Making Nanotubes Without Harming the Environment
April 9, 2008
They are 10,000 times thinner than a strand of human hair, yet stronger than steel, more durable than diamonds, and able to conduct heat and electricity with efficiency that rivals copper wires and silicon chips.
Ever since their discovery in the early 1990s, carbon nanotubes have been hailed as a new “wonder material.” They are tiny building blocks with mammoth potential to make fibers, films, filaments, wires, and circuits for a wide spectrum of industrial applications—from reinforced concrete, tear-resistant clothes, and stronger, lighter tennis rackets and bicycle parts to revolutionary electronics at the core of numerous multibillion-dollar industries in the 21st century. In a headlong rush to capitalize, the nanotube industry is projected to more than double every year.
“I predict (carbon nanotubes) will be as pervasive as plastic,” said Phil Gschwend, an environmental chemist at the Massachusetts Institute of Technology. “Before we know it, they will be everywhere.”
But that’s exactly what gives pause for concern to Gschwend and his colleagues—Chris Reddy of Woods Hole Oceanographic Institution and MIT/WHOI graduate student Desirée Plata. Because as useful as nanotubes may turn out to be, the process of making them may have unintentional harmful impacts on the environment and public health.
So before the carbon nanotube industry truly ramps up, the three researchers are championing a new paradigm: “We are trying to encourage forethought and collaboration—academia and industry working together during the design phase to develop methods that pre-empt potential dangers and maximize the safe use of new materials,” Plata said.
The MIT/WHOI team has been tracking these possibilities from the beginning. Last year, at the American Chemical Society meeting, Plata reported research in which she monitored common carbon nanotube manufacturing processes in MIT labs. She found the synthetic process also produced several cancer-causing compounds and substances that can contribute to ozone and smog formation, both of which cause respiratory ailments.
In new research, published online April 3 in the journal Nanotechnology, Plata, Gschwend, and Reddy analyzed 10 commercially made carbon nanotubes to examine what metals and organic residues are co-produced with these nanotubes, and thereby potentially released to the environment. Notably, they found that all carbon nanotubes are not created equal: Different manufacturing processes produce a diversity of chemical signatures, making it harder to trace nanotubes’ impacts in the environment.
“The problem is that when we make materials, the pieces that compose those materials don’t stay in the products themselves, they end up in our oceans, in our atmosphere, and just about everywhere,” Gschwend said.
DDT, PCB, CFCs, MBTE, etc.
For decades, industry has produced an alphabet soup of useful chemicals that have often also had unintended deleterious effects. Perhaps the most famous, or infamous, is DDT, a pesticide that has helped eradicate malaria and other deadly mosquito-borne diseases in some places. But this insecticide has also left lingering harmful impacts throughout the food chain, from single-celled animals to birds and humans. Rachel Carson highlighted the problem in her seminal 1962 book Silent Spring and is often credited with sparking the modern environmental movement.
The litany of useful chemicals with downsides doesn’t end there. In machinery, PCBs helped make fabulous transformers and hydraulic systems; in rivers, they made fabulous pollutants. CFCs (chlorofluorocarbons) are excellent refrigerants that also turned out to destroy stratospheric ozone. MTBE in gasoline helped solve air pollution problems, before causing widespread groundwater contamination. Few materials are as nonflammable and, unfortunately, effective at destroying lungs, as asbestos. A more recent example are PBDEs, polybrominated diphenyl ethers, used as flame retardants.
“It is the indiscriminant use of poorly understood chemicals that causes environmental and public health costs to outweigh societal benefits,” Plata said.
“We want to work proactively with the carbon nanotube industry to avoid repeating environmental mistakes of the past,” she said. “Instead of reacting to problems, we hope to avoid them altogether.” Moreover, they hope to save the industry from future expenditures involved with litigation and environmental cleanup.
The approach turns on its head the way manufacturers have often handled such situations in the past: mass-producing chemicals for years before scientists discovered problems, then pulling everything from the shelves.
“Historically environmental chemists have been playing the sheriff in that we find a contaminant, we publish papers that say how companies caused the hazardous problem, and we force them to make things right,” Reddy said. “With our approach, we’re going in the front door and saying, ‘You know what? Let’s do this the right way from the beginning.’ ”
A closer relationship between academia and industry, the researchers say, is long overdue.
