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Article
Thermodynamics
Yishuang Ji et al.
Summary: In this study, a simple and easy-to-manufacture radiative cooling driving thermoelectric generator (RC-TE) system was developed. The experimental results showed that the system had good thermoelectric power generation performance. The study provides guidance for the improvement and optimization of experimental devices, and offers new ideas and practical guidelines for the design and application of the RC-TE system.
APPLIED THERMAL ENGINEERING
(2023)
Article
Energy & Fuels
Cun-Hai Wang et al.
Summary: In this paper, a passive thermoelectric system that produces continuous electric power during a full 24-hour day is proposed. The system utilizes radiative cooling and solar heating to maintain and amplify the thermoelectric output. The effects of various factors on system performance are studied, and the system's seasonal and locational performance in China is evaluated.
Review
Engineering, Environmental
Junwei Liu et al.
Summary: With the increasing concern over global warming and climate change, there is a growing demand for clean cooling technologies. Radiative sky cooling (RSC) has emerged as a promising solution that can dissipate heat without causing pollution or consuming energy. However, the low cooling power has hindered its large-scale application. This article provides a critical review of recent efforts to address this challenge and offers potential avenues for further advancements in RSC technology.
CHEMICAL ENGINEERING JOURNAL
(2023)
Article
Thermodynamics
Cun-Hai Wang et al.
Summary: This study presents the design and validation of an all-day passive thermoelectric system based on ultra-cold outer space and solar sunshine. By coating a special thin film on one side of the thermoelectric generator, the temperature is decreased through passive radiative cooling, while the other side is placed in a greenhouse to increase the temperature. The combination of passive radiative cooling and greenhouse effects enhances the temperature difference and output power.
Article
Nanoscience & Nanotechnology
Zhaoxing Lin et al.
Summary: The study developed a high-performance PNPG/MoS2 synergistic photothermal system through electrostatic-induced self-assembly, achieving synergistic solar evaporation and thermoelectric power generation, enhancing the efficiency and output of solar thermal energy utilization.
ACS APPLIED MATERIALS & INTERFACES
(2022)
Article
Chemistry, Multidisciplinary
Yongzheng Zhang et al.
Summary: An innovative phase change composite with fibrous crystals embedded in a circular truncated cone structure has been developed to address the thermal management issue in solar thermoelectric generators (STEGs), achieving a record-breaking power density of 198.70 W m(-2) and enabling stable energy output from clean solar energy.
ADVANCED FUNCTIONAL MATERIALS
(2022)
Review
Chemistry, Multidisciplinary
Chaoliang Hu et al.
Summary: Bulk nanostructuring has been a leading strategy for optimizing thermoelectric properties by introducing strong grain boundary scattering, but recent findings have shown that charge carrier transport in some nanostructured materials can be significantly suppressed. Understanding the interaction mechanism of grain boundaries on carrier transport and strategies to enhance thermoelectric performance are crucial. Additionally, using the charge shielding ratio as an indicator to distinguish between different scattering mechanisms is proposed.
ENERGY & ENVIRONMENTAL SCIENCE
(2022)
Article
Chemistry, Physical
Yang Geng et al.
Summary: In recent years, researchers have been focusing on optimizing the performance of interfacial solar steam generation (ISSG) system by proposing novel bio-derived/bio-inspired design strategies, which inherit highly efficient structures from nature and advantages from long evolutionary processes, as well as having low cost and ease of treatment.
Review
Chemistry, Physical
Qingyu Yan et al.
Summary: This review provides an overview of mid- to high-temperature thermoelectric materials and their applications, while highlighting the challenges that need to be addressed for commercial implementation. Research has shown the potential of thermoelectric materials in improving fuel utilization efficiency, but unresolved issues still hinder successful commercialization.
Review
Optics
Shanhui Fan et al.
Summary: Radiative cooling is a passive process that utilizes photon heat flow to remove energy and entropy. Recent breakthroughs in nanophotonics have enabled advances in daytime radiative cooling and sparked intense research efforts in this field. Radiative cooling is now emerging as a frontier in renewable energy research, with significant potential for various applications.
Article
Chemistry, Multidisciplinary
Yijie Liu et al.
