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A piece of carbon aerogel was balanced on a flower at Zhejiang University in Hangzhou, China, Tuesday. Made of freeze-dried carbon nanotubes and graphene oxide, the material (at 0.16mg per cc)is reportedly the lightest solid material in the world. (Ju Huanzong/Xinhua/Zuma Press)

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:coffee:

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:azn:
 
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its also pound for pound, one of the most expensive objects in the world... but its so damn cheap to buy cause it weighs almost nothing :laugh:
 
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What does this have use for? Any suggestions here?
 
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What does this have use for? Any suggestions here?

Carbon based materials are conductive hence can be used for micro/nano electronics application. Question here is that is it cheap enough.
 
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Here is an another work by a different group of Chinese scientists which might shed light on the uses of the material。

An ultralight graphene structure for all seasons

12 October 2012

Jon Cartwright

The graphene framework is not only light, it's flame resistant and mops up oil © Wiley-VCH

Chemists in China claim to have created the lightest graphene framework to date. The material, which is light enough to rest on a dandelion seed head, is also fire resistant and has record-breaking adsorption and capacitance.

The development of ultralight materials has exploded in recent years. Last year, engineers in the US presented a material made of hollow metallic tubes in a micro-lattice. With a density of 0.9mg/cm3, the material was 100 times lighter than styrofoam. Yet that record was beaten in July, when material scientists in Germany produced what they called aerographite: a network of carbon microtubes with a density of just 0.2mg/cm3.

Although the latest material, which has a density of 2.1mg/cm3, does not approach these records, it is the lightest graphene framework to date. Graphene, which took the 2010 Nobel prize for physics, is a two-dimensional layer of graphite just one atom thick arranged in a chickenwire pattern. Importantly, graphene has superlative electrical and mechanical properties, which scientists are eager to capitalise on.

Liangti Qu at the Beijing Institute of Technology, China, with colleagues from there and Tsinghua University, also in Beijing, have developed their graphene framework by regulating the graphene’s carbon–carbon bonds, using nitrogen as a dopant. To make their material they treat an aqueous suspension of graphene oxide with pyrrole – an aromatic, nitrogen-containing compound – in a steam oven. The pyrrole acts as a ‘swelling agent’, preventing the graphene oxide from self-stacking so that a large framework can be formed. The process leaves a gel, which the researchers freeze dry and then anneal at high temperatures.

Lighter than a feather
The resultant material has the dark appearance of graphite but, like the other ultralight materials unveiled in the past year, is light enough to rest on a dandelion seed head. Scanning electron microscope images reveal that the lightness stems from numerous pores, made rigid by a graphene skeleton.

From an applications point of view, however, the lightness is not the most important feature. The material is fire resistant and able to withstand repeated burning without suffering any structural damage. It can adsorb between 200 and 600 times its own weight of oil or other non-polar liquids – a record for carbon-based materials. Finally, the material can generate a capacitance of over 480F/g, approaching the theoretical limit for pure graphene.

‘We think this new material stands for an exciting advance because it has presented high performance in several areas superior to many other carbon materials, although the density may not be the lowest among them,’ says Qu.

Materials scientist Rainer Adelung at Kiel University in Germany thinks the material could be used as a supercapacitor, or for mopping up oil spills. He says its potential depends on the volume in which it can be made; at the moment the volume is small, but the fabrication process is ‘very simple’. ‘In principle it’s scalable,’ he adds.

But while the material’s lightness may be enough for some applications, for others it may indicate poor structural stability and mechanical properties, says Hui-Ming Cheng at the Shenyang National Laboratory for Materials Science in China. ‘It seems to be a very nice material which may have promising applications … if it has good structural stability,’ he says.

An ultralight graphene structure for all seasons | Chemistry World
 
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Chinese material scientists have created the world’s lightest material: A graphene aerogel that is seven times lighter than air, and 12% lighter than the previous record holder (aerographite). A cubic centimeter of the graphene aerogel weighs just 0.16 milligrams — or, if you’re having a problem conceptualizing that, a cubic meter weighs just 160 grams (5.6 ounces). The graphene aerogel is so light that an cube inch of the stuff can be balanced on a blade of grass, the stamen of a flower, or the fluffy seed head of a dandelion (see pictures below).

Most aerogels are produced using a sol-gel process, where a gel is dehydrated until only the aerogel remains. Some aerogels are also produced using the template method — aerographite, for example, is created by growing carbon on a lattice (template) of zinc oxide crystals — and then the zinc oxide is removed in an oven, leaving just the carbon aerogel. To create the graphene aerogel, however, researchers at Zhejiang University use a novel freeze-drying method. Basically, it seems like the researchers create a solution of graphene and carbon nanotubes, pour it into a mold, and then freeze dry it. Freeze drying dehydrates the solution, leaving single-atom-thick layers of graphene, supported by carbon nanotubes. The researchers say that there’s no limit to the size of the container: You could make a mini graphene aerogel using this process, or a meter-cubed aerogel if you wish.

The end result is an aerogel that weighs just 0.16 milligrams per cubic centimeter, and has truly superb elasticity and absorption. The graphene aerogel can recover completely after more than 90% compression, and absorb up to 900 times its own weight in oil, at a rate of 68.8 grams per second. With these two features combined, lead researcher Gao Chao hopes that the material might be used to mop up oil spills, squeezed to reclaim the oil, and then thrown back in the ocean to mop up more oil. Beyond filtration, graphene aerogel might be used as insulation — or, if it’s as conductive as aerographite (which seems likely), graphene aerogel could enable the creation of lighter, higher-energy-density batteries.

Over the next few pages we’ve compiled some amazing photos of aerogels. Click through if you want to see lumps of carbon balancing on a blade of grass, centimeter-thick slabs of aerogel that can insulate against the blue flame of a Bunsen burner, or a two-gram piece of aerogel that can hold up a 2.5-kilogram brick



Graphene aerogel is seven times lighter than air, can balance on a blade of grass - Slideshow | ExtremeTech
 
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What does this have use for? Any suggestions here?

Its usages were disclosed per post #5 and 10 here:

Apart from its lighter than air, additional outstanding quality of the new material Per #5 are:

The material is fire resistant and able to withstand repeated burning without suffering any structural damage. It can adsorb between 200 and 600 times its own weight of oil or other non-polar liquids – a record for carbon-based materials. Finally, the material can generate a capacitance of over 480F/g, approaching the theoretical limit for pure graphene.

Materials scientist Rainer Adelung at Kiel University in Germany thinks the material could be used as a supercapacitor, or for mopping up oil spills. He says its potential depends on the volume in which it can be made; at the moment the volume is small, but the fabrication process is ‘very simple’. ‘In principle it’s scalable,’ he adds.

Per #10:

The end result is an aerogel that weighs just 0.16 milligrams per cubic centimeter, and has truly superb elasticity and absorption. The graphene aerogel can recover completely after more than 90% compression, and absorb up to 900 times its own weight in oil, at a rate of 68.8 grams per second. With these two features combined, lead researcher Gao Chao hopes that the material might be used to mop up oil spills, squeezed to reclaim the oil, and then thrown back in the ocean to mop up more oil. Beyond filtration, graphene aerogel might be used as insulation — or, if it’s as conductive as aerographite (which seems likely), graphene aerogel could enable the creation of lighter, higher-energy-density batteries. and more usages you'll find as you read on
 
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