13 Nov 2008: Analysis

The Greenhouse Gas
That Nobody Knew

When industry began using NF3 in high-tech manufacturing, it was hailed as a way to fight global warming. But new research shows that this gas has 17,000 times the warming potential of carbon dioxide and is rapidly increasing in the atmosphere – and that's turning an environmental success story into a public relations disaster.

by richard conniff

Hypothetical question: You’re heartsick about global warming, so you’ve just paid $25,000 to put a solar system on the roof of your home. How do you respond to news that it was manufactured with a chemical that is 17,000 times stronger than carbon dioxide as a cause of global warming?

It may sound like somebody’s idea of a bad joke. But last month, a study from the Scripps Institution of Oceanography reported that nitrogen trifluoride (NF3), with a global warming potential of 17,000, is now present in the atmosphere at four times the expected level and rapidly rising. Use of NF3 is currently booming, for products from computer chips and flats-screen LCDs to thin-film solar photovoltaics, an economical and increasingly popular solar power format.

Moreover, the Kyoto Protocol, which limits a half-dozen greenhouse gases, does not cover NF3. The United Nations Framework Convention on Climate Change now lists it among five major new greenhouse gases likely to be included in the next phase of global warming regulation, after 2012. And while that may be reassuring, it also suggests the complicated character of the global warming problem.

In fact, NF3 had become popular largely as a way to reduce global warming. The U.S. Environmental Protection Agency began actively
UC Irvine researchers noted that NF3 is one of the most potent greenhouse gases known and persists in the atmosphere for 550 years.
encouraging use of NF3 in the 1990s, as the best solution to a widespread problem in making the components for everything from cell phones to laptop computers. Manufacturers in the electronics industry all use a vacuum chamber to etch intricate circuitry and to deposit a thin layer of chemical vapor on the surface of a product. Some of the vapor inevitably builds up instead as glassy crud on the interior of the chamber.

To tear apart that layer of crud and clean the vacuum chamber, manufacturers were using powerful fluorinated greenhouse gases. The usual choice, hexafluorethane, or C2F6 sounds better at first than NF3. In global warming terms, it’s only about 12,000 times worse than carbon dioxide. But C2F6 is difficult to break down, and roughly 60 percent of what goes into the vacuum chamber ends up in the atmosphere. With NF3, estimates suggested that under optimal conditions, roughly 98 percent of what goes into the vacuum chamber is destroyed there.

So when the semiconductor industry announced a voluntary partnership with the EPA to reduce greenhouse-gas emissions by 10 percent from 1995 levels between 1999 and 2010, NF3 became the replacement technology of choice. Makers of flat-screen displays soon announced a similar program. In 2002, the EPA gave a Climate Protection Award to the largest NF3 producer, Pennsylvania-based Air Products and Chemicals Inc., for its work in reducing emissions.

Then last summer, a paper calling NF3 “the greenhouse gas missing from Kyoto” attracted widespread press attention. Co-authors Michael J. Prather and Juno Hsu of the University of California at Irvine noted that NF3 is one of the most potent greenhouse gases known and persists in the atmosphere for 550 years.

But back in the 1990s when the Kyoto Protocol was being negotiated, NF3 was a niche product of unknown global warming potential (GWP). [In calculating GWP, carbon dioxide is the basic unit, with a GWP of one. For other gases, scientists measure infrared-absorption, the spectral location of the absorbing wavelengths, and the atmospheric lifetime of the gas to determine its global warming effect relative to carbon dioxide.] So NF3 got left out, meaning no requirement for industry to track emissions, or even to report how much NF3 is actually being produced.

That left room for what felt to Prather like a “flimflam.” In an interview with Yale Environment 360, he estimated that 20 or 30 percent of total NF3 production ends up in the atmosphere — not
According to a new report, NF3 is now present in the atmosphere at four times the expected amount, with atmospheric concentrations rising 11 percent a year.
the two percent industry had seemed to suggest. He and Hsu characterized Air Products, the same NF3 producer that the EPA had honored, as producing the annual global warming equivalent of one of the world’s largest coal-fired power plants.