Summary: This paper investigates the impact of thermal radiation on the performance of wearable thermoelectric generators and verifies the enhanced performance of a wearable thermoelectric generator combined with a radiative cooling coating. The results show significant improvements in output power in both exposed and non-exposed environments. Additionally, the indoor output performance of the wearable thermoelectric generator with a radiative cooling coating is extensively investigated, demonstrating a doubling of the output power density.
Article
Chemistry, Multidisciplinary
Xin Huang et al.
Summary: Inspired by the hierarchically oriented architecture of natural spider silk, highly efficient and mechanically durable photothermal materials have been developed using a ultrarobust liquid metals/polymer composite. This composite exhibits exceptional broad-band light absorption, excellent photothermal conversion ability, remarkable mechanical properties, and long-term structural reliability, making it ideal for solar harvesting applications.
Article
Chemistry, Physical
Zhenhua Wu et al.
Summary: Thermoelectricity is a green technology that converts thermal energy into electricity, playing a vital role in addressing global warming. Recent advancements in thermoelectric materials and devices have enabled various applications such as sensors, temperature control, and desalination. Efforts are being made to further improve material performance, optimize device design, and explore new application scenarios for uninterrupted power generation.
Review
Energy & Fuels
Qian Wang et al.
Summary: The synthesis of fuels using sunlight offers a promising sustainable solution for chemical energy storage, but inefficient utilization of the solar spectrum has limited their broader viability. This Review looks at how approaches that are complementary to one another can be employed to better exploit solar energy for sunlight-to-fuel conversion.
Article
Energy & Fuels
Kai Gao et al.
Summary: By introducing a selective solar absorber, the output power of self-generation power devices based on the radiative cooling effect was significantly enhanced. Experimental results demonstrate that adding a solar selective absorber can increase the temperature difference and improve the efficiency of the device under different weather conditions.
Article
Chemistry, Multidisciplinary
Xiaoli Yan et al.
Summary: By developing a covalent organic framework with superhydrophilicity and broad light absorption, researchers have overcome the intrinsic limitations of porous organic polymers in solar steam generation. The material exhibits excellent water evaporation and high energy conversion efficiency, with the potential for further extension of its light absorption range through post-synthetic modification.
ANGEWANDTE CHEMIE-INTERNATIONAL EDITION
(2022)
Article
Energy & Fuels
Joseph Peoples et al.
Summary: A concept of concentrated radiative cooling is proposed and experimentally demonstrated, which nest a radiative cooling system in a mid-infrared reflective trough to allow the lower surface to radiate heat to deep-space. Field experiments show that the temperature drop of a radiative cooling pipe with the trough is more than double that of the standalone radiative cooling pipe. By integrating the concentrated radiative cooling system as a preconditioner in an air conditioning system, significant electricity savings can be achieved for commercial buildings in specific locations, with predicted savings of > 75% in Phoenix, AZ, and > 80% in Reno, NV.
Article
Thermodynamics
Xin Zhang et al.
Summary: A conceptual design of a nighttime electrochemical system (NECS) based on radiative cooling has been proposed, which can generate electricity from the dark night sky without active input of heat. The theoretical model developed predicts an output power density larger than 2 W/m(2) at 303.15 K, potentially more advantageous than previously proposed nighttime thermoelectric generators. The optimization of heat convection conditions, geometry structure, and choice of selective radiative cooler are critical for improving device performance.
Article
Chemistry, Multidisciplinary
Cheng Chen et al.
Summary: This study presents the design of a nanowire film wavy structure for stretchable thermoelectric generators. By utilizing the photothermal effect and thermoelectric materials, the device can generate electricity output and keep the skin warm in cold weather, while also improving performance through the use of passive radiative cooling technology.
Article
Chemistry, Physical
Kuncai Li et al.
Summary: A new junction-free all-in-one single-piece solar thermoelectric generator with heat-rectifying structure has been developed, achieving high power output and flexibility. The device showed promising performance in flexible organic thermoelectric devices, outperforming conventional thermoelectric generators.
Article
Chemistry, Multidisciplinary
Myeong Hoon Jeong et al.
