29 mars 2007

Cold fusion is back at the American Chemical Society

Chemistry meeting grants audience to low-energy nuclear work.
Katharine Sanderson

After an 18-year hiatus, the American Chemical Society (ACS) seems to be warming to cold fusion. Today that society is holding a symposium at their national meeting in Chicago, Illinois, on 'low-energy nuclear reactions', the official name for cold fusion.

Some say the move shows that researchers are re-opening their eyes to work in this field. Others maintain that there is still no evidence for cold fusion and see the session only as a curiosity.

Back in 1989, Martin Fleischmann and Stanley Pons sparked a controversy when they announced that they had created excess energy from an electrochemical reaction of deuterium and palladium at near-room temperature. They announced that the energy could only be explained by a nuclear reaction, which could possibly yield cheap, clean energy for the world.

Fleischmann and Pons were first hailed as heroes, but then no one could reproduce their results. Some say the field has never recovered from the scandal that surrounded the dramatic rise and fall of the idea at that time.

When Pons spoke at an ACS meeting in 1989 he was greeted by a standing ovation from a packed hall of thousands of chemists. The ACS has not run a session on cold fusion since. And when it was first suggested to environmental chemistry programme chair Gopal Coimbatore that a session should now be convened he was initially inclined to say no. "The skepticism is built into everyone," he says.

But he was persuaded. "It's been a long time," says Coimbatore, whose own research is in biosensors and toxicology, "let's look at it again."

Real effect?

Fleischmann, now in his 80s, has recently done a raft of calculations and tests that he says proves that his data are not just a mistake. "I've seen these effects, I'm convinced they're real," says Melvin Miles of the University of La Verne, California, who presented Fleischmann's results at the symposium. Fleischmann's calculations show that his measurements of the power given off were accurate to plus or minus 0.1 milliwatts, says Miles; and Miles says he has seen hundreds of milliwatts of power given off in these experiments, so the error is too small to account for the result, he adds.

Others are less convinced. "It still looks a lot like 1989," says vocal cold-fusion critic Robert Park at the University of Maryland. "If anything is going on, it's not fusion."

That cold-fusion critics such as Park even acknowledge there might be any effect at all is a major change in attitude, says Frank Gordon from the US Navy's Space and Naval Warfare Systems Center in San Diego, California, who is also working on low-energy nuclear reactions with colleagues Stan Szpak and Pamela Mosier-Boss.

Back seat

The American Physical Society (APS), in contrast to its chemical counterpart, regularly holds cold-fusion sessions at its annual meetings. At the March 2007 meeting, the society ran for the first time its two cold-fusion sessions on the first, rather than last (and poorly attended) day. And the sessions attracted a new, if tentative audience, says Gordon. "There were people that came and sat at the back of the room," he says.

The ACS session today granted them an audience of about a dozen people.

Mosier-Boss presented her team's latest results with a technique called co-deposition, where they electrochemically deposit palladium onto a cathode in the presence of deuterium — a heavy isotope of hydrogen. During their electrochemical reactions they have seen mini explosions, evidence for neutron and tritium production, and a warming of the cell that can't be accounted for by normal chemistry, they say — although they are careful to avoid the 'CF' words.

"We have shown it's possible to stimulate nuclear reactions by electrochemical methods," says Gordon. Others say this conclusion is premature. But they have published some 16 papers over the past 18 years, including one earlier this year1.

Miles is also careful to avoid using the words 'cold fusion'. "There are code names you can use," he says. In 2004 Miles and colleagues were granted a US patent for a palladium material doped with boron for use in low-energy nuclear reactions, but if the patent application contained the CF words it would never have been granted, Miles says. "We kind of disguised what we did."

Just in case

The ACS meeting has sustainability as its theme, and the energy problems facing the world might have prompted the renewed interest in cold fusion in that forum. "We're going to face a severe energy crisis soon," the ACS's Coimbatore says, "Scientists are the most able ones to look for a new source."

But most are for the moment skeptical that low-energy nuclear reactions are the way forward. "The Pons-Fleischmann fiasco damaged the subject but it is the lack of a clear scientific, experimental demonstration of the effect that does the real damage," says Michael Loughlin, who works on another sort of fusion — very, very hot fusion — with the UK Atomic Energy Authority in Culham. "There is no strong evidence that nuclear fusion is taking place."

Loughlin sees no great significance in the ACS's inclusion of cold fusion this year, but says it is good that there is a forum for discussion, "just in case some progress is made".

Others are more scathing: "It's like a Christian convention having a sermon on Islam," said one chemist, who declined to be named, when he heard about the session.

Green tea could keep HIV at bay

Drinking green tea could help in the fight against HIV/AIDS, according to research published by the University of Sheffield and Baylor College of Medicine, in Texas, USA.

Scientists have discovered that a component of green tea called epigallocatechin gallate, or EGCG, prevents HIV from binding to our immune system cells by getting there first. Once EGCG has bound to our immune system cells there is no room for HIV to take hold.

Professor Mike Williamson, from the Department of Molecular Biology and Biotechnology at the University of Sheffield and who worked on the study, said: "Our research shows that drinking green tea could reduce the risk of becoming infected by HIV, and could also slow down the spread of HIV."

He added: "It is not a cure, and nor is it a safe way to avoid infection, however, we suggest that it should be used in combination with conventional medicines to improve quality of life for those infected. Future research is also currently under way in order to determine how much effect can be expected from different amounts of tea."

Notes for Editors: Funding for this research came from the US National Institutes of Health, the Paediatric Research and Education Fund at Baylor College of Medicine and the David Fund, Paediatric AIDS Fund and Immunology Research Fund at Texas Children's Hospital and the Centres for AIDS Research.

Source University of Sheffield