Nanotubes 101
As their name implies, carbon nanotubes are made mostly of carbon, the same element found in diamonds and in No. 2 pencils (graphite). Diamonds and graphite are allotropes of carbon, meaning they are made of the same stuff but with their atoms bonded together in different arrangements that give the allotropes different properties. Nanotubes belong to the third carbon allotrope, the fullerenes.
You might think nanotubes get their strength from resembling diamonds, but in fact they are more similar to graphite, whose carbon atoms are arranged as flat sheets in hexagons. Now imagine the flat sheets are rolled into slim cylinders, or tubes, whose lengths (measured in micro- or millimeters, or millionths or thousandths of a meter) greatly exceed their width (measured in nanometers, or billionths of a meter). When the hexagons come together in a cylindrical pattern, they take on interesting mechanical and electrical properties.
A rush of research has gone into understanding these properties and into investigating how to manufacture nanotubes. One method, with the imposing name of catalytic chemical vapor deposition, or CVD, involves reacting gases containing carbon on catalytic surfaces made of metals such as nickel, cobalt or iron, to form the carbon in the desired tubular pattern.
If it sounds complex, it is, and the science is so new, Reddy said, that the cookbook hasn’t been written yet. Manufacturers are experimenting with various recipes. And that’s where he, Plata, and Gschwend have come in: taking a look at what’s going on in the oven and what’s coming out.
Manufacturing nanotubes: what’s cooking?
Plata began this research by working with materials scientists at MIT to make nanotubes herself. With the help of laser displacement sensors that monitored the process, she was able to look at what was happening to materials during the reaction in real time, and then analyze the byproducts.
She found that the process produced emissions that contained at least 15 aromatic hydrocarbons, including four different kinds of toxic polycyclic aromatic hydrocarbons (PAHs) similar to those found in cigarette smoke and automobile tailpipe emissions.
Much more striking, however, was her finding that the process was very inefficient: An overwhelming amount of carbon that went into the pot remained unused and was vented right out into the atmosphere.
“There’s no way you can not have a ‘leaky faucet’ in making this stuff,” Reddy said. Byproducts from carbon nanotube manufacturing “may be out there in trace amounts right now, but there could be a lot more in 20 years. So a critical question becomes ‘How do we measure what’s out there? ’ ”
The research published in Nanotechnology provides the first data to help researchers identify the diversity of chemical byproducts that can emerge from a diversity of carbon nanotubes—and then to help track what becomes of them in the environment. For example, nanotube byproducts have properties that are chemically similar to the soot that comes out of tailpipes and smokestacks, Reddy said, and researchers must figure out a way to distinguish the two.
“This is a huge challenge right now,” Plata said. “You can’t gauge the effect of a toxin, or even tell if it is sitting in your back yard, if you don’t know how to find it in the Earth. Over time, if all goes well, we’ll be able not only to figure out how to find where these toxins are, but also what they’re doing there.”
Cooperation instead of confrontation
When Plata presented her research at the American Chemical Society meeting in August 2007, some media seized on the story and sensationalized the potential perils of nanotubes. That antagonized manufacturers who did not like publicity that could stymie the budding nanotube industry and that summarily cast them in the role of villainous polluters.
At the same time, in some manufacturers’ eyes, the MIT/WHOI researchers appeared to be adversarial crusaders—a role the researchers strongly deny.
“I’m not trying to put these companies out of business; I’m trying to help them get to a point where their investments pay off down the road,” said Gschwend. “We just want to maximize the benefits and minimize the damages for everyone—industry and the public.”
Plata, Gschwend, and Reddy see a novel opportunity: in the infancy of the industry, to share their expertise and work with manufacturers in preventative research. They seek to develop methods to make carbon nanotube production more efficient, curtail potential toxins, and answer other questions during the design phase—that is, the step in which recipes for making these nanotubes are tried and tested before large-scale production is begun.
Historically, manufacturing designs are evaluated on the performance of the product and the cost to make it. The scientists are seeking to add “avoidance of environmental damages” as a factor for optimizing design, Gschwend said. In other words, to manufacture and use these materials, but do so in a smart way from start to finish.
The three researchers have worked hard to thaw the adversarial chill and persuade manufacturers to shake hands instead of trading punches. In the next phase of Plata’s work, she will collect real-time data from an actual nanotube manufacturing facility in Europe, perhaps operating under the so-called precautionary principle, that is willing to let her come in and set up on their equipment the same monitors she used in the lab at MIT.
