quinta-feira, 29 de maio de 2014

Making graphene work for real-world devices


Fundamental research in phonon scattering helps researchers design graphene materials for applications

An illustration of multilayer graphene supported on an amorphous SiO2 substrate.

An illustration of multilayer graphene supported on an amorphous SiO2 substrate.

April 24 / 2014

Graphene, a one-atom-thick form of the carbon material graphite, has been hailed as a wonder material--strong, light, nearly transparent and an excellent conductor of electricity and heat--and it very well may be. But a number of practical challenges must be overcome before it can emerge as a replacement for silicon and other materials in microprocessors and next-generation energy devices.

One particular challenge concerns the question of how graphene sheets can be utilized in real devices.

"When you fabricate devices using graphene, you have to support the graphene on a substrate and doing so actually suppresses the high thermal conductivity of graphene," said Li Shi, a professor of mechanical engineering at The University of Texas at Austin, whose work is partially funded by the National Science Foundation (NSF).

Thermal conductivity is critical in electronics, especially as components shrink to the nanoscale. High thermal conductivity is a good thing for electronic devices fabricated from graphene. It means the device can spread the heat it generates to prevent the formation of local hot spots. However, in the case of graphene, when the needed supporting materials are also used, graphene loses some of the superhigh thermal conductivity that is predicted for its idealized state when it is freely suspended in a vacuum.

In a paper published in September 2013 in the Proceedings of the National Academy of Sciences, Shi, along with graduate research assistant Mir Mohammad Sadeghi and post-doctoral fellow Insun Jo, designed an experiment to observe the effects of thermal conductivity when the thickness of graphene supported on an amorphous glass layer was increased. They observed that thermal conductivity increased as the number of layers grew from a single one-atom layer to as thick as 34 layers. However, even at 34 layers, the thermal conductivity had not recovered to the point where it was as high as bulk graphite, which is an excellent heat conductor.

These findings are leading Shi and others to explore novel ways of supporting or connecting graphene with the macroscopic world, including three-dimensional interconnected foam structures of graphene and ultrathin graphite, or the use of hexagonal boron nitride, which has nearly the same crystal structure as graphene.

"One of our objectives is to use graphene and other layered materials to make flexible electronic devices. And those devices will be made on plastic substrates, which are flexible, but also have very low thermal conductivity," Shi explained. "When you run current through the devices, a lot of them fail. The heat cannot be dissipated effectively, so it becomes very hot and it just melts the substrate."

Melting isn't the only problem. As temperatures get higher, the flexible polymer substrate can become a molten and rubber-like material that breaks the electronic materials built on top and causes tiny conducting wires in electronic devices to easily fail.

"In general, a hot chip is not good for the devices," Shi said. "The transistors will switch slower and will require more power."

Shi has been exploring the physical properties of graphene-based materials for more than a decade. He co-authored a 2001 paper in Physical Review Letters that reported the first measurement of high thermal conductivity in individual carbon nanotubes, a cousin of graphene. He also co-authored a 2010 paper in Science that provided critical insight into the thermal conductivity and thermal transport in single layer graphene supported on a substrate.

Shi is trying to answer fundamental questions about how phonons--the vibrations of atoms in solids--transport heat. Phonons are like electrons or photons (light particles), in that they carry heat energy. However, much less is known about phonons because their effects are less apparent at the macro-scale at which we live.

"This fundamental study allowed us to understand the intrinsic physics of the scattering of lattice waves," Shi said.

Shi's experiments let his team infer how phonons scatter as a function of thickness of the graphene layers, based on observations of how the thermal conductivity varied with different numbers of layers.

To gather these insights, his team conducted theoretical calculations using the Stampede supercomputer at the Texas Advanced Computing Center (TACC), based at The University of Texas at Austin.

The simulations led them to better understand their experimental results.

"In order to really understand the physics, you need to include additional theoretical calculations. That's why we use the supercomputers at TACC," said Shi. "When you do an experiment, you see a trend, but without doing the calculations you don't really know what it means. The combination of the two is very powerful. If you just do one without doing the other, you might not develop the understanding needed."

Most of the thermal systems used today are based on legacy technologies, according to Shi. Copper and aluminum serve as heat sink materials in computers; molten salts and paraffin wax are used as the storage medium of energy in thermal storage devices; and to perform thermoelectric conversion for waste heat recovery, we use materials like bismuth telluride or lead telluride that contain elements that are either not abundant in the earth crust or not environmentally friendly.

"We're really limited by the materials," Shi said. "Can we come up with more effective materials to replace copper interconnects and copper heat-sinks, or replace silicon transistors? Can we develop thermally stable insulators for applications like fire protection? I think in 10 years, new materials will be discovered and implemented to replace these legacy technologies."

Recently, he has been exploring how multi-layered graphene can recover some of the high thermal conductivity that is lost as graphene is placed on a glass substrate, and also looking into other crystalline materials for supporting graphene.

