DirectIndustry e-Magazine - #36 – NANOTECHNOLOGIESDirectIndustry e-Magazine


THE NANOTECH REVOLUTION




Are we on the verge of a carbon-based revolution? Around 100 times stronger than steel, with high levels of electrical conductivity, carbon nanotubes are now being integrated into everything from batteries to airplane wings, and may soon drive the development of faster computers, ultra-efficient smartphones and all manner of miniature energy-harvesting devices.

OUR HIGHLIGHTS
Carbon nanotubes are now being integrated into everything from batteries to airplane wings...

Since carbon nanotubes (CNTs) were discovered in 1991, numerous challenges have prevented them from fulfilling their industrial potential. But today’s carbon-based revolution may change that. Around 100 times stronger than steel, with great electrical conductivity, they are now found in everything from batteries to...


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OUR HIGHLIGHTS
Nanominerals can improve food conservation while nanocoatings block microbial contamination of textiles.

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Lower production costs are boosting the use of nanomaterials in packaging and textiles. Nanominerals can improve food conservation while nanocoatings block microbial contamination of textiles. Exploiting the full potential of nanotechnology, however, remains a key challenge.

 

The most commonly analyzed natural and engineered nanomaterials are montmorillonite and kaolinite nanoclays, carbon nanotubes and graphene nanoplates. Similarly, inorganic materials such as titanium dioxide, calcium carbonate and silica, and nanosilver are under inspection.

Antibacterial Textiles

In textiles, the focus has largely been on creating fabrics with antimicrobial properties: stain resistance and the removal and blocking of odors, sometimes combined with water repellency. Nanosilver is often used for this, especially in textiles used to make sportswear.

Israel-based NANO Textile has developed an antibacterial coating technology for textiles which addresses the very strict demands of the hospital sector. CTO Liat Goldhammer explains:

Metal oxide compounds are reduced to nanoscale size (50 to 150 nm diameter) for coating textiles (bed sheets, doctor aprons, pillow covers…) enhancing them with a high level of antibacterial properties and creating a highly-effective protective layer preventing hospital-acquired infections.

The company claims the treatment is durable enough for industrial laundering, but still environmentally friendly and safe.

No chemical binders are used, there’s no leaching that might threaten human health or the environment, and they’re cost-effective and applicable to any fabric.

US-based Greenyarn produces Eco-fabric, whose bamboo charcoal nanoparticles provide antibacterial and antifungal characteristics. The particles are distributed within the fibers rather than on their surface, making the textile washable without diminishing its effectiveness. Greenyarn Chief Executive Officer Robin Low shares,

We embed it into polyester and nylon, which we manufacture from various recycled or non-petroleum-based sources. The yarn is used to manufacture seamless smart underwear, insoles, socks and various smart fabrics, all of which contain the benefits of Eco-fabric.

Wrapping it Up

Nanoclays are increasingly being employed in food packaging because they make it difficult for oxygen to enter, extending shelf life.

For Dr. Claire Skentelbery, director general of the Nanotechnology Industries Association, research has been carried out on other materials offering a broader functionality:

[There’s] nano copper for conductivity. Several others have been authorized for use in plastic food packaging, including titanium nitride and carbon black.

UK-based Samuel Grant has introduced Samson Nano, a high-performance pallet stretch wrapping film. According to managing director Andrew Grant,

Conventional films would be 23 microns thick. Occasionally, this would be co-extruded using three layers of film roughly eight microns thick formed into a single sheet. Our material is a step change in this technology, using 33 layers to make up the film, whose high performance allows it to be thinner.

The secret to better performance is the way the thinnest nano layers within the film easily move over each other when stretched.

This allows the film to stretch more effectively but remain very strong. The nano film is used to replace conventional stretch film when wrapping pallets so that good-quality, stable loads can be achieved with vastly reduced consumption of polyethylene. This results in cost savings and reduced carbon footprint.

Rising to the Challenge

SAFENANO, the center for excellence in nanosafety at the UK Institute of Occupational Medicine, supports the development of nanotechnology in textiles and packaging. For Dr. Steve Hankin, director of analytical services, the challenges and barriers to the wider use of the nanotechnology are varied.

The synthesis of defect-free, large-area, monocrystalline graphene at a large scale is still challenging and too expensive for packaging applications.

Nanocomposite performance depends on various nanoparticle features, such as size, aspect ratio, specific surface area, volume fraction used, compatibility with the matrix and dispersion.

