Aerogels, identified for his or her porosity and low density, are stable supplies that provide versatile performance—from gobbling up fats globules in weight-management dietary supplements to facilitating extra sustainable metal-recycling processes.
Historically used to offer thermal insulation within the aerospace trade, scientists from the Nationwide College of Singapore (NUS) have taken the fabric to the subsequent stage—harnessing its distinctive properties to offer worth to quite a few functions in constructing and building, environmental remediation, drug supply, and even clothes and textiles.
In a pioneering effort, a analysis workforce led by Affiliate Professor Duong Hai-Minh from the Division of Mechanical Engineering below the NUS School of Design and Engineering, has developed aerogels for 2 new functions: radiative cooling and electromagnetic wave (EMW) absorption.
Utilizing plastic waste, the workforce engineered thin-film aerogels that perform as thermal insulators and radiative coolers. These aerogels may be utilized to any floor, corresponding to constructing roofs, to scale back inner temperatures, providing a scalable and sustainable resolution for energy-free thermal administration. The workforce’s findings had been printed within the journal Photo voltaic Vitality on 15 Might 2024.
In one other examine, printed within the journal Carbon on 10 February 2024, the NUS researchers devised a easy, scalable methodology to supply aerogels that take up EMWs within the X-band, attribute of these utilized in climate monitoring and air visitors management. These light-weight, sturdy aerogels defend in opposition to electromagnetic air pollution, shielding each people and delicate tools in our more and more digital world.
The researchers’ work builds on their prior successes in growing aerogels from quite a lot of waste supplies, from plastics and paper to agricultural by-products corresponding to pineapple leaves.
Aerogels for radiative cooling
Conventional cooling techniques, corresponding to air conditioners, have a ravenous urge for food for vitality, accounting for roughly 20% of electrical energy utilized in buildings worldwide. The brand new aerogels developed by the NUS workforce current a passive cooling different, leveraging the pure technique of radiative cooling to dissipate warmth into area with out consuming vitality.
“This process involves using specially engineered aerogels to emit infrared radiation through the atmospheric ‘sky window,’ effectively cooling surface temperatures below ambient levels,” stated Assoc. Prof. Duong. “We are excited to be able to upcycle fibers from disposable polyethylene terephthalate (PET) bottles for the new aerogels designed for this purpose, to help address the global plastic waste crisis.”
Beforehand the workforce had labored with PET fibers to supply aerogels, however this newest methodology is considerably extra energy-efficient, consuming about 97% much less vitality and lowering manufacturing time by 96%.
When examined in Singapore’s heat local weather, performed in collaboration with Dr. Jaesuk Hwang from the Heart for Quantum Applied sciences at NUS, 0.5 centimeters of the fabric produced a cooling impact of two°, achieved by emitting infrared warmth into the environment whereas exhibiting good warmth insulation, stopping warmth absorption from the encompassing setting.
“These aerogels could reduce energy consumption in both residential and commercial buildings, especially in tropical climates where cooling is now a necessity,” added Assoc. Prof. Duong.
Future analysis will give attention to adapting these aerogels for numerous weather conditions and increasing their functions past constructing insulation, corresponding to in industrial processes the place the environment friendly thermal administration of liquid circulation pipes is essential.
Aerogels for electromagnetic wave absorption
Trendy digital units emit EMWs that may disrupt close by tools and pose well being dangers, together with DNA harm and most cancers. It’s vital, subsequently, to develop supplies that may successfully take up EMWs to protect each people and infrastructure from these antagonistic results. Functions embrace enhancing the privateness and safety of buildings in addition to defending delicate medical tools.
To deal with this want, Assoc. Prof. Duong’s workforce has developed a scalable and eco-friendly process to supply novel aerogels which might be efficient at EMW absorption. The method entails mixing three primary parts—carbon nanotubes, polyvinyl alcohol and carboxymethyl cellulose—adopted by freeze-drying.
The aerogel, with a thickness of about 3 millimeters—roughly the width of 40 strands of human hair—demonstrated a powerful efficiency of absorbing 99.99% of EMW vitality. Throughout your entire X-band (8.2–12.4 GHz) of the electromagnetic spectrum, used primarily for radar techniques, climate monitoring and air visitors management, the aerogel persistently confirmed its potential to soak up 90% of EMW vitality.
“In addition to offering a wide absorption bandwidth of 1.2–2.2 GHz in the X-band, our aerogel is also about 10 times lighter than existing composites used for EMW absorption,” added Assoc. Prof. Duong. “Unlike other composites, our aerogel requires no mixing with heavy polymer fillers before use.”
The researchers have estimated that producing 1 square-meter of the aerogel, with a thickness of 1 centimeter, prices lower than S$100. This price is considerably decrease than the value of different related industrial supplies, which may vary from S$180 to above S$1,000.
Wanting forward, the workforce plans to refine the aerogel’s mechanical properties, corresponding to flexibility, to broaden their applicability throughout varied constructing and infrastructure tasks. The researchers additionally intention to conduct real-world exams to totally assess the EMW absorption capabilities of the aerogels in sensible situations.
Extra data:
Xue Yang Goh et al, Sub-ambient radiative cooling with thermally insulating polyethylene terephthalate aerogels recycled from plastic waste, Photo voltaic Vitality (2024). DOI: 10.1016/j.solener.2024.112544
Luon Tan Nguyen et al, Scalable fabrication of light-weight carbon nanotube aerogel composites for full X-band electromagnetic wave absorption, Carbon (2024). DOI: 10.1016/j.carbon.2024.118811
Nationwide College of Singapore
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Researchers develop new aerogels for radiative cooling and the absorption of electromagnetic waves (2024, June 4)
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