A new paper, published in Geophysical Research Letters in October, filled in gaps in this glum picture — and threatened to turn the NF3 emissions success story into a public relations disaster. Ray Weiss and his research team at the Scripps Institution of Oceanography reported that NF3 is now present in the atmosphere at four times the expected amount, with atmospheric concentrations rising 11 percent a year. Working from annual production estimates of 4,000 metric tons, Weiss figured that about 16 percent of current production is ending up in the atmosphere.

Corning Painter, a vice president at Air Products, praised the Weiss paper but argued that “in terms of order of magnitude the numbers are relatively close” to earlier estimates. In a letter to New Scientist magazine this summer, Painter had seemed to give the impression that overall emissions were in the two percent range. “More than 20 years of research and work with our customers finds that less than 2 percent of NF3 is released into the atmosphere,” he wrote.

But in an interview with Yale Environment 360, Painter said Air Products has a two percent emissions rate just in producing and packaging the gas, though he said that rate continues to go down. He said global NF3 production is actually 7,300 tons annually. Given Weiss’s figures for atmospheric concentrations, he said, that would translate to an overall emissions rate closer to 8 percent, including manufacturing, transportation, and end-use.

Getting the advertised results with NF3 always hinged on an expensive new technology called remote plasma cleaning. It breaks up the gas in a remote container, then injects the active ingredient, fluorine, together with nitrogen, into the vacuum chamber. With the optimal configuration, the process destroys almost all the NF3. Bigger companies made the change to remote plasma cleaning when they switched to newer fabrication tools, often at great expense. “You can hear guys saying, ‘I’ve gone from a Hummer to a Prius. I’ve met all my voluntary commitments,’” said Painter.

But other companies stuck with older tools, simply replacing C2F6 with NF3. This Band-Aid approach still releases about 20 percent of the NF3 into the atmosphere. Painter argued that the struggling economy will force manufacturers to shut down these less efficient production lines, reducing overall emissions. But in October, Global Industry Analysts estimated that over the next four years NF3 production will increase to almost 20,000 tons, because of growing demand in the electronics industry.

Moreover, even the latest equipment does not guarantee that a company will achieve the optimal emissions rates — for instance, in the solar cell industry. Amorphous silicon thin-film solar photovoltaic cells, manufactured using NF3, are slightly less efficient than crystalline silicon solar cells, the dominant technology. But they are cheaper to produce and expected to supply a rapidly increasing share of the solar market, for both large-scale and domestic applications.

Because thin-film is a new technology, manufacturers generally use the latest equipment. But a knowledgeable source, who asked to remain unidentified, recently visited thin-film solar researchers in Asia. “They were unaware of the NF3 issue. They were using a remote plasma, but they were also using quite a bit of NF3. They weren’t sure they had it set up right for 98 percent destruction. It wasn’t really on their radar.”

The bottom line, said UC Irvine’s Prather, is that “industry really cannot be trusted for self-regulation.” We will not know the extent of the problem “until we have honest, legally required reporting.” The other important lesson from the NF3 case, according to Scripps’s Weiss, is that the bottom-up measurements required by some global warming regulations aren’t enough. Figuring out how much methane a cow produces, then adding up the cows, may not give you ground truth when it comes to global warming. “You have to measure from the top down, and see what’s actually going into the air.”

A practical alternative to NF3 already exists. According to Paul Stockman of Munich-based Linde Gas, fluorine has zero global warming potential and no atmospheric lifetime. But it’s also highly toxic and reactive. So instead of being shipped in bottles like NF3, it must be generated on site using special equipment. Stockman, whose company manufactures NF3, said fluorine will become essential in thin-film solar manufacturing, because faster cleaning times mean a substantial boost in productivity.