Shi and his team are experimenting and modeling new dielectric supports, like boron nitride, which has a comparable crystal structure to graphene. The hope is that its similar crystal structure will lead to better thermal conductivity and less phonon scattering when they are used to support graphene. In a recent paper in Applied Physical Letters, Shi and Steve Cronin's team at University of Southern California reported their investigation of thermal transport across a graphene/boron-nitride interface. The results suggest the importance of improving the interface quality in order to increase the interface's conductance.

Another line of Shi's research looks at materials for thermal energy storage. Writing in the December 2013 issue of the journal Energy and Environmental Science, Shi's team showed that ultrathin graphene foams can be used to increase the power capacity of thermal storage devices by increasing the rate that heat can be charged and discharged into the phase change materials used to store the thermal energy.

"The increased thermal cycling stability, and applicability to a diverse range of phase change materials suggests that ultra-thin graphite foam composites are a promising route to achieving the high power capacity targets of a number of thermal storage applications, including building and vehicle heating and cooling, solar thermal harvesting, and thermal management of electrochemical energy storage and electronic devices," said Michael Pettes, a professor of mechanical engineering at the University of Connecticut and co-author of the paper.

"It is Shi's fundamental work on nanoscale materials including graphene that has guided the design of scalable materials which can benefit from nanostructuring and provide possibly revolutionary societal benefits."

The common thread for all this research is the development of an understanding of how the fundamental energy carriers--including electrons, photons, phonons and molecules--are transported and coupled to each other in materials, Shi said.

"Professor Shi has pioneered work on the measurements of phonon transport at the nano-scale and has undertaken measurements across a range of nano-scale systems. He was among the first to report measurements showing the important effect of a substrate on thermal conductivity reduction in graphene," said Sumant Acharya, an NSF program officer. "NSF has also supported Professor Shi on the development of low-cost silicide thermoelectric materials with the intent of fostering the development of thermoelectric-based waste heat recovery from automobiles. Professor Shi is a leader in the field of nano-scale heat transport, and I am pleased that NSF has been able to support many of Prof. Shi's groundbreaking research."

In addition to NSF's Thermal Transport Processes Program, Shi's research has been supported by the Office of Naval Research, the Department of Energy Office of Basic Energy Science and ARPA-E. One of their projects is now part of the overall effort by the Nanomanufacturing Systems for Mobile Computing and Mobile Energy Technologies (NASCENT) center, founded in 2013 and based at The University of Texas at Austin. The NSF-funded engineering research center develops high throughput, high yield and versatile nanomanufacturing systems to take nano-science discoveries from the lab to the marketplace.

Despite a long history exploring and designing with the material, Shi doesn't claim graphene will always be superior to other materials.

"But it has exciting prospects for applications," he said. "And there's great physics involved."


Aaron Dubrow, NSF 703-292-4489
adubrow@nsf.gov

Investigators
Li Shi
Insun Jo
Dan Sellan
Xiaoqin Li
Hengxign Ji
Jianshi Zhou
Matthew Hall
Rodney Ruoff
Steve Cronin
Michael Pettes
John Goodenough
Mir Mohammad Sadeghi

Related Institutions/Organizations
University of Texas at Austin

Locations
Austin , Texas

Related Programs
Nanomanufacturing Systems for Mobile Computing and Mobile Energy Technologies

Breakthrough technology uncovers fingerprints on ATM bills and receipts

 


New technology developed by academics at the University of Leicester could help in the fight against theft and fraud -- by identifying fingerprints on old receipts and ATM bills previously hidden from view.

The technology, which has been developed by Dr John Bond OBE from the University of Leicester's Department of Chemistry, uses a specially tailored UV light source to visualise fingerprints not possible to see otherwise on 'thermal paper' -- that is, the paper used for shop receipts and for bank statements from ATMs.

Historically, the process of visualising fingerprints on thermal paper has been problematic, as the solvent used in the chemical treatment can colour the dye and turn the whole paper black, rendering thermal paper a 'problem surface' to recover fingerprints from.

A couple of years ago, Dr Bond reported a method of fingerprint recovery from thermal paper by applying heat to the paper. This has been developed into commercial equipment, manufactured in the UK and sold worldwide as the Hot Print System (HPS). However, the HPS manufacturer recently reported that the properties of thermal paper seemed to vary between countries, particularly in the US and China, which led Dr Bond to invent this latest crime-fighting technique.

The new technology developed by Dr Bond counters these issues, making it possible to identify fingerprints on all forms of thermal paper efficiently.

Dr Bond said: "This new technology offers a new way of easily looking for fingerprints on an increasing source of paperwork that criminals are likely to handle when committing a variety of offences.

