Tag Archives: BBC News

Graphene, the Nobel Prize, and levitating frogs

As you may have heard, two  scientists (Andre Geim and Konstantin Novoselov) who performed groundbreaking research on graphene [Nov. 29, 2010: I corrected this entry Nov. 26, 2010 which originally stated that these researchers discovered graphene] have been awarded the 2010 Nobel Prize for Physics. In honour of their award, the journal, Nature Materials, is giving free access to  a 2007 article authored by the scientists. From the news item on Nanowerk,

The 2007 landmark article in Nature Materials “The rise of graphene” by the just announced winners of the 2010 Nobel prize in physics, Andre Geim and Kosta Novoselov, has now been made available as a free access article.

Abstract:

Graphene is a rapidly rising star on the horizon of materials science and condensed-matter physics. This strictly two-dimensional material exhibits exceptionally high crystal and electronic quality, and, despite its short history, has already revealed a cornucopia of new physics and potential applications, which are briefly discussed here.

Here’s a description of the scientists and their work from the BBC News article by Paul Rincon,

Prof Geim, 51, is a Dutch national while Dr Novoselov, 36, holds British and Russian citizenship. Both are natives of Russia and started their careers in physics there.

The Nobels are valued at 10m Swedish kronor (£900,000; 1m euros; $1.5m).

They first worked together in the Netherlands before moving to the UK. They were based at the University of Manchester when they published their groundbreaking research paper on graphene in October 2004.

Dr Novoselov is among the youngest winners of a prize that normally goes to scientists with decades of experience.

Graphene is a form of carbon. It is a flat layer of carbon atoms tightly packed into a two-dimensional honeycomb arrangement.

Because it is so thin, it is also practically transparent. As a conductor of electricity it performs as well as copper, and as a conductor of heat it outperforms all other known materials.

The unusual electronic, mechanical and chemical properties of graphene at the molecular scale promise ultra-fast transistors for electronics.

Some scientists have predicted that graphene could one day replace silicon – which is the current material of choice for transistors.

It could also yield incredibly strong, flexible and stable materials and find applications in transparent touch screens or solar cells.

Geim and Novoselov first isolated fine sheets of graphene from the graphite which is widely used in pencils.

A layer of graphite 1mm thick actually consists of three million layers of graphene stacked on top of one another.

The technique that Geim and Novoselov used to create the first graphene sheets both amuses and fascinates me (from the article by Kit Eaton on the Fast Company website),

The two scientists came up with the technique that first resulted in samples of graphene–peeling individual atoms-deep sheets of the material from a bigger block of pure graphite. The science here seems almost foolishly simple, but it took a lot of lateral thinking to dream up, and then some serious science to investigate: Geim and Novoselo literally “ripped” single sheets off the graphite by using regular adhesive tape. Once they’d confirmed they had grabbed micro-flakes of the material, Geim and Novoselo were responsible for some of the very early experiments into the material’s properties. Novel stuff indeed, but perhaps not so unexpected from a scientist (Geim) who the Nobel Committe notes once managed to make a frog levitate in a magnetic field.

I’ll get to the levitating frog in a minute but first the bit about using regular adhesive tape to peel off single sheets only atoms thick of graphite from a larger block of the stuff reminds me of how scientists at Northwestern University are using shrinky dinks (a child’s craft material) to create large scale nanopatterns cheaply (my Aug. 16, 2010 posting).

It’s reassuring to me that despite all of the high tech equipment that costs the earth, scientists still use fairly mundane, inexpensive objects to do some incredibly sophisticated work. The other thing I find reassuring is that Novoselov probably was not voted ‘most likely to be awarded a Nobel Prize’. Interestingly, Novoselov’s partner, Geim, was not welcomed into a physics career with open arms. From the news item on physoorg.com,

Konstantin Novoselov, the Russian-born physicist who shared this year’s Nobel prize, struggled with physics as a student and was awarded a handful of B grades, his university said Wednesday.

The Moscow Physics and Technology University (MFTI) posted report cards on its website for Novoselov, who at 36 won the Nobel prize for physics with his research partner Andre Geim.

The reports reveal that he gained a handful of B grades in his term reports for theoretical and applied physics from 1991 to 1994.

He was also not strong on physical education — a compulsory subject at Russian universities — gaining B grades. And while he now lives in Britain, he once gained a C grade for English.

The university also revealed documents on Nobel prize winner Geim, who studied at the same university from 1976 to 1982. His brilliant academic career was only marred by a few B-grades for Marxist political economy and English.

Geim was turned down when he applied first to another Moscow university specialising in engineering and physics, and worked as a machinist at a factory making electrical instruments for eight months.

Given the increasing emphasis on marks, in Canadian universities at least, I noticed that Novoselov was not a straight-A student. As for Geim, it seems the fact that his father was German posed a problem. (You can find more details in the physorg.com article.)