Independent scientists agree that this is a step in the right direction that could lead to a paradigm shift in the way academia and industry work together—at least on nanotubes. Because the materials are so new, they afford scientists a perfect opportunity to change the approach from the very beginning, said Andrew Maynard, chief science advisor for the Project on Emerging Nanotechnologies at the federally funded Woodrow Wilson International Center for Scholars in Washington, D.C.
“It’s so easy to get so narrow-sighted into new technology that you forget about the process that goes into making the new material,” he said. “[Reddy, Gschwend, and Plata] are asking the right questions: How do these new processes impact people’s health? How do they impact the environment? Most important, if the processes are not safe, how can we make them safer?”
Popularity: 100% [?]
Lautenberg, Boxer Announce Hearing To Investigate Traces of Pharmaceutical Drugs Found In Drinking Water
March 12, 2008
Today, Sen. Frank R, Lautenberg (D-NJ), Chairman of the Transportation Safety, Infrastructure Security and Water Quality Subcommittee of the Senate Committee on Environment and Public Works, and Sen. Barbara Boxer (D-CA), Chairman of the Senate Environment and Public Works Committee, announced that they planned to hold a hearing into the discovery of traces of pharmaceutical drugs in the water supplies of at least 41 million Americans.
The date of the hearing has not been finalized, but will likely occur in early April.
“Our families deserve water that is clean and safe. I am deeply concerned by the findings of this study showing traces of drugs in the water in New Jersey and across the nation. Our hearing will examine these problems and help ensure the EPA and Congress take the steps necessary to protect our residents and clean up our water supply,” said Sen. Lautenberg.
Sen. Boxer said, “As Chairman of the Environment and Public Works Committee, I am alarmed at the pharmaceutical residues that reportedly are turning up in the drinking water of more than 41 million Americans. Senator Lautenberg and I will be convening an oversight hearing on this matter as soon as possible to determine what can be done to protect our children and families. I call on the EPA to take whatever steps are necessary to keep our communities safe.”
The Associated Press conducted a five-month investigation and detected small amounts of drugs in the water of 24 major metropolitan areas. Tests done in the watersheds of 35 major water providers showed 28 testing positive for pharmaceuticals. The investigation surveyed the 50 largest cities in the country and a dozen other major water providers, as well as other small providers in each of the 50 states.
The levels of pharmaceuticals found in the water are at levels measured in the parts per billion or trillion, far below levels of medical use. Scientists, however, fear that ingestion of these tiny amounts of drugs over a long period of time may pose health risks to the public.
The federal government has not set safety limits for drugs in drinking water. In fact, fewer than half of the 62 major water providers could say their water was tested.
Sen. Lautenberg is a long-time advocate for clean and safe drinking water and his Safety, Infrastructure Security and Water Quality Subcommittee has jurisdiction over drinking water, water infrastructure and the Safe Drinking Water Act.
Popularity: 44% [?]
Pharmaceuticals found in Drinking Water
March 12, 2008
A vast array of pharmaceuticals — including antibiotics, anti-convulsants, mood stabilizers and sex hormones — have been found in the drinking water supplies of at least 41 million Americans, an Associated Press investigation shows.
To be sure, the concentrations of these pharmaceuticals are tiny, measured in quantities of parts per billion or trillion, far below the levels of a medical dose. Also, utilities insist their water is safe.
But the presence of so many prescription drugs — and over-the-counter medicines like acetaminophen and ibuprofen — in so much of our drinking water is heightening worries among scientists of long-term consequences to human health.
In the course of a five-month inquiry, the AP discovered that drugs have been detected in the drinking water supplies of 24 major metropolitan areas — from
Popularity: 42% [?]
Nanotech - a possible danger to the public’s health?
February 27, 2008
The Project on Emerging Nanotechnologies (PEN) has released a first-time legal analysis that finds a key federal toxics reporting statute could be applied to production and commercialization of nanotechnology, providing the public with more information about these revolutionary – yet still potentially risky – technologies.But before the Toxics Release Inventory (TRI) authorities can be applied to nanomaterials, in most cases more toxicological data must be developed to better understand the potential human health and environmental impacts of these cutting-edge technologies. The analysis, conducted by two noted environmental law experts, finds that federal authorities may need to be amended to address reporting thresholds that may not apply effectively to nanomaterials because of their unique characteristics.
“There needs to be development of additional toxicological data on nanomaterials, but in theory TRI could be applied to nanomaterials. The key question is whether EPA will make any determinations about whether particular nanomaterials constitute toxic chemicals,” says Linda Breggin, one the authors of the analysis and Senior Attorney at the Environmental Law Institute.