"When I started researching fingerprint recovery from thermal paper, I didn't realise that not all thermal papers are the same. In this latest development the light source provides non-invasive and speculative examination of thermal paper and can be carried out very quickly with the minimum of training to locate fingerprints. The HPS can then be used to develop the fingerprint to enable capture as a digital image and if development with the HPS is faint, the light source can be used to illuminate faint prints to enhance digital capture. This latest technology therefore complements my other work in this area and the HPS.

"Techniques like this are preferred by the police as they offer quick and easy examination of forensic items for fingerprints. Like all this work, the bottom line is helping the police to lock up the bad guys."

The device was recently presented at the Forensics Europe Expo, an adjunct to the Counter Terrorism Expo, which took place 29 -- 30 April, Olympia, London.

Dr Bond also presented at the Expo on a second device, used for storing a used firearm shell in a sterile container that ensures minimal contact with the outer surface of the casing, which is where extraneous DNA or fingerprints would be picked up under normal circumstances.

Dr Bond explained: "Current recovery and storage methods invariably mean there is frictional contact with the packaging that can smudge or remove any material present which, as we know, is only in small amounts to start with so anything that better preserves this evidence is to be welcomed.

"This invention is a natural extension to look at all aspects of evidence recovery, storage and processing rather than just focussing on evidence processing. Having done the job for 20 years, you get an appreciation for the whole process and where the weaknesses are; this is often not appreciated by researchers who just focus on the processing part."

The technology could lead to better retention of DNA and fingerprint material from crime scenes involving the discharge of a firearm.

Dr Julie Pratt from the University's Enterprise and Business Development Office said: "We are excited about these two new inventions as they further expand our portfolio of technologies that provide solutions for unmet needs in the forensics market. We are seeking commercial partners to take them forward; particularly companies that can manufacture and distribute these two products. These may be companies already established in the forensics market or companies looking for products with which to enter this market."

Financial support for the Expo stand was provided by Dr Bond, Dr Lisa Smith from the University of Leicester's Department of Criminology, the department itself, the MSc Forensic Science and Criminal Justice course and the INTREPID Forensics programme.

The stand also featured research by members of the Criminology department and the INTREPID Forensics doctoral training programme, for which the University recently received funding from the European Union.

Dr Bond and Dr Smith also promoted the various courses offered throughout the University at the event, including the MSc Forensic Science and Criminal Justice distance learning course and the suite of Criminology undergraduate and postgraduate courses.

Dr Lisa Smith said: "The Expo was a great opportunity to network with forensic science organisations from around Europe, and strengthen existing links as well as explore new partnerships for future research projects.

"It was very beneficial to have the University represented at such a large industry event, and to demonstrate to colleagues from across Europe some of the great research and teaching that is carried out at the University of Leicester in the areas of forensics, criminology, terrorism, security, and policing."

The Forensics Europe Expo showcases forensic science research, teaching, and practice with attendees and exhibitors from across Europe.


Story Source:

The above story is based on materials provided by University of Leicester. Note: Materials may be edited for content and length.


EPSCoR Innovations: Generating a Strong Economy

 

Investing in basic research in science and engineering yields positive economic benefits for America and for the state or region that hosts each project. This is the underlying value of the National Science Foundation's (NSF) Experimental Program to Stimulate Competitive Research, known as EPSCoR. NSF EPSCoR promotes strategic investments in science and engineering programs that build research and development capacity in 31 states and jurisdictions. Listen to EPSCoR project directors from across the country describe how EPSCoR has enhanced scientific discovery, strengthened research infrastructure and spurred technological innovations that drive economic growth.

Breeding a better bean.

 

I'm Bob Karson with the discovery files--new advances in science and engineering from the National Science Foundation.

In the evolution of plants, many traits have come about as a result of competition with other plants for limited resources like water and nutrients. But agricultural crops don't face those same competitive challenges. Better for them to be bred "just get along" and share resources. Now, researchers at the University of Illinois at Urbana-Champaign have developed a computer model that can help breed more optimum crops: Soybeans for starters.

The team set out with multiple goals: To be able to breed plants that are more productive, use less water and have a structure that reflects more sunlight back into space.

Their technique let them try out large numbers of combinations of structural trait--things like leaf arrangement on the stalk, and leaf angle--to see which combinations would result in a plant that meets their three goals.

The computer model predicted a design for a soybean crop with 8.5 percent more productivity, using 13 percent less water, and reflecting 34 percent more sunlight.

Once the computer predicts an optimal structure, the crop could be bred from the many forms of soybeans already available. No need for genetic engineering! The team says the system could work with other crops too, and help boost the world's food supply.

A different kind of bean-counting.

Streaming video more 'green' than DVDs? Billions of kilograms of carbon dioxide could be saved by scrapping discs, study shows

 


A trip down to the local DVD store has slowly become a thing of the past thanks to the rise of video streaming services, which allow viewers to indulge in back-to-back episodes of hit TV series like House of Cards and Breaking Bad at the click of a button.