Summary: A novel wearable thermoelectric generator (WTEG) has been fabricated, which utilizes the dual source of body heat and light for high driving force and power density. By optimizing the fill factor, the WTEG achieves the highest power density among all kinds of WTEGs under actual operating conditions, while retaining a significant portion of its output power at high ambient temperature.
Review
Nanoscience & Nanotechnology
Ruiyuan Liu et al.
Summary: This review discusses the various applications of flexible self-charging technologies as power sources, including flexible solar cells, mechanical energy harvesters, thermoelectrics, biofuel cells, and hybrid devices with flexible energy-storage components. The review also highlights the integration of power sources in soft electronics and presents the emerging challenges, strategies, and opportunities for research and development of flexible self-charging power sources.
NATURE REVIEWS MATERIALS
(2022)
Article
Materials Science, Multidisciplinary
Shuai Zhang et al.
Summary: Passive radiative cooling is an emerging energy-free pathway that radiates the emission of heat from the earth to cold space. This technology has attracted great interest in residential and industrial applications. However, challenges remain for continuous 24-hour radiative cooling due to solar heating and cost barriers.
MATERIALS TODAY COMMUNICATIONS
(2022)
Article
Chemistry, Physical
Han-Jung Kim et al.
Summary: We have developed an efficient measurement system for PV-TEG hybrid devices, using a large-area transparent heater. This system allows rapid measurement of hybrid devices with a wider range of temperatures and exhibits superior reproducibility.
ACS APPLIED ENERGY MATERIALS
(2022)
Article
Multidisciplinary Sciences
Tingxian Li et al.
Summary: Water and electricity scarcity are global challenges. Utilizing moisture and sunlight for water and power generation is a sustainable approach. This work demonstrates a moisture-induced energy harvesting strategy for efficient atmospheric water harvesting and 24-hour thermoelectric power generation. The results show promising potential for sustainable water production and power generation.
NATURE COMMUNICATIONS
(2022)
Article
Materials Science, Multidisciplinary
Tingting Sun et al.
Summary: Wearable thermoelectric generators are an important emerging technology that converts heat energy into electricity without user intervention, and is widely studied for next-generation power supply. Despite facing challenges, these wearable devices are currently trending towards three-dimensional structures and rational thermal design.
Article
Multidisciplinary Sciences
Jinlei Li et al.
Summary: This article proposes a tandem passive cooler composed of a bilayer polymer that enables dual-functional passive cooling of radiation and evaporation. It overcomes the limitations of traditional cooling methods and is applicable under various weather conditions.
Article
Materials Science, Multidisciplinary
Shuai Zhang et al.
Summary: This study reported a power device using a microfabricated thermoelectric generator (TEG) to harvest energy from the sun and cold space, achieving efficient electricity generation by designing a solar absorber (SA) and radiative cooling emitter (RCE) to improve thermal energy utilization.
ADVANCED MATERIALS TECHNOLOGIES
(2022)
Review
Engineering, Electrical & Electronic
Qihao Zhang et al.
Summary: This review examines the development of micro-thermoelectric devices, exploring progress in device design, integration, and performance, as well as the potential applications of the technology in cooling, power generation, and sensing. These devices offer faster response time, higher resolution, and greater power density compared to their commercial counterparts, making them crucial for highly integrated electronic devices, the Internet of Things, and flexible and wearable technology.
NATURE ELECTRONICS
(2022)
Article
Multidisciplinary Sciences
Zunaid Omair et al.
Summary: This study reduces parasitic thermal losses in thermoelectric generators through thermal engineering, resulting in an improved electric power density in nighttime radiative cooling. The experiment demonstrates over a twofold improvement compared to previous results.
Article
Chemistry, Multidisciplinary
Pengcheng Yao et al.
Summary: Polymer-based passive daytime radiative cooling materials have the potential to save energy, but their durability needs improvement. By incorporating nanofiber dopants, the mechanical properties and UV stability of the polymer matrix are enhanced, resulting in improved durability for large-scale applications of polymer-based PDRC materials.
ADVANCED MATERIALS
(2022)
Article
Chemistry, Multidisciplinary
Cheng Chen et al.
