One in five men ‘hates doing DIY’

May 16, 2010 By Leave a Comment

London, May 16 (ANI): One in five men hates doing DIY, according to a new study.

Despite traditionally being seen as a man”s job, the fear of failure puts off two out of five men, while a similar number claimed they don’t have enough time.

In the poll of 1,000 adults, a third said DIY was too time-consuming and one in five said they didn”t do it because they had no idea what they were doing. Another 21 per cent admitted they were simply too lazy.

“There was a time when almost every man would love nothing more than heading down to his shed to make something, or indulge in a spot of DIY around the home. But it seems this is no longer the case as a large number of men now see it as a chore rather than a hobby,” the Daily Mail quoted Chris Tidy, DIY expert for Bosch, as saying.

Of those who like to indulge in DIY, 45 per cent said it filled them with pride. A further 26 per cent used it to express their creativity.

More than a quarter liked the feeling they got after creating something unique.

On the other hand, it was found that one in four women actually enjoy a spot of handiwork around the home. (ANI)

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Advancement in thin-film solar cell technology could reduce cost, material waste

April 21, 2010 By Leave a Comment

Washington, Apr 21 (ANI): Taking a big leap in the use of continuous flow microreactors, researchers have produced thin film absorbers for solar cells—an innovative technology that could significantly reduce the cost of solar energy devices and reduce material waste.

The advance is one of the first demonstrations that this type of technology, which is safer, faster and more economical than previous chemical solution approaches, could be used to continuously and rapidly deposit thin film absorbers for solar cells from such compounds as copper indium diselenide.

Previous approaches to use this compound – which is one of the leading photovoltaic alternatives to silicon-based solar energy devices – have depended on methods such as sputtering, evaporation, and electrodeposition.

The processes can be time-consuming, or require expensive vacuum systems or exotic chemicals that raise production costs.

Chemical bath deposition is a low-cost deposition technique that was developed more than a century ago.

It is normally performed as a batch process, but changes in the growth solution over time make it difficult to control thickness.

The depletion of reactants also limits the achievable thickness.

However, the technology invented at Oregon State University to deposit “nanostructure films” on various surfaces in a continuous flow microreactor, addresses some of these issues and makes the use of this process more commercially practical.

“We”ve now demonstrated that this system can produce thin-film solar absorbers on a glass substrate in a short time, and that”s quite significant. That”s the first time this has been done with this new technique,” said Chih-hung Chang.

Further work is still needed on process control, testing of the finished solar cell, improving its efficiency to rival that of vacuum-based technology, and scaling up the process to a commercial application, Chang said.

Researchers said that it could be interesting that thin-film solar cells produced by applications such as this could ultimately be used in the creation of solar energy roofing systems.

Conceptually, instead of adding solar panels on top of the roof of a residential or industrial building, the solar panel itself would become the roof, eliminating such traditional approaches as plywood and shingles.

“If we could produce roofing products that cost-effectively produced solar energy at the same time, that would be a game changer. Thin film solar cells are one way that might work. All solar applications are ultimately a function of efficiency, cost and environmental safety, and these products might offer all of that,” said Chang.

The study was reported in Current Applied Physics. (ANI)

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Acupuncture can help calm highly anxious dental patients

March 30, 2010 By Leave a Comment

Washington, Mar 30 (ANI): A visit to the dentist provokes extreme fear and anxiety in many people. Now, a new study has suggested that acupuncture can prove helpful in the management of the uneasiness related to dental treatment.

The small study has been published in Acupuncture in Medicine.

The fear and anxiety ahead of the dental visit is a condition termed odontophobia. And up to a third of patients report moderate anxiety at the prospect of dental treatment, studies show.

The authors base their findings on 16 women and four men from eight dental practice lists.

Each of the patients was moderately or extremely anxious about going to the dentist for treatment, as assessed by a validated questionnaire – the Back Anxiety Inventory (BAI).

All were in their 40s and had been trying to deal with this problem for between two and 30 years.

The BAI score was assessed before and after five minutes of acupuncture treatment, targeting two specific acupuncture points (GV20 and EX6) on the top of the head.

The acupuncture was carried out by the dentists themselves, all of whom are members of the British Dental Acupuncture Society.

The average BAI score of 26.5 fell to 11.5, and all 20 patients were able to undergo their planned treatment, whereas before this had only been possible in six – and then only partially and after a great deal of effort on the part of both dentist and patient.

The authors point out that several attempts have been made to conquer this type of anxiety, including sedatives, relaxation techniques, behavioural therapies, biofeedback and hypnosis. The research indicates that these do help, but they are time consuming and require considerable levels of psychotherapeutic skills, if applied properly, say the authors.

They caution that further larger studies are needed to confirm the value of acupuncture in these sorts of cases. (ANI)

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‘Chewing robot’ to revolutionize dentistry

June 30, 2009 By Leave a Comment

Washington, June 30 (ANI): Scientists from University of Bristol have developed what they call a ‘chewing robot’ that would help in studying dental wear formation on human teeth.

Dental elements, such as crowns and bridges, are made from well-known metals, polymers and ceramics but their dental wear properties are often poorly understood.

The ‘chewing robot’ that mimics human teeth can help study dental wear and tear more precisely.

Clinical trials examining the wear of human teeth are expensive and time-consuming. By the time a new material has been tested, it is often obsolete.

The movements and forces involved in natural chewing action have been replicated in the Chewing Robot.

The robot is based on a three-dimensional mechanism with six linear actuators that reproduce the motion and forces sustained by teeth within a human mouth.

Lead researcher Dr Kazem Alemzadeh, recognised that the Stewart-Gough platforms have been used to provide and control the same six degrees of freedom in aircraft simulators, as is found in natural human jaw.

The design and development of the Chewing Robot was carried out by Daniel Raabe, a PhD student in the Department of Mechanical Engineering.

The robot has the potential to dramatically improve the process of developing and testing new dental materials.

“By reproducing natural bite forces and movements, the Chewing Robot can help improve and accelerate the process of developing new dental restorative materials that may someday be found in a person’s mouth,” said Raabe. (ANI)

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Soon, a simple urine test to diagnose heart disease

January 29, 2009 By Leave a Comment

Washington, January 29 (ANI): Aussie researchers have moved a step closer to developing the first urine test for diagnosing coronary artery disease (CAD), the condition behind most heart attack cases.

Lead researcher Karlheinze Peter says that such a test may save livesin the future by allowing earlier diagnosis and monitoring of the disease.

The most reliable test for diagnosing CAD is angiography, an invasive test in which doctors inject special dyes into the body to visualize, via X-rays, fatty plaque deposits in the arteries of the heart.

The technique is invasive, expensive, time-consuming, and may miss CAD in its earliest stages, according to background information in a research article in the Journal of Proteome Research.

Peter said that with a view to developing a faster and more convenient test, the research team collected urine samples from a group of 67 patients – 41 with CAD and 26 without – and analysed them for differences in protein content.

The researcher said that with the aid of a newly developed method, they could identify a group of 17 peptides (building blocks of proteins) that appeared to be directly associated with CAD.

According to Peter, the urine-based peptides indicated the presence of the disease with an 84 percent accuracy rate as compared to CAD cases confirmed using angiography, underscoring their potential for diagnostic screening. (ANI)

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