0 0 0 4B F m .c Wensdy Spe be ; (10/ heSatmn L THE I SS U E The University of Michigan is home to hundreds of innovative researchers and entrepreneurs. And much of the work done on this campus goes on to impact lives all around the world. Here are twelve of the best ideas to come from the University in the past year. As the recent fiasco in the Gulf of Mexico illustrated, it's slow work getting oil out of a large body of water. But a group of researchers at the University might have a quicker solution. Working alongside two of his students, Material Science and Engineering Prof. Anish Tuteja has developed a method of extracting oil from water that his research team only half-jokingly refers to as a "gigantic strainer." Tuteja's work involves a "dip-coding" process in which commercially available porous materials like cloth or polyester fabrics are covered in a thin layer of the artificial membrane that Tuteja and his researchers have been perfecting since last October. The membrane then acts as a strainer, holding back oil while enabling water to pass through. "It's water-loving and oil-hating at the same time," Arun Kota, one of the researchers on the project, said of the arti- ficial membrane. According to Tuteja, the idea of oil- water separation is completely counterin- tuitive. "Take any surface in nature and if you put water through it, oil will come too," Tuteja said. Nevertheless, "the idea was there as to what we thought might work, and the proof was really to show that it works." Tuteja's membrane involves a mixture of two elements: an oil-repellant nanopar- ticle and a "water-loving" plastic. "We have to mix them in the right quantity that it can pull the water down but push the oil up," Tuteja said. Tuteja and his researchers searched for that ideal balance through a months-long process of trial and error. According to Kota, the membrane is now almost flawless, with recent tests extracting 99% oil from oil-water mix- tures. However, the technology has yet to tested outside of a small laboratory s ting. As Tuteja explained, larger-scale te can only occur once the technology ga visibility. To that end, Tuteja and his team p to publish the results of their research i "high-impact journal" and have also fi a patent, Tuteja said. Tuteja said he hopes the "dip-codin process can be used to aid situations li the recent oil spill in the Gulf of Mexic As Tuteja pointed out, massive quan ties of oil from the Gulf spill sank bene the surface of the ocean and merged w the water, giving the appearance of a cle surface. "On the surface the ocean looks cle but underneath there's plumes and pluu of this oil-water mixture," Tuteja sa "Right now all they're doing is skimmi the top." But Kota said the new membrane c Research associa Arun Kota (left), Material Science and Engineer- ing Prof. Anish Tuteja (center) a researcher assoc Gibum Kwon (rig e Ain fhe iborator be easily tackle such underwater mixtures. et- "We have excellent separation happen- ing," Kota said. sts - DYLAN CINTI ins Ian VE H ICLE-TO-G RID u a Automobiles serve as means of transporta- led tion from point A to point B. But is that all they can be used for? g" "If you could use a car for something ike more than just getting to work or going on ao. a family vacation, it would be a whole dif- nti- ferent way to think about a vehicle," Engi- ath neering professor Jeff Stein wrote in a press ith release. an Stein serves as project director of a team of 10 other University professors who are an, collaborating on a four-year mission - nes with funding awarded from the National ?id. Science Foundation - to reinvent the way lng we think about the automobile. "We're trying to develop mathematical- 'an based tools that will help people be able to design the future vehicles so that they get good mileage, get good range, make good use of the electricity...and try to reduce the amount of pollution that is produced," he said. Oneof Stein's research projects is a concept called vehicle-to-grid integration. Stein's team is looking at tapping into a vehicle's potential to store and feed electric- ity back into the grid even while the vehicle sits idle in the garage. Right now, the electrical grid - what we plug everything from a microwave to a laptop into - operates in an "on demand" system. That is, the electricity utilities only create the exact amount of energy needed ate at the time they are being used. However, if there are a lot of vehicles that are sitting in garages, all with large batteries that store electrical energy, Stein believes they could temporarily store energy to be used at a nd later time to power other types of electric- iate ity. ht) Stein labels unpredictable energy, like y wind and solar energy, "intermittent ener- h gy" because it occurs sporadically in large spurts. Stein thinks energy created during the these spurts could be transferred to and stored in large car batteries to be used later, eri. rather than simply going to waste since it ut is not needed at that specific time. It could then be transferred to the electrical grid to ally power microwaves and laptops. "The vehicles we have now provide free- dom and meet the needs of individuals," Stein said in the press release. "(Hybrid and electric vehicles) can be a completely dif- ferent way of using a car, to be something that is defined as being a part of the greater good in concert with others. It has fascinat- ing possibilities." - CHELSEA LANGE MICROCONTROLLERS Ambiq Micro, a startup company founded by University graduates and professors, has recently