Summary: Solar thermoelectric devices, with their unique ability to convert waste heat and solar energy into electricity, play a significant role in addressing the problem of global warming. In this study, a flexible 3D Janus helical ribbon architecture was designed, which showed all-day electricity generation, large temperature gradient, and even generated electricity at night. This strategy offers a new way for heat management by efficiently utilizing solar energy and the cold of the universe.
ADVANCED MATERIALS
(2022)
Article
Energy & Fuels
Li Yu et al.
Summary: The integration of thermoelectrical power generator and passive daytime radiative cooling coating enables continuous power generation throughout the day with high output power density. By utilizing selective solar absorber and outer space cooling, electricity can be generated without the need for an artificial heat source.
Article
Physics, Applied
Yi Jiang et al.
Summary: This article introduces the ideal spectral design for passive heating and cooling, and presents several optical spectral design examples for different scenarios. The article discusses possible solutions to current problems and directions for future development.
APPLIED PHYSICS LETTERS
(2022)
Article
Engineering, Environmental
Xuyan Zhang et al.
Summary: The study proposes a general strategy for preparing photothermal materials by using two-dimensional transition metal dichalcogenides nanosheets and three-dimensional carbon framework composites. The materials demonstrate excellent broadband light absorption and efficient photo-thermal conversion. The experimental results show that the materials have good photo-thermoelectric conversion performance under solar illumination and rapid and strong photothermal response under near-infrared light, indicating potential applications in photothermal imaging and photothermal cancer therapy.
CHEMICAL ENGINEERING JOURNAL
(2022)
Article
Green & Sustainable Science & Technology
Ya Ge et al.
Summary: This study investigates the optimization problem of the PV-TEG hybrid system using a multi-objective genetic algorithm and a CFD model. It is found that the output power and conversion efficiency of the PV-TEG system are significantly improved through optimization design, and the cooling condition and the use of TEG play important roles in the system performance. Furthermore, a multiple-criteria decision-making approach is applied to balance output power and conversion efficiency, and the best compromise solution is obtained.
Article
Multidisciplinary Sciences
Xueyang Wang et al.
Summary: Researchers have developed photoluminescence-based colored radiative coolers that can achieve sub-ambient full-color cooling. By converting visible sunlight into emitted light using quantum dots and reflecting sunlight and radiating thermal load with nanofibers, the researchers have achieved efficient cooling performance.
Article
Multidisciplinary Sciences
Zekun Liu et al.
Summary: This study demonstrates a color materials recognition system based on photothermoelectric effects, using a microfabricated thermoelectric generator as a platform. By selectively absorbing and converting light, the system distinguishes colors and materials, providing a potential approach for precise detection of color materials over wide areas.
Article
Chemistry, Multidisciplinary
Xiaojiang Mu et al.
Summary: This article highlights the significance of utilizing solar energy to produce clean water and electricity simultaneously. It presents a thermoelectricity-freshwater cogenerator that utilizes a starch-polyacrylamide hydrogel and a thermoelectric generator to make the most of solar energy and scavenging energy. This innovative system achieves high efficiency and sustainability in harnessing solar and waste heat energy.
ENERGY & ENVIRONMENTAL SCIENCE
(2022)
Article
Chemistry, Multidisciplinary
Zhihang Wang et al.
Summary: There is a need for compact technologies that can effectively use solar heat for power generation. The molecular solar thermal (MOST) system described here combines solution- and neat-film-based approaches to store solar energy as chemical energy and release it as heat, while also utilizing microfabricated thermoelectric generators to produce electricity when solar radiation is not available. The results demonstrate the high potential of this system to store and transfer solar power into electricity, independent of geographical restrictions.
CELL REPORTS PHYSICAL SCIENCE
(2022)
Review
Chemistry, Multidisciplinary
Zhihang Wang et al.
Summary: Molecular solar thermal energy storage systems (MOST) utilize photo-switchable molecules to store and release solar energy, offering emission-free energy storage. This tutorial review provides a chemical engineering perspective on the commonly used and developed devices, aiming to inspire future developers and highlight the essential practical challenges.
CHEMICAL SOCIETY REVIEWS
(2022)
Review
Chemistry, Physical
Meijie Chen et al.
