m is the quality of ODA@MOF/PPy, ΔH represents the latent heat of ODA@MOF/PPy, P is
Azopyridine Polymers in Organic Phase Change Materials for High
1 天前· Azo-compounds molecules and phase change materials offer potential applications for sustainable energy systems through the storage and controllable release photochemical and
Temperature‐Responsive Thermochromic Phase
The designed TC-PCMs have a high photothermal conversion efficiency by using different styles of reversible thermochromic microcapsules, which can intelligently adjust the surface color of TC-PCMs according to the
Polypyrrole‐boosted photothermal energy storage in
The photothermal conversion and storage efficiency of ODA@MOF/PPy-6% is up to 88.3%, while that of ODA@MOF is only zero, showing great application prospects in solar energy utilization. The
Photothermal Chemistry Based on Solar Energy: From Synergistic
Without the assistance of any other energy source, including chemical energy (e.g., sacrificial agent) and electrical energy (e.g., biased voltage), the highest experimental solar-to-fuel (STF)
Photothermal Nanomaterials: A Powerful Light-to-Heat
The investigation of photothermal materials with broadband absorption is beneficial for the utilization of renewable solar energy, while the engineering of materials with efficient heat generation abilities can be widely
Intrinsically lighting absorptive PANI/MXene aerogel encapsulated
Low photothermal conversion efficiency and difficulty in thermal energy storage are still obstacles during the solar energy utilization and conversion [9]. In order to solve the