gained national attention for its work that could potentially usher in a new era in computing. The company's co-founders - Ross graduates Scott Hanson, David Landman and Philip O'Neil and Engineering profes- sors Dennis Sylvester and David Blaauw - have developed what they call the world's most energy-efficient microcontroller. They believe this new technology will complete- ly transform the way users interact with computers in an everyday environment. "Microcontrollers - or MCU's - you can think of them as a scaled down ver- sion of the microprocessors you would find inside your laptops," O'Neil said in a pre- sentation about the new microcontrollers at Rice University. "MCUs are used in many different applications that we interact with on a daily basis, from our cell phones to our watches to our cars. And although they are becoming more pervasive over time, we believe that the next five to 10 years is where we're really going to see them become ubiquitous." The company's founders say that, while current computing is on a one to one ratio - where users interact with computers on a personal level with a handheld device or a laptop - the future will see computing in a much more advanced scale, with micropro- cessors installed in items anywhere from the paint on our walls to the clothes on our backs. As part of that future, Ambiq Micro believes there will be a need for smaller, more energy-efficient microprocessors like the company's microcontrollers. The company's energy-efficient micro- controllers will also greatly increase the battery life of the products in which they are used, an innovation that has not yet been seen in the market of microprocessors. In the initial stages of research for the microcontroller, the team focused on very small chips that measured one millimeter or less, but Ambiq Micro is now focusing on more commercially profitable markets with designs that are more robust, Blaauw said. These new microprocessors could soon provide a low-power alternative for compa- nies, but the chip is still in the commercial prototype stage and in the testing phase of production. Blaauw and Sylvester began the research that eventually grew into Ambiq Micro in 2003, focusing on creating an energy-effi- cient microcontroller that provides a new level of power reduction for various tech- nologies, including products used in the medical field and by credit card companies. They officially founded Ambiq Micro in 2009. The idea gained momentum, Blaauw said, in 2008 when the MIT Technology Review did a general report on the team's innovative low-power research with micro- processors. The success of the company has only increased in the past year. The company's innovations earned first place in the Michi- gan Business Challenge in February, along with a prize of $27,000 in cash grants. Ambiq Micro also won the DFJ Mercury Tech Transfer Investment Prize at the 2010 Rice Business Plan Competition, earning a total of $54,000 in prize money and placing fifth in the competition. Although there are other microcon- trollers that are now available to consum- ers, Blaauw believes that Ambiq Micro could "open up new markets" by offering a technology that has never yet been seen. - RACHEL BRUSSTAR The increased threat of terrorist attacks has led to expanded, though imperfect, secu- rity measures everywhere from airports to sporting arenas. But a new development in security could provide a hidden and imme- diate way to detect potential suicide bomb- ers, even in the largest crowds. During his final semester at the Univer- sity last year, recent Engineering graduate Ashwin Lalendran developed a system of wireless sensors, or units, that can detect Improvised Explosive Devices - explo- sives often used in suicide bombings - and transmit the data to authorities. Lalendran worked for six months on the project - which was funded by the Air Force Research Lab at the Wright-Patterson Air Force base in Dayton, Ohio - as part of a class taught by Atmospheric, Oceanic and Spaces Sciences Prof. Nilton Renno. "It's an innovative solution for secu- rity personnel to detect IEDs in a heavily crowded environment, such as an airport, where there is a constant flow of people," Lalendran said. "It's a form of standoff detection, for when you can't physically search every person." Lalendran worked to create about 20 wireless units with the ability to scan for "unusual contents in metals." The units, which would be placed about 10 feet apart from one another when in use, could then process the information in real time to detect these suspect values in metals. The sensors are not only cost-effective, Lalendran says, but also small enough to fit in the palm of a hand, and therefore pos- sible to hide within ordinary items like traffic cones. Officials could easily hide the units to remain undetected by would-be bombers. The sensors could potentially play a significant role in security forces and have even been considered for use in military defense. Lalendran offered the example of placing sensors in polling stations in places like Iraq and Afghanistan to help prevent suicide bomb attacks. "The IED problem is a really big issue," he said. "We are losing a lot of men and women because we can't detect IEDs, and I feel that this technology could help out with this specific issue." - JENNIFER DOMINGUE Each year, developing countries around the world receive billions of dollars in LEFT: Workers in- stall ballards within traffic cones to set up a network for detecting lEDs in a crowded environ- ment. Photo courtesy of