In fact, although nanocomposites have been studied and used for a long time, achieving the optimum dispersion and matrix binding, and understanding the nanoparticle-matrix interactions that result in the enhanced property remain key challenges.

For Dr. Skentelbery,

In textiles, ensuring supply of nanomaterials in some areas has also been of concern. When a new material is developed, it sometimes takes a while for companies to gain confidence that enough can be produced to meet market demands.

Costs reductions will remove one barrier. As product developers in textiles and packaging learn more about nanomaterials and their improved properties, they will introduce more products to the market.

Additionally, there are still concerns about human exposure to nanoparticles. Dr. Hankin reminds us that,

Underlying these technological and commercial advances are concerns over the potential for risks from engineered nanoparticles where exposure to humans and or the environment occurs intentionally or accidentally, and the safety of the materials has yet to be fully investigated.


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IT
Blockchain and its related technologies are strategically very important.

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Bitcoin’s popularity displays few signs of abating. The crypto currency’s value peaked above $5,000 for the first time in September. But the digital currency’s underlying and rapidly evolving technology known as blockchain, is also drawing attention. The tech community is discovering many potential industrial...


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  • London-based Bare Conductive’s Electric Paint serves the same purpose as any other water-based paint, but also can carry an electric current. While not as conductive as metal wire, the firm says it’s suitable “for low-current circuits and sensors.” Users can paint a conductive strip onto nearly anything to create a circuit or a switch, or to repair a printed circuit board. The product also can be used for stenciling and screen printing. In addition, it’s solvent-free and non-toxic. Electric Paint is available in both tube and jar for direct or brush application. Mixed with baby oil to maintain its liquid form, the product can be used to make a tilt switch. It’s even possible to add music or sound effects to a poster by running the paint to a touch board or connecting via alligator clips. On a more practical note, a presence sensor can be painted onto a home’s threshold to warn of intruders.


    © Yimu Zhao

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    As reported on  L’UsineNouvelle website, French company Sunpartner Technologies will begin producing its Wysips® transparent photovoltaic module on an...


    Coca-Cola recently unveiled the world’s first and largest 3D robotic advertising panel. Towering over New York’s Times Square, the billboard stands over 20...



    Turing Robot

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    China is in the middle of an unprecedented automation surge, buying and building robots more rapidly than any other country. The sales-savvy country has even...



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    Experiments in a small Bavarian river may lead to a new form of hydropower devoid of dams or turbines. Coordinated by the Fraunhofer Institute for Silicate Research, the Bavarian government’s DEGREEN project seeks to expand renewable energy sources. The long-term effort aims to produce 40% of the state’s electricity from local, environmentally-friendly sources. The system uses extremely flexible elastomer films coated with a conductive layer that serve as capacitors. Water flowing through a Venturi tube creates negative pressure, deforming the film. The film then returns to its original configuration, the cycle taking just one second. This converts the mechanical energy of moving water into electrical energy. These “elastomer generators” can be installed side-by-side in very shallow streams or stacked in deeper water. Fraunhofer indicates its team is currently working on miniaturization of the system, with the goal of reducing generator size to that of a switch control box. A thousand such installations could produce 876 MWh of power annually, according to the company.


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    CONTRIBUTORS



    Camille Rustici

    Camille Rustici is a Video Journalist and the Editor-in-Chief for DirectIndustry e-magazine. She has years of experience in business issues for various media including France 24, Associated Press, Radio France…


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    Lindsay Clark

    Lindsay Clark is a freelance journalist specializing in computing. He has won industry awards as news editor at Computer Weekly. He has also written for newspapers including The Guardian, The Financial Times…


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    Daniel Allen

    Daniel Allen is a writer and a photographer. His work has featured in numerous publications, including CNN, BBC, The Sunday Times, The Guardian, National Geographic Traveller, Discovery Channel.


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    Hicham Dhouibi

    Hicham Dhouibi is a mechanical and process engineer and writer with years of experience in automotive, plastic processing and telecom industries.


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    Abigail Saltmarsh

    Abigail Saltmarsh is a freelance journalist with 25 years’ experience for industry publications (Packaging Europe) and national magazines (The New York Times, International Herald Tribune).


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    Michael Halpern

    Michael Halpern is a US-born and bred writer with experience in radio. He is also our in-house DirectIndustry anglophone translator and copy-editor.


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    Erin Tallman

    Erin Tallman is an American writer and Deputy Editor of ArchiExpo e-magazine. She writes novels and contributes to several online magazines like DirectIndustry e-magazine.


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