By incorporating multiple strategies, passive resistance and active regeneration, robust superhydrophobicity has been explored via various approaches for diverse applications.
When external pressure
drives an electrolyte solution in a capillary tube with a charged
inner surface, we obtain a streaming potential/current. This effect
is also manifested when water flows through the microchannels of a
tree, which is driven by capillary pressure and natural evaporation.
Thus, by making use of natural evaporation, we took advantage of the
anisotropic three-dimensional wood structures to fabricate nanogenerators
drawing electricity from the streaming potential/current. As a result,
direct current can be harvested continuously, simply through a piece
of wood. A 300 mV open-circuit voltage and a 10 μA short-circuit
current (I
SC) were recorded from a single
device, which surpassed the I
SC values
of most previous works by an order. By connecting five wood nanogenerators
in series, a calculator can be completely functional, as a demonstration
for practical application.
To fight against global warming, subambient daytime radiative cooling technology provides a promising path to meet sustainable development goals. To achieve subambient daytime radiative cooling, the reflection of most sunlight is the essential prerequisite. However, the desired high solar reflectance is easily dampened by environmental aging, mainly natural soiling and ultraviolet irradiation from sunlight causing yellowish color for most polymers, making the cooling ineffective. We demonstrate a simple strategy to use titanium dioxide nanoparticles, with ultraviolet resistance, forming hierarchical porous morphology via evaporation-driven assembly, which guarantees a balanced anti-soiling and high solar reflectance, rendering anti-aging cooling paint based coatings. We challenge the cooling coatings in an accelerated weathering test against simulated 3 years of natural soiling and simulated 1 year of natural sunshine, and find that the solar reflectance only declined by 0.4% and 0.5% compared with the un-aged ones. We further show over 6 months of aging under real-world conditions with barely no degradation to the cooling performance. Our anti-aging cooling paint is scalable and can be spray coated on desired outdoor architecture and container, presenting durable radiative cooling, promising for real-world applications.
Water evaporation-driven electricity (EDE) has attracted a great deal of attention in recent years as a novel renewable energy. Previous works have demonstrated that a high evaporation rate leads to a large output voltage. Hence, it is believed that heating is beneficial to EDE by enhancing the evaporation rate. However, experimental verification is lacking. This study demonstrates that heat induces a thermodiffusion effect that drives hydrated ions in the opposite direction of the evaporation-driven water flow, which reduces the output voltage as a synergistic effect. Our findings could be useful for designing a multifunction EDE generator and provide insight into the electricity generation mechanism.
Additive manufacturing (AM), which is often referred to as three-dimensional printing, revolutionizes manufacturing by providing a high degree of design freedom and customization. Several AM methods entail precise control of droplet interfacial properties to ensure the high quality of the printed products. At the same time, the rapid growth of AM technology has made it possible to prepare novel surfaces with complex structures, further expanding the range of potential applications of droplet interface. To provide a unified framework to guide the continuous development of
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