As for levitating frogs, I first found this information in particle physicist Jon Butterworth’s October 5, 2010 posting on his Guardian blog,

Geim is also well known (or as his web page puts it “notorious”) for levitating frogs. This is a demonstration of the peculiar fact that all materials have some magnetism, albeit very weak in most cases, and that if you put them in a high enough magnetic field you can see the effects – and make them fly.

Why frogs? Well, no frogs were harmed in the experiments. But also, magnetism is a hugely important topic in physics that can seem a little dry to students …

I hunted down a video of the levitating frog on youtube,

As a particle physicist, Butterworth notes that the graphene work is outside his area of expertise so if you’re looking for a good, general explanation with some science detail added in for good measure, I’d suggest reading his succinct description.

Memristor update

HP Labs is making memristor news again. From a news item on physorg.ocm,

HP is partnering with Korean memory chip maker Hynix Semiconductor Inc. to make chips that contain memristors. Memristors are a newly discovered building block of electrical circuits.

HP built one in 2008 that confirmed what scientists had suspected for nearly 40 years but hadn’t been able to prove: that circuits have a weird, natural ability to remember things even when they’re turned off.

I don’t remember the story quite that way, i.e.,  “confirmed what scientists had suspected for nearly 40 years” as I recall the theory that R. Stanley William (the HP Labs team leader) cites  is from Dr. Leon Chua circa 1971 and was almost forgotten. (Unbeknownst to Dr. Chua, there was a previous theorist in the 1960s who posited a similar notion which he called a memistor. See Memistors, Memristors, and the Rise of Strong Artificial Intelligence, an article by Blaise Mouttet, for a more complete history. ETA: There’s additional material from Blaise at http://www.neurdon.com/)

There’s more about HP Labs and its new partner at BBC News in an article by Jason Palmer,

Electronics giant HP has joined the world’s second-largest memory chip maker Hynix to manufacture a novel member of the electronics family.

The deal will see “memristors” – first demonstrated by HP in 2006 [I believe it was 2008] – mass produced for the first time.

Memristors promise significantly greater memory storage requiring less energy and space, and may eventually also be employed in processors.

HP says the first memristors should be widely available in about three years.

If you follow the link to the story, there’s also a brief BBC video interview with Stanley Williams.

My first 2010 story on the memristor is here and later, there’s an interview I had with Forrest H Bennet III who argues that the memristor is not a fourth element (in addition to the capacitor, resistor, and inductor) but is in fact part of an infinite table of circuit elements.

ETA: I have some additional information from the news release on the HP Labs website,

HP today announced that it has entered into a joint development agreement with Hynix Semiconductor Inc., a world leader in the manufacture of computer memory, to bring memristor technology to market.

Memristors represent a fourth basic passive circuit element. They existed only in theory until 2006 – when researchers in HP Labs’ Information and Quantum Systems Laboratory (IQSL) first intentionally demonstrated their existence.

Memory chips created with memristor technology have the potential to run considerably faster and use much less energy than Flash memory technologies, says Dr. Stanley Williams, HP Senior Fellow and IQSL founding Director.

“We believe that the memristor is a universal memory that over time could replace Flash, DRAM, and even hard drives,” he says.

Uniting HP’s world-class research and IP with a first-rate memory manufacturer will allow high-quality, memristor-based memory to be developed quickly and on a mass scale, Williams adds.

Also, the video interview with Dr. Williams is on youtube and is not a BBC video as I believed. So here’s the interview,

Exploding research

One of the hardest (or, as is sometimes preferred, most challenging)  aspects of writing papers and doing research is keeping track of all your reference material. “Where is that quote? In which paper did I read that stereoselectivity is not an important factor in this process?” and on it goes when you’re writing. For a substantive paper you can end up with 50 or more references and I’ve seen some where there are more 100 . For a thesis or a book, you’re looking at hundreds of references.

Since the advent of computers and then the internet, the bar has risen considerably. Finding both the latest and as many references as possible is much easier online than searching library card catalogues and journal indexes manually.  Correspondingly, the expectations are much higher despite the fact that new tools to access references haven’t really kept up. Yes, there are citation management systems but those are an automated version of putting your references on 3″ x 5″ cards and putting them in order (although the automated version will also spit out whichever citation format you request, which is a wonderful thing).

All of this is a preamble to an article, Science enters the age of Web 2.0, by Jason Palmer on BBC News here about some new tools that can help. From the article,

You might think that professional research scientists are at the forefront of what the newest tools of the internet can provide in terms of collaboration and the discovery of knowledge.

After all, they’re frequently plonked down in front of their computers, with all that the web has to offer them easily at hand, right?

Well, sort of.

“Scientists are all about doing new things but actually we’re very conservative about the way that we do them,” said Cameron Neylon, a senior scientist for biomolecular sciences at the Science and Technology Facilities Council.

Palmer goes on to discuss the new tools and how they help multiple researchers in varying disciplines spread out amongst several timezones to work together as well as answer some of the questions I posed earlier.