Summary: Passive daytime radiative cooling (PDRC) technology has the potential to dissipate terrestrial heat to outer space without any energy input or pollution, simultaneously addressing the issues of energy crisis and global warming. The review summarizes strategies, heat transfer processes, material designs, and diverse applications of PDRC technologies in space cooling, solar cell cooling, water harvesting, and electricity generation.
Article
Energy & Fuels
Junwei Liu et al.
Summary: The developed radiative cooling driving thermoelectric generator significantly improves power generation capability, with potential to increase efficiency from 15% to 23.1%. Factors such as atmospheric humidity, solar absorption, ambient temperature, and wind speed play crucial roles in power generation. With advancements in technology, there is great potential for application in off-grid areas to provide reliable electricity access to those in need.
SOLAR ENERGY MATERIALS AND SOLAR CELLS
(2021)
Article
Energy & Fuels
Xuefei Zhang et al.
Summary: A novel technique utilizing low-temperature in-situ interface polymerization to fabricate nanofiber films with excellent photo-thermoelectric properties has been proposed. The photo-thermoelectric harvester assembled with the optimal strip and copper wires generated a voltage output of 0.17 mV under infrared light, while the flexible textile solar panel produced voltage outputs of 1.39 mV and 0.56 mV under an IR lamp and sunlight, respectively.
SOLAR ENERGY MATERIALS AND SOLAR CELLS
(2021)
Article
Multidisciplinary Sciences
Wei Ren et al.
Summary: The wearable TEG achieves high open-circuit voltage and flexibility, and greatly improves performance through integrating wavelength-selective metamaterial film, paving the way for the next generation of energy-harvesting devices.
Article
Nanoscience & Nanotechnology
Dan-Liang Wen et al.
Summary: The flexible hybrid photothermoelectric generator combines thermoelectric generator and light-to-thermal conversion layer in a simple structure to simultaneously harvest thermal and radiation energies, providing a reliable solution to the current power supply issues of wearable electronic devices. This technology allows wearables to obtain energy more reliably.
ACS APPLIED MATERIALS & INTERFACES
(2021)
Article
Environmental Sciences
Ablimit Aili et al.
Summary: This study evaluates the global potential of radiative sky cooling, finding that geographically and demographically transitional regions are better suited for this technology due to their moderate climate and population density.
Review
Chemistry, Physical
Xinxian Yu et al.
Summary: Researchers gathered information on 55 radiative cooling materials and grouped them into four categories based on selection criteria. Using an objective evaluation of their cooling performance and commercialization potential, they found that polymer-based porous structure and randomly distributed particle structure without reflective metal layer are more promising for commercialization.
Article
Construction & Building Technology
Mingke Hu et al.
Summary: Recent advancements have enabled daytime radiative cooling using near-perfect emitters, with a new concept proposed to capture renewable energy while dumping waste heat through radiative cooling. Simulation results indicate the need for extremely low solar absorptivity in the emitter and efficient heat transport for simultaneous solar heating and radiative cooling.
SUSTAINABLE CITIES AND SOCIETY
(2021)
Article
Chemistry, Multidisciplinary
Hao Luo et al.
Summary: The research introduces an eco-friendly passive nanostructured textile that can harness energy from the sun and outer space for localized heating and cooling, providing comfort for individuals in outdoor environments and generating electricity continuously through temperature gradient.
Article
Materials Science, Multidisciplinary
Satoshi Ishii et al.
Summary: The study demonstrates that simultaneous use of radiative cooling and solar heating can enhance the temperature gradient, generating thermoelectric voltage perpendicular to the temperature gradient. The spin Seebeck device shows the highest thermoelectric voltage when utilizing both radiative cooling and solar heating, and can generate thermoelectric voltage even at night through radiative cooling, enabling continuous energy harvesting throughout the day.
SCIENCE AND TECHNOLOGY OF ADVANCED MATERIALS
(2021)
Article
Chemistry, Physical
Xuemin Geng et al.
Summary: The study focuses on efficient solar steam generation using an innovative solar absorber and demonstrates outstanding performance in terms of light absorption and photothermal conversion. Additionally, the research showcases the capabilities of a solar thermoelectric generator coated with Bi2S3/Pd composite and a PAAH hydrogel for real-time sensing. Overall, the integrated system designed in this study offers new insights into the intelligent design of multifunctional devices.