Ashwin Lolendron BOTTOM: A cow- puterized illustra- 'ion shows how an underwater turbine generates power. Photo courtesy of Torun Koshy remittance funds-money that migrant workers send home to their families while partaking in jobs outside their home coun- try. This money plays a big role in the eco- nomic development of a country, but little is known about how to best utilize these funds for maximum economic growth. Many economists even speculate that remittances could be detrimental to a country, because many of the families that receive the money from migrants begin to lose incentive to work, or that they use the money for short-term needs rather than long-term investments that would do more for the development of the country. But according to Ford School of Public Policy Prof. Dean Yang, these remittances can actually be used more efficiently and yield greater advancements for the country if migrant workers exhibit greater control over the way the money is spent, rather than leaving it up to their families. To test his hypothesis, Yang embarked on a field study in which different mem- bers of a group of migrant workers from El Salvador were placed under varying finan- cial conditions. Some were offered savings accounts that allowed for greater control over how their families were using the money, others were provided a joint savings account with their families back home to increase spending monitoring, and the last group had no financial guidance. The results of the study proved that when migrants had more control over the money they sent home, their savings greatly increased, ultimately allowing for more long-term investment use. "What this reveals is the first hard, sci- entific evidence that this idea of giving migrants more control over how remit- tances are used potentially can have some kind of development impact," Yang said. "It gives migrants more control over how remittances are used, and to exercise that control so that more of that money sent home does end up getting allocated to pur- poses and they're more likely to have the long run development impact." Yang says most migrant workers tend to want their money to be spent on more long- term investments-like schooling, health- care and small business ventures-but that in many situations, families use the money for more short-termnecessitieslike grocer- ies and household bills. Because of this, a migrant may send less money back home, ultimately bringing less money to the home country and limiting that country's eco- nomic development. "Migrants certainly realize that even though they state a preference for the money to be used for education or small enterprise investments, they know that they can't really control how the money is used," Yang said. "They probably send less money home in total than if they did have the abil- ity to control how the money was used and allocated once it arrived home." - BETHANYBIRON There has been much debate over plans to install wind turbines on the shores of Lake Michigan. But what if those turbines were shoved under water? Juniors Tarun Koshy and Nicholas Williams have proposed just that. The two want to harness the currently unused power of Michigan lakes and rivers by installing large-scale underwater tur- bines. Inspired by a Discovery Channel spe- cial he saw as a high school freshman, Koshy decided to research the feasibility of extracting energy from underwater cur- rents. The increase in investment in clean energy and the fact that Michigan is full of bodies of water also convinced Koshy and Williams that underwater turbines could prove successful in Michigan. "Michigan's known so much for its water," Koshy said. "Why not use what's right in front of us?" Not to be confused with water turbines, underwater turbines do not require the con- struction of dams. They work on the same principles as wind turbines but use moving water to turn the propellers, which can gen- erate much more power than wind turbines. Underwater currents produce up to 840 times the energy density of wind,according to Hydro Green Energy, a company that is currently developing a similar idea. Additionally, water currents are con- stant, unlike the sporadic nature of wind, making them much more reliable. And they don't present an eyesore to the communities where they're installed. "People don't want wind farmsanywhere close to their homes," Koshy said. A version of the underwater turbine idea is already in production in Norway and in the Hudson River in New York. The single turbine in Norway produces enough energy to fully power 37 homes, while the New York turbine powers a supermarket and parking garage. Despite concerns that the propellers could negatively alter ecosystems, the actu- al impact on wildlife has been found to be extremely low. After scientists tagged fish in the Hudson River within a 50-mile radi- us of the turbine, they concluded that most were smart enough to avoid the underwater turbine, according to a study funded by the New York City government. Koshy and Williams debuted their idea at the statewide Motivate Michigan compe- tition, in which participants proposed plans to energize Michigan's slumping economy. The pair took top honors and a $20,000 scholarship. Motivate Michigan liked the idea so much that next year's competition will ask students to develop a business plan to implement underwater turbines in Michi- gan. - STEPHANIE BERLIANT in the H. F building c Campusv they carri majorityc researchc als to sep oil from w MAX COL. 0 Nort where ed outt of their on mat erate o rater. LiNS/D