Now, a new study has shown that streaming can be much better for the environment, requiring less energy and emitting less carbon dioxide (CO2), than some traditional methods of DVD renting, buying and viewing.

The researchers, who have published their study today, 29 May, in IOP Publishing's journal Environmental Research Letters, cite modern devices such as laptops and tablets as the reason for this improvement, as they are much more efficient than older, energy-sapping DVD players.

Furthermore, the driving that is required to go and buy, or rent, DVDs makes this method much more energy- and carbon-intensive.

A significant proportion of the energy consumption and carbon emissions for streaming comes from the transmission of data, which increases drastically when more complex, high-definition content is streamed.

In their study, the researchers, from Lawrence Berkley National Laboratory and Northwestern University, estimated that if all DVD viewing in the US was shifted to streaming services in 2011, around 2 billion kg of CO2 emissions could have been avoided and around 30 petajoules (PJ) of energy saved -- the equivalent of the amount of electricity needed to meet the demands of 200,000 US households.

They estimated that in 2011, 192 PJ of energy was used, and 10.4 billion kg of CO2 emitted, for all methods of DVD consumption and streaming in the US.

From this, they calculated that one hour of video streaming requires 7.9 megajoules (MJ) of energy, compared to as much as 12 MJ for traditional DVD viewing, and emits 0.4 kg of CO2, compared to as much as 0.71 kg of CO2 for DVD viewing.

To arrive at their results, the researchers compared video streaming with four different types of DVD consumerism: DVDs that are rented from online mailers; DVDs that are rented from a store; DVDs that are purchased online; and DVDs that are bought from a store.

Video streaming was limited to TV and movies and did not include shorter videos that are streamed online through YouTube etc.

They found that video streaming and the online rental of DVDs required similar amounts of energy; however, the renting and purchasing of DVDs from a store were much more energy intensive, due to the impact of driving.

Lead author of the research Arman Shehabi, from Lawrence Berkley National Laboratory, said: "It's a modern-day equivalent of the debate about which is more environmentally sound -- the disposable or the cloth diaper.

"Our study suggests that equipment designers and policy makers should focus on improving the efficiency of end-user devices and network transmission energy to curb the energy use from future increases in video streaming.

"Such efficiency improvements will be particularly important in the near future, when society is expected to consume far greater quantities of streaming video content compared to today."

Fast Facts:

  • An estimated 1.2 billion DVDs were purchased in the US in 2011
  • An estimated 17.2 billion hours of DVDs were viewed in 2011 in the US
  • An estimated 3.2 billion hours of movies and television programmes were streamed in the US in 2011
  • The percentages of total video streaming viewing time attributable to computers, televisions, and mobile devices in 2011 are estimated at 20%, 77%, and 3%, respectively

Story Source:

The above story is based on materials provided by Institute of Physics. Note: Materials may be edited for content and length.


Journal Reference:

  1. Arman Shehabi, Ben Walker, Eric Masanet. The energy and greenhouse-gas implications of internet video streaming in the United States. Environmental Research Letters, 2014; 9 (5): 054007 DOI: 10.1088/1748-9326/9/5/054007

Cite This Page:

Os 101 sites mais úteis da Internet

 

por AMANDA ARM

É isso aí…Saiu a lista com os 101 sites mais úteis da web. Ê, mão na roda, hein?

Todos esses links e mais outros 50 que não estão na lista abaixo fazem parte do livro The Most Useful Websites (que vc pode comprar aqui) e este post traduzido diretamente daqui.

Tá esperando o quê pra conferir um a um?