The landmark analysis comes as over 40 environmental, consumer, labor and other groups are calling for regulation and disclosure of products containing nanomaterials, and as congressional lawmakers are considering legislation to expand reporting requirements for environmental pollutants under TRI. Although currently proposed legislation does not specifically address nanomaterials, a public dialogue about the benefits and costs of TRI is underway that could include discussion of the program’s application to nanomaterials, the new PEN analysis says.
At the local level, in 2006 the City of Berkeley, Calif., adopted a disclosure ordinance that requires nanomaterial manufacturers to disclose the known risks of their products. Now Cambridge, Mass., is considering a similar ordinance, and other local governments may follow suit.
“If Cambridge passes an ordinance similar to Berkeley’s, who knows how many other cities or other municipalities will follow?” says PEN Director David Rejeski. “Soon we could have a patchwork of cities across the country with nanotech disclosure ordinances, which is why environmental law experts should take the time now to make the decision as to whether TRI is a tool that can be used at the federal level to disclose nanomaterials’ potential risks.”
The report also emphasizes the importance of recognizing that several additional right-to-know or disclosure-related laws and initiatives should be explored as possible disclosure vehicles for environmental, health, and safety risks that could be associated with nanomaterials. The report also highlights the fact that additional research is required to determine whether application of TRI to nanomaterials should be pursued as a policy priority in the near term.
Popularity: 59% [?]
CDC Confirms Dangerous Levels of Formaldehyde in a Third of FEMA Trailers
February 15, 2008
The CDC said about a third of the FEMA trailers it tested have dangerously high levels of formaldehyde — so high that it said they should be vacated as soon as possible. The CDC tested a random sample of 519 trailers and the results provided a fairly accurate snapshot of the living conditions faced by the 144,000 people housed in trailer and mobile homes provided to those without homes after hurricanes Rita and Katrina by the Federal Emergency Management Agency.
At a press conference, CDC Director Julie L. Gerberding, M.D., M.P.H., said levels in the trailers were high enough to produce symptoms such as runny noses, coughing, and even difficulty breathing — especially in people who have chronic conditions such as asthma or COPD.
Learn More: MedPage Today
Popularity: 70% [?]
FEMA’s Formaldehyde Containing Trailers
February 15, 2008
After downplaying the risks for months, the Federal Emergency Management Agency said Thursday it will rush to move Gulf Coast hurricane victims out of roughly 35,000 government-issued trailers because tests found dangerous levels of formaldehyde fumes.
FEMA Administrator R. David Paulison said the agency hopes to get everyone out and into hotels, motels, apartments and other temporary housing by the summer, when the heat and stuffy air could worsen the problem inside the trailers.
“The real issue is not what it will cost but how fast we can move people out,” he said.
Popularity: 71% [?]
Mystery Disease in Minnesota
February 5, 2008
I thought this was very interesting and would like to share it with all of you.
If you have to come down with a strange disease, this town of 23,000 on the wide-open prairie in southeastern Minnesota is a pretty good place to be. The Mayo Clinic, famous for diagnosing exotic ailments, owns the local medical center and shares some staff with it. Mayo itself is just 40 miles east in Rochester. And when it comes to investigating mysterious outbreaks, Minnesota has one of the strongest health departments and best-equipped laboratories in the country.
And the disease that confronted doctors at the Austin Medical Center here last fall was strange indeed. Three patients had the same highly unusual set of symptoms: fatigue, pain, weakness, numbness and tingling in the legs and feet.
Popularity: 29% [?]
China Pesticide-Tainted Dumplings Poison 175 Japanese
February 2, 2008
Chinese-made dumplings containing pesticides sickened 175 Japanese in a scandal the government says may damage relations with its neighbor, which exported $56.7 billion of food to Japan last year.
Popularity: 33% [?]
Trichloroethylene is a probable risk factor for Parkinson’s disease and parkinsonism
January 11, 2008
Trichloroethylene is a probable risk factor for Parkinson’s disease and parkinsonism, a study here found. The finding came from a study of 31 workers at an industrial plant, including three workers with Parkinson’s disease exposed to high levels of trichloroethylene, and from animal experiments, Don M. Gash, Ph.D., of the University of Kentucky, and colleagues reported online in the Annals of Neurology.
Trichloroethylene, a degreasing agent widely used in industry and the military, is also found in drinking water, surface water, and soil as a runoff from manufacturing sites. The chemical has been identified as an environmental contaminant by the Environmental Protection Agency.
Popularity: 55% [?]