Review
Nanoscience & Nanotechnology
Chen Xu et al.
Summary: This review focuses on the potential of self-powered systems based on energy harvesting technology for providing power to electronic devices. It introduces portable and wearable self-powered systems with sensing functions, demonstrates their potential in actuation functions, and discusses their development towards intelligent functions supported by information processing and artificial intelligence technologies.
MICROSYSTEMS & NANOENGINEERING
(2021)
Review
Chemistry, Physical
Marta Victoria et al.
Summary: Solar photovoltaics (PV) technology has become a highly cost-competitive technology capable of significantly reducing CO2 emissions. However, current scenarios assessing global decarbonization pathways lack recognition of the key role this technology could play.
Review
Chemistry, Physical
Jiangjiang Duan et al.
Summary: Thermocells offer advantages such as low cost, scalability, and high thermopower, but face challenges such as low conversion efficiency, low power density, and stability issues. Future research directions aim to develop more cost-effective, robust, and simpler thermocells, and expand their applications in low-grade heat harvesting, temperature detection, cooling, and beyond.
Article
Nanoscience & Nanotechnology
You Xu et al.
Summary: A flexible carbon cloth nanocomposite with a biomimetic surface has been developed for high-performance solar-driven interfacial water evaporation distillation, achieving a high solar-to-steam conversion efficiency. These integrated steam-electricity generators provide an attractive method to produce on-site electricity and fresh water in resource-constrained areas.
ACS APPLIED MATERIALS & INTERFACES
(2021)
Article
Nanoscience & Nanotechnology
Youfa Liu et al.
Summary: This study presents a novel PEDOT:PSS/Te NW hybrid thin film to enhance the conversion efficiency of the photothermoelectric effect, supported by experimental data. The hybrid films exhibit better photothermal harvesting compared to pure PEDOT:PSS, and the assembled photothermoelectric device shows competitive output power density and stability.
ACS APPLIED MATERIALS & INTERFACES
(2021)
Review
Chemistry, Multidisciplinary
Matteo Massetti et al.
Summary: The study of thermoelectric materials has shifted towards the use of carbon-based semiconductors, which are attracting attention due to their high abundance of atomic elements, easy processing, and low thermal conductivity. Constant discoveries of new materials and concepts have expanded the applications of thermoelectric materials. This review is divided into three sections, covering the basic principles of thermoelectric effects, efforts on developing devices utilizing these effects, and investigations on state-of-the-art thermoelectric materials.
Article
Engineering, Multidisciplinary
Zhang Xin et al.
Summary: This study proposes a power generator using TRDs, which achieves 24-hour electricity generation by harvesting solar energy during the day and thermal infrared emission towards outer space at night. A rigorous thermodynamical model is developed to investigate system performance, parametric design, and energy loss mechanisms. The calculated results show promising efficiency for the TRD-based system, outperforming current solar thermoelectric generators.
SCIENCE CHINA-TECHNOLOGICAL SCIENCES
(2021)
Article
Energy & Fuels
Bin Zhao et al.
Summary: The PV-TE device is capable of generating electricity using solar power during the day and harnessing radiative cooling for power generation at night, providing an alternative energy source for nighttime and all-day applications.
SOLAR ENERGY MATERIALS AND SOLAR CELLS
(2021)
Article
Chemistry, Physical
Salman Khan et al.
Summary: Advancements in flexible and wearable electronics have enabled the development of self-powered wearable systems. Thermoelectric generators (TEGs) integrated with radiative-cooled heat sinks offer promising solutions for energy harvesting from body heat. By improving heat sink quality and efficiency, flexible TEGs can achieve compact size and high power output.
Article
Chemistry, Multidisciplinary
Lyu Zhou et al.
Summary: This emerging sustainable technology uses two spectrally selective mirrors to absorb sunlight and redirect thermal emission, achieving high cooling power density in a controlled laboratory environment. Under standard atmospheric pressure, it achieved cooling 14 degrees C below ambient temperature in the laboratory environment, and over 12 degrees C temperature reduction in outdoor testing.
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