01. screenr.com – Grave vídeos do seu desktop e mande diretamente para o Youtube
02.
bounceapp.com – Para capturar screenshots em tamanho completo de páginas da web
03.
goo.gl – Encurtar URLs e transformá-las em QR codes
04. untiny.me – Encontrar a URL original por trás de uma URL encurtada
05.
qClock – Saber a hora local de uma cidade usando Google Map
06. copypastecharacter.com – Copiar caracteres especiais que não ficam no teclado
07.
postpost.com – Uma ótima ferramenta de busca para Twitter
08.
lovelycharts.com – Criar flowcharts, diagramas, sitemaps, etc
09.
iconfinder.com – O melhor lugar para encontrar ícones de todos os tamanhos
10.
office.com – Download de templates, clipart e images para pacote Office
11.
followupthen.com – A maneira mais fácil de criar lembretes por email
12. jotti.org – Escanear qualquer arquivo suspeito ou anexos contra vírus
13.
wolframalpha.com – Conseguir respostas diretamente, sem busca- mais detalhes em wolfram tips.
14.
printwhatyoulike.com – Copiar páginas web sem precisar cortá-las
15.
joliprint.com – Reformata artigos e conteúdo de blog como um jornal
16.
ctrql.org – Ferramenta de busca para RSS feeds.
17.
e.ggtimer.com – Um simples timer para suprir suas necessidades diárias
18.
coralcdn.org – Se um site está fora por alta quantidade de tráfego, tente acessá-lo via CoralCDN
19.
random.org – Escolher números randômicos, jogar cara ou coroa, etc.
20.
pdfescape.com – Para conseguir editar arquivos em PDF direto no browser
21.
viewer.zoho.com – Assistir PDFs e apresentações diretamente no browser
22.
tubemogul.com – Upload de vídeos diretamente no YouTube e em outros sites de vídeo, simultâneamente
23.
dabbleboard.com – Seu quadro branco virtual
24.
scr.im – Compartilhe seu endereço de email sem se preocupar com spam
25.
spypig.com – Para enviar receitas direto no seu email
26.
sizeasy.com – Visualizar e comparar o tamanho de qualquer produto
27.
myfonts.com/WhatTheFont – Determinar rapidamente o nome da fonte utilizada, a partir de uma imagem
28.
google.com/webfonts – Uma ótima coleção de fontes open source
29. regex.info – Encontrar dados escondidos em suas fotos – veja mais em EXIF tools.
30.
livestream.com – Transmitir eventos ao vivo pela web, incluindo seu desktop
31.
iwantmyname.com – Auxilia a buscar domínios dentro de todas as TLDs
32.
homestyler.com – Projete/desenhe de um rascunho inicial ou remodele sua casa em 3d
33. join.me – Partilhe sua tela com qualquer pessoa online
34.
onlineocr.net – Para reconhecer textos de PDFs escaneados – veja mais OCR tools
35. flightstats.com – Veja os status de qualquer vôo em qualquer aeroporto do mundo
36.
wetransfer.com – Para compartilhar grandes arquivos online
37.
pastebin.com – Um clipboard temporário para seus textos e pedaços de código
38.
polishmywriting.com – Corretor ortográfico para erros de digitação ou gramaticais
39.
marker.to – Para grifar as partes mais importantes das páginas
40.
typewith.me – Trabalhe no mesmo documento com várias pessoas editando-o
41.
whichdateworks.com – Planejando um evento? Encontre uma data que funcione para todos
42.
everytimezone.com – Uma maneira menos confusa de ver todas as time zones do mundo
43.
gtmetrix.com – A ferramenta perfeita para medir a performance do seu site online
44.
noteflight.com – Imprimir folhas pautadas para música, escrever suas próprias músicas online (review)
45.
imo.im – Conversar com amigos no Skype, Facebook, Google Talk, etc de um único local
46.
translate.google.com – Traduzir páginas, PDFs e documentos do pacote Office
47.
kleki.com – Criar pinturas e rascunhos com uma infinita gama de pincéis
48.
similarsites.com – Descobrir novos sites, parecidos com os que você já gosta e conhece
49.
wordle.net – Rapidamente resumir textos longos com nuvem de tags
50.
bubbl.us – Criar mind-maps e ideias de brainstorm no browser
51.
kuler.adobe.com – Conseguir sugestões de cor ou extrair cores de fotografias
52.
liveshare.com – Compartilhe suas fotos em formato de álbum imediatamente
53.
lmgtfy.com – Quando seus amigos são preguiçosos demais para usar o Google sozinhos…
54.
midomi.com – Para quando você precisa encontrar o nome de uma música
55. bing.com/images – Para encontrar automaticamente e no tamanho perfeito o papel de parede do seu mobile
56. faxzero.com – Mandar fax online de graça
57.
feedmyinbox.com – Receber RSS feeds como um jornal no email
58.
ge.tt – Mande rapidamente um arquivo para alguém, e permite preview antes de executar o dowload
59.
pipebytes.com – Transferir arquivos de qualquer tamanho sem utilizar servidores de terceiros
60.
tinychat.com – Criar uma sala de chat particular em segundos
61.
privnote.com – Criar texto que será automaticamente destruído depois de lido
62.
boxoh.com – Acompanhar o status de envio por correio via Google
63.
chipin.com – Para quando você precisa levantar fundos para evento ou causa
64.
downforeveryoneorjustme.com – Para descobrir se seu site favorito está offline ou não
65.
ewhois.com – Encontre os outros sites de uma pessoa através de um caminho inverso de analytics
66.
whoishostingthis.com – Encontre o host de qualquer site
67.
google.com/history – Encontrou no Google mas não se lembra?
68.
aviary.com/myna – Um editor de áudio online – para gravar e remixar
69.
disposablewebpage.com – Crie uma página temporária que se auto-destrói
70.
urbandictionary.com – Encontre definições para gírias e linguagem informal
71.
seatguru.com – Consulte esse site antes de escolher o assento do seu próximo vôo
72.
sxc.hu – Download grátis de imagens
73.
zoom.it – Veja imagens em altíssimas resoluções sem precisar rolar a tela
74.
scribblemaps.com – Cria facilmente locais customizados no Google Maps
75.
alertful.com – Cria alertas via e-mail para eventos importantes
76.
encrypted.google.com – Permite que seu chefe não veja seus critérios de busca
77.
formspring.me – Pergunte ou responda coisas pessoais aqui
78.
sumopaint.com – Excelente editor de imagem online (baseado em camadas)
79.
snopes.com – Descubra se a oferta que chegou por e-mail é spam
80.
typingweb.com – Aulas online e práticas de digitação
81.
mailvu.com – Para enviar vídeos por e-mail
82.
timerime.com – Cria uma timeline com áudio, vídeo e imagens
83.
stupeflix.com – Faz um filme com suas imagens, vídeos e áudio
84.
safeweb.norton.com – Confira o nível de confiança de qualquer página
85.
teuxdeux.com – Uma lista de coisas para fazer que parece um  diário
86. deadurl.com – Você vai precisar disso quando suas páginas favoritas forem deletadas
87.
minutes.io – Para capturar notas rápidas de reuniões
88.
youtube.com/leanback – Assitir canais do Youtube no modo TV
89.
youtube.com/disco – Rapidamente cria uma playlist do seu artista favorito
90.
talltweets.com – Para enviar twits maiores que 140 caracteres
91.
pancake.io – Cria um site simples, usando sua conta no Dropbox
92.
builtwith.com – Encontre a tecnologia utilizada em qualquer website
93.
woorank.com – Vasculhe qualquer página com uma perspectiva SEO
94.
mixlr.com – Transmita som ao vivo pela web
95.
radbox.me – Favorite vídeos para assistir mais tarde
96.
tagmydoc.com – Inclua QR codes nos seus documentos e apresentações
97.
notes.io – A maneira mais fácil de escrever lembretes
98.
ctrlq.org/html-mail – Envie e-mails anonimamente no formato rich-text
99.
fiverr.com – Contrate pessoas para fazer qualquer coisa por 5 dólares
100.
otixo.com – Gerencie seus arquivos das contas de Dropbox, Google Docs, etc
101.
ifttt.com – Crie uma conexão entre todas as suas contas/perfis online

