Category Chemistry/Nanotechnology

Your Next Wooden Chair could Arrive Flat, then Dry into a 3D Shape

A piece of wood twisted into a helix, placed in front of a ruler that indicates it's about 8cm long
Wood ink printed as a flat rectangle is programmed to form a complex shape after drying and solidifying. (Ruler is marked in centimeters.)
Image credit: Doron Kam

Wooden objects are usually made by sawing, carving, bending or pressing. That’s so old school! Today, scientists will describe how flat wooden shapes extruded by a 3D printer can be programmed to self-morph into complex 3D shapes. In the future, this technique could be used to make furniture or other wooden products that could be shipped flat to a destination and then dried to form the desired final shape.

The researchers will present their results at the fall meeting of the American Chemical Society (ACS).

In nature, plants and some animals can alter their own shapes or textures...

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New Heat-Tolerant, High-Capacity Capacitor created with Solid Electrolytes Borrowed from All-Solid-State Batteries

New heat-tolerant, high-capacity capacitor created with solid electrolytes borrowed from all-solid-state batteries
Bulk-type symmetric all-solid-state capacitor, with a LBSC SE layer between two electrode layers of an LBSC-CNT composite (left), showed low resistance and were operable at 100–300 °C (right). Credit: Hayashi, Osaka Metropolitan University

Capacitors are energy storage devices—consisting of two electrodes and an electrolyte—that are capable of rapid charging and discharging because of charge adsorption and desorption properties at the electrode-electrolyte interface...

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The new moisture-driven electricity generation device invented by NUS researchers capitalises on the difference in moisture content of the wet and dry regions of the carbon-coated fabric to create an electric current. Sea salt is used as a moisture absorbent for the wet region.

Researchers have developed a new moisture-driven electricity generation device made of a thin layer of fabric, sea salt, carbon ink, and a special water-absorbing gel. The device works by keeping one end of the fabric dry, while the other end is perpetually wet. The difference in moisture content of the wet and dry regions of the carbon-coated fabric creates an electric current...

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Propane – a Solution for more Sustainable Air Conditioning

Current severe heatwaves that will likely increase in severity and frequency in the future are driving a rise in the use of air conditioners, threatening the environment with their high energy consumption and refrigerants with high warming potential. A new study finds that switching to propane as a refrigerant could lessen the global temperature increase from space cooling.

We spend enormous amounts of energy on fighting off the heat in the summer, or throughout the whole year at lower latitudes — about one-tenth of the total worldwide electricity supply. If current temperature trends continue, the energy demands of space-coolers will more than triple by 2050...

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