Meanwhile, in December, Japan's Ministry of Economy, Trade, and Industry (METI) established a Committee on Safety Management for Nanomaterials.
In a press release, METI states that the committee will focus on risks caused by nanomaterials, and that it will study "appropriate management procedures for nanomaterials considering the actual usage and life cycles." The committee's major agenda is to classify the shapes and risks of nanomaterials in order to study appropriate management procedures for each. It plans to compile an interim report in the spring or summer of this year.
Also in December, the European Parliament (EP) passed a resolution that called for legislation to be drafted to protect workers from the health risks of nanomaterials in the workplace. The EP's concern is that the potential effects of new technologies and harmful susbtances on health and their risks must be assessed.
The resolution stated that nanomaterials must be covered by current European Union (EU) health and safety rules, and that legislation must be drafted to ensure that nanomaterials are covered by those European Occupational Health and Safety regulations.
The Inspector General's report points to the lack of good information about the health effects of nanomaterials. Some recentstudies have found possible heath risks associated with carbon nanotubes. This is an area which needs further study. We are only just beginning to learn how materials behave on this scale, never mind how they interact with complex biological organisms such as ourselves.
Nice article, Ann. As with a lot of environmental legislation, the EPA may wait to see what Japan and Europe do before offering any significant regulation. Even then they may hang back. We still don't have a a U.S. RoHS. We don't really need one, since the electronics industry complied to Europe's regulation.
I would imagine that potential legislation governing nanoscale materials has to be a good thing in terms of promoting a healthy and safe environment not only for workers using the new materials, but also end users of products that leverage the new technologies. That said, one can only imagine that legislation might curtail usage and further evolution of these important technologies. Is that the case, Ann? How widespread is nanomaterials so far?
Advertised as the "Most Powerful Tablet Under $100," the Kindle Fire HD 6 was too tempting for the team at iFixit to pass up. Join us to find out if inexpensive means cheap, irreparable, or just down right economical. It's teardown time!
The first photos made with a 3D-printed telescope are here and they're not as fuzzy as you might expect. A team from the University of Sheffield beat NASA to the goal. The photos of the Moon were made with a reflecting telescope that cost the research team £100 to make (about $161 US).
The increased adoption of wireless technology for mission-critical applications has revved up the global market for dynamic electronic general purpose (GP) test equipment. As the link between cloud networks and devices -- smartphones, tablets, and notebooks -- results in more complex devices under test, the demand for radio frequency test equipment is starting to intensify.
Much of the research on lithium-ion batteries is focused on how to make the batteries charge more quickly and last longer than they currently do, work that would significantly improve the experience of mobile device users, as well EV and hybrid car drivers. Researchers in Singapore have come up with what seems like the best solution so far -- a battery that can recharge itself in mere minutes and has a potential lifespan of 20 years.
Focus on Fundamentals consists of 45-minute on-line classes that cover a host of technologies. You learn without leaving the comfort of your desk. All classes are taught by subject-matter experts and all are archived. So if you can't attend live, attend at your convenience.