NSF's 2014 Alan T. Waterman Awardee Feng Zhang discusses his research on the brain

 

 

NSF's 2014 Alan T. Waterman Awardee Feng Zhang discusses the work of his research team on the brain. Zhang is an investigator at the McGovern Institute for Brain Research at MIT and a core member of the Broad Institute of MIT and Harvard. He spoke with NSF's Lisa-Joy Zgorski during his visit to NSF in May of 2014 to receive the Alan T. Waterman Award.

Supercomputer Gordon


Gordon, a new kind of supercomputer that uses massive amounts of flash memory to retrive data

Located at the San Diego Supercomputer Center, Gordon is a completely new kind of supercomputer that uses massive amounts of flash memory to retrieve randomly organized data. This new and unique architecture is used by scientists whose research requires the mining, searching and/or creating of large databases for immediate or later use, including mapping genomes for applications in personalized medicine and examining computer automation of stock trading by investment firms on Wall Street.
To learn more about Gordon, see NSF press release 13-051,
NSF-funded superhero supercomputer helps battle autism. (Date of Image: 2012) [See related image Here.]

Credit: University of California, San Diego, publications/Erik Jepsen

See other images like this in NSF's Science360 for iPad app. To download the Science360 for iPad application for free, visit the Apple iTunes store.

Obesity rates climbing worldwide, most comprehensive global study to date shows

 

Fat people

However, the rates vary widely throughout the world with more than half of the world's 671 million obese individuals living in just ten countries -- the USA (more than 13%), China and India (15% combined), Russia, Brazil, Mexico, Egypt, Germany , Pakistan, and Indonesia.

Over the past three decades, the highest rises in obesity levels among women have been in Egypt, Saudi Arabia, Oman, Honduras and Bahrain, and among men in New Zealand, Bahrain, Kuwait, Saudi Arabia, and the USA.

In high-income countries, some of the highest increases in adult obesity prevalence have been in the USA (where roughly a third of the adult population are obese), Australia (where 28% of men and 30% of women are obese), and the UK (where around a quarter of the adult population are obese).

The findings come from a comprehensive new analysis of the global, regional, and national prevalence of overweight and obesity in adults aged 20 years and older and children and adolescents aged 2-19 years between 1980 and 2013.

The authors warn that the study presents a worrying picture of substantial rises in obesity rates across the world and say that concerted action is urgently needed to reverse this trend.

Led by Professor Emmanuela Gakidou from the Institute for Health Metrics and Evaluation at the University of Washington in the USA, a team of international researchers performed a comprehensive search of the available data from surveys, reports, and the scientific literature to track trends in the prevalence of overweight (body mass index of 25kg/m² or higher) and obesity (BMI of 30kg/m² or higher) in 188 countries in all 21 regions of the world from 1980 to 2013.

