Dr. Lisa Mauck Weiland

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  www.timesrecordnews.com/news/2008/jul/31/professor-look - [Cached Version]
  Published on: 7/31/2008    Last Visited: 8/1/2008  

  Lisa Weiland, a materials-science professor at the University of Pittsburgh, in her lab next to a hydrokinetic test rig.
  ...
  Lisa Weiland, a materials-science professor at the University of Pittsburgh, in her lab next to a hydrokinetic test rig.
  
  Instead, Weiland, a mechanical engineering professor at the University of Pittsburgh, hopes to use tiny strips of plastic, undulating in the current of rivers and streams, to produce electricity.
  
  An expert in "smart materials," Weiland and her team at Pitt are working on a project in which they hope to use plastics known as ionic polymers to help generate electricity for the town of Vandergrift in Westmoreland County, 25 miles northeast of Pittsburgh.
  
  If her plans work out, the borough's historic downtown could one day get 20 percent or more of its electrical power from a mile-long array of tiny plastic devices wiggling away on the bottom of the Kiskiminetas River as it sweeps around the town.
  
  Ionic polymers, already used as sensors, have the ability to dynamically generate current when they move, and Weiland and her engineering students are now trying to figure out the best size, shape and array of the plastics to put in the Kiski River sometime in the next five years.
  
  Once the array goes in on the riverbed, she said, "if you were able to look at it, you would just see a bunch of little things wiggling.It wouldn't look that different from a bunch of plant life."Cables from the array might then connect to the town's power grid at different spots along the bank.
  
  The power generation project is just one part of the Vandergrift Improvement Program, in which the borough, designed in 1894 as a model steelmaking community, now hopes to revitalize itself as a model "green" community, with the help of Pitt, the Pittsburgh History & Landmarks Foundation and the state Department of Community and Economic Development.
  
  Weiland is Pitt's key liaison to the project, and she plans to put as much energy into community education work on environmental sustainability as she does on the power experiment.
  
  By working with Vandergrift's citizens on conserving energy and developing clean technologies like solar power, she said it's conceivable downtown Pittsburgh could one day function without using any fossil fuels.
  ...
  While the Vandergrift project has become Weiland's personal mission, it is not her professional passion.
  ...
  "The skin is one of the last hurdles to developing an airplane that can morph in flight, just like a bird does," Weiland said.
  
  The trick is to find a material that can soften when the wings are changing shape and then harden again.There is one class of materials that can be softened with heat and then regain its rigidity, but that process is too slow and could give off a "heat signature" that the enemy could detect, she said.
  
  As an alternative, her lab is investigating materials that could soften and reharden after exposure to different wavelengths of light, or different electrical frequencies.

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  www.post-gazette.com/pg/08210/899996-115.stm - [Cached Version]
  Published on: 7/28/2008    Last Visited: 7/28/2008  

  Lisa Mauck Weiland, mechanical engineering professor at the University of Pittsburgh.
  
  There are 3 1/2 million miles of rivers in the United States.
  
  In Lisa Mauck Weiland's dreams, they could be the next great clean energy source for the world, but not the old-fashioned way, with dams and hydroelectric power plants.
  
  