Meanwhile, Air Products says it supports adding NF3 to the list of regulated greenhouse gases in the Kyoto Protocol’s second commitment period, beginning in 2012. But Prather believes industry needs to get more honest about NF3 production and emissions before then. Solar cells are like any other product, he said, in that the manufacturing process has a global warming footprint. But solar buyers are likely to be particularly concerned with the size of that footprint — and not so pleased to find out that what they thought was a Prius is really just a Hummer on the inside.

POSTED ON 13 Nov 2008 IN Climate Climate Oceans Antarctica and the Arctic North America 


By the way, the only interest of massive CO2 emision was to try to counteract the global colling.
But this has not proven effective. Despite huge quantities of CO2, the earth continues to cool down.
Now, thanks to the extraordinary NF3 effectiveness, we have now the killer answer.
Before an agreement is found to release significant amounts of NF3 in the atmosphere, all of us should buy some solar panels to stockpile in our garages whithout installing them.
Then, those would not contribute to decrease CO2 emission, which would be counterproductive.
Posted by Corbin on 27 Dec 2008

I would like to mention a couple of concerns about the greenhouse and other potential toxic gases in general:

1. Assuming these greenhouse and other gases cling to the planet around because of the gravitational forces, will they interact with each other or with that of sun rays? (even any slow reactions?)

2. How do they precisely predict the life of these gases? What happens to the NF3 gas after 550 years? Whatever is supposed to happen, can we accelerate that process and make it happen sooner with human intervention?
Posted by Ravi Kuchibhotla, PE, CEM on 22 Jan 2009

I wrote a short article about NF3 on our computer recycling blog. Computer and electronics recyclers usually focus on harmful materials that are part of the devices themselves (and therefore released into the environment if not properly handled at the item's end-of-life). Looking into NF3 was a bit of a revelation into the dangers of manufacturing. LCD panels were seen as a great alternative to heavily leaded CRT monitors, but now Mercury in the backlights and NF3 to used in making the films, they are looking nearly as dangerous. What are your thoughts?
Posted by technocycle computer recyclers on 03 Mar 2009

Richard, I just saw this article being somewhat new to this site. Kudos!

Greens need to understand that they like the rest of us can easily be manipulated by industry and government. Wanting to help the environment and actually helping the environment are not the same thing.

How often have we seen where greens have actually shot themselves and the environment in the proverbial foot. Not sure who said it first but we should all remember, "the road to ruin, is paved with good intentions." (Also, thanks for teaching me something "I thought those guys were all using BF3.")
Posted by f1fan on 16 Mar 2009

Current levels of NF3 .16 parts per trillion is, according to experts, a trivial contributor to greenhouse gases. However, in my opinion the release of 2 percent of this gas during use is large and should be addressed even if immediate or foreseeable problems exist. The best approach to the situation would be to review and improve the techniques used to lower or eliminate this leakage. I am sure this could be accomplished with good engineering and perhaps some scrubbing of the air in situ.

It would be good not to jump to conclusions and force changes with little to justify them and not knowing the consequences. The great changes required to convert from CFCs has had no effect on the ozone level as it continues to remain at record levels or enlarge decades after the banning of their use. Little is reported on this fact when this was looked at as a huge problem which threatened life on the planet. Now that the "cure" has been proven to have nothing to do with the perceived problem, oh well, it just seems to have been forgotten. Amazing how a threat to our very existence just doesn't matter any more.

Posted by Dahun on 20 Mar 2009

Comments have been closed on this feature.
richard conniffABOUT THE AUTHOR
Richard Conniff is a 2007 Guggenheim Fellow and a National Magazine Award-winning writer, whose articles have appeared in Time, Smithsonian, The Atlantic, The New York Times Magazine and National Geographic. His upcoming book, Swimming With Piranhas at Feeding Time: My Life Doing Dumb Stuff With Animals, is due out from W.W. Norton in May. He is the author of six other books, including The Natural History of the Rich: A Field Guide and Spineless Wonders: Strange Tales of the Invertebrate World. Conniff has also written for Yale e360 about carbon offsets and the concept of clean coal.



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