Key findings include:

  • In the developed world, men have higher rates of obesity than women, while the opposite is true in developing countries. Currently, 62% of the world's obese people live in developing countries. 
  • The greatest gain in overweight and obesity occurred globally between 1992 and 2002, mainly among people aged between 20 and 40.
  • Especially high rates of overweight and obesity have already been reached in Tonga where levels of obesity in men and women exceed 50%, and in Kuwait, Libya, Qatar, and the Pacific Islands of Kiribati, Federated States of Micronesia, and Samoa where most (more than 50%) of women are obese.
  • The prevalence of overweight and obesity in childhood has increased remarkably in developed countries, from 17% in 1980 to 24% in 2013 in boys and from 16% to 23% in girls. Similarly, in developing countries, rates have risen from roughly 8% to 13% in both boys and girls over the three decades.
  • In 2013, the proportion of obesity in girls reached 23% in Kuwait, and 30% or more in Samoa, Micronesia and Kiribati, the highest levels calculated. Similar trends in obesity were found in boys, with the Pacific Islands of Samoa and Kiribati showing the greatest obesity prevalence.
  • Within Western Europe, levels of obesity in boys ranged from 14% in Israel and 13% in Malta, to 4% in The Netherlands and Sweden. Levels of obesity in girls were highest in Luxembourg (13%) and Israel (11%), and lowest in the Netherlands Norway, and Sweden (4%). 
  • In developed countries, the rate of increase in adult obesity has started to slow down in the past 8 years, and there is some evidence that more recent birth cohorts are gaining weight more slowly than previous ones.

According to Professor Gakidou, "Unlike other major global health risks, such as tobacco and childhood nutrition, obesity is not decreasing worldwide. Our findings show that increases in the prevalence of obesity have been substantial, widespread, and have arisen over a short time. However, there is some evidence of a plateau in adult obesity rates that provides some hope that the epidemic might have peaked in some developed countries and that populations in other countries might not reach the very high rates of more than 40% reported in some developing countries."

"Our analysis suggests that the UN's target to stop the rise in obesity by 2025 is very ambitious and is unlikely to be achieved without concerted action and further research to assess the effect of population-wide interventions, and how to effectively translate that knowledge into national obesity control programmes. In particular, urgent global leadership is needed to help low-and middle-income countries intervene to reduce excessive calorie intake, physical inactivity, and active promotion of food consumption by industry."

Commenting on the implications of the study, Professor Klim McPherson from Oxford University in the UK writes, "An appropriate rebalancing of the primal needs of humans with food availability is essential, which would entail curtailing many aspects of production and marketing for food industries. To prevent unsustainable health consequences, BMI needs to return to what it was 30 years ago. Lobstein calculated that to reduce BMI to 1980 levels in the UK would require an 8% reduction in consumption across the country, costing the food industry roughly £8·7 billion per year."

He adds, "The solution has to be mainly political and the questions remain, as with climate change, where is the international will to act decisively in a way that might restrict economic growth in a competitive world, for the public's health? Nowhere yet, but voluntary salt reduction might be setting a more achievable trend. Politicians can no longer hide behind ignorance or confusion."

Brain's reaction to male odor shifts at puberty in children with gender dysphoria

 

May 28 / 2014

Frontiers

The brains of children with gender dysphoria react to androstadienone, a musky-smelling steroid produced by men, in a way typical of their biological sex, but after puberty according to their experienced gender, finds a study for the first time. Around puberty, the testes of men start to produce androstadienone, a breakdown product of testosterone. Men release it in their sweat, especially from the armpits. Its only known function is to work like a pheromone: when women smell androstadienone, their mood tends to improve, their blood pressure, heart rate, and breathing go up, and they may become aroused.


The brains of children with gender dysphoria react to androstadienone, a musky-smelling steroid produced by men, in a way typical of their biological sex, but after puberty according to their experienced gender, finds a study for the first time in the open-access journal Frontiers in Endocrinology.

Around puberty, the testes of men start to produce androstadienone, a breakdown product of testosterone. Men release it in their sweat, especially from the armpits. Its only known function is to work like a pheromone: when women smell androstadienone, their mood tends to improve, their blood pressure, heart rate, and breathing go up, and they may become aroused.

Previous studies have shown that, in heterosexual women, the brain region that responds most to androstadienone is the hypothalamus, which lies just above the brainstem and links the nervous system to the hormonal system. In men with gender dysphoria (formerly called gender identity disorder) -- who are born as males, but behave as and identify with women, and want to change sex -- the hypothalamus also reacts strongly to its odor. In contrast, the hypothalamus of heterosexual men hardly responds to it.

Girls without gender dysphoria before puberty already show a stronger reaction in the hypothalamus to androstadienone than boys, finds a new study by Sarah Burke and colleagues from the VU University Medical Center of Amsterdam, the Netherlands, and the University of Liège, Belgium.

The researchers used neuroimaging to also show for the first time that in prepubescent children with gender dysphoria, the hypothalamus reacts to the smell of androstadienone in a way typical of their biological sex. Around puberty, its response shifts, and becomes typical of their experienced gender.

The reaction to the smell of androstadienone in the hypothalamus of 154 children and adolescents, including girls and boys, both before (7 to 11-year-old) and after puberty (15 to 16-year-old), of whom 74 had been diagnosed with gender dysphoria.

Results showed that the hypothalamus was more responsive to androstadienone in 7 to 11-year-old girls than in boys, both without gender dysphoria, although not yet as much as in adolescent girls. This means that the greater receptiveness of women to its odor already exists before puberty, either as an inborn difference or one that arises during early childhood.

Before puberty, the hypothalamus of boys with gender dysphoria hardly reacted to the odor, just as in other boys. But this changed in the 15 to 16-year-olds: the hypothalamus of adolescent boys with gender dysphoria now lit up as much as in heterosexual women, while the other adolescent boys still did not show any reaction. Adolescent girls with gender dysphoria showed the same reaction to androstadienone in their hypothalamus as is typical for heterosexual men.

These results suggest that as children with gender dysphoria grow up, their brain naturally undergoes a partial rewiring, to become more similar to the brain of the opposite sex -- so corresponding to their experienced gender.


Story Source:

The above story is based on materials provided by Frontiers. Note: Materials may be edited for content and length.


Journal Reference:

  1. Sarah M. Burke, Peggy T. Cohen-Kettenis, Dick J. Veltman, Daniel T. Klink, Julie Bakker. Hypothalamic Response to the Chemo-Signal Androstadienone in Gender Dysphoric Children and Adolescents. Frontiers in Endocrinology, 2014; 5 DOI: 10.3389/fendo.2014.00060

Africa's longest-known terrestrial wildlife migration discovered

 


Zebra and herd (stock photo). "This unexpected discovery of endurance in an age dominated by humans, where we think we know most everything about the natural world, underscores the importance of continued science and research for conservation" said Dr. Robin Naidoo, senior conservation scientist at WWF.

Researchers have documented the longest-known terrestrial migration of wildlife in Africa -- up to several thousand zebra covering a distance of 500km (more than 300 miles) -- according to World Wildlife Fund (WWF).

Using GPS collars on eight adult Plains zebra (Equus quagga), WWF and Namibia's Ministry of Environment and Tourism (MET), in collaboration with Elephants Without Borders (EWB) and Botswana's Department of Wildlife and National Parks, tracked two consecutive years of movement back and forth between the Chobe River in Namibia and Botswana's Nxai Pan National Park, a straight-line distance of 250km (500km round-trip). The findings are detailed in the study, A newly discovered wildlife migration in Namibia and Botswana is the longest in Africa, published today in the journal, Oryx.

The discovery comes at a time when migrations of a diverse range of species around the world are increasingly imperiled, and zebra migrations in other parts of Africa have been disrupted by physical barriers such as fences.

"This unexpected discovery of endurance in an age dominated by humans, where we think we know most everything about the natural world, underscores the importance of continued science and research for conservation" said Dr. Robin Naidoo, senior conservation scientist at WWF.

The potential conservation implications of the study are considerable. The observed migration takes place entirely within the Kavango Zambezi Transfrontier Conservation Area (KAZA) -- the world's largest multi-country conservation area. Spanning 109 million acres across Namibia, Botswana, Zimbabwe, Zambia and Angola, KAZA exemplifies the kind of large landscape conservation approach that will be necessary to preserve the world's remaining great terrestrial migrations.

"The findings of this study emphasize the importance of trans-frontier conservation areas in conservation of the greater landscape" said Pierre Du Preez, Chief Conservation Scientist at MET in Namibia. "This study has played a crucial role in helping determine a key wildlife corridor in KAZA."

"At a time when conservation news is inherently rather negative, the discovery of this unknown natural phenomenon should resonate with people around the world. The government's commitment to secure key migratory corridors serves to underpin the growing wildlife tourism industry. We plan to continue monitoring the migration to try and conserve such increasingly rare natural events" said Dr. Mike Chase, EWB's founder.

Continued long-term research will be needed to confirm that this is an annual and fixed migration, and whether this is genetically coded or passed behaviorally from mothers to offspring.


Story Source:

The above story is based on materials provided by World Wildlife Fund. Note: Materials may be edited for content and length.


Journal Reference:

  1. R. Naidoo, M. J. Chase, P. Beytell, P. Du Preez, K. Landen, G. Stuart-Hill, R. Taylor. A newly discovered wildlife migration in Namibia and Botswana is the longest in Africa. Oryx, 2014; 1 DOI: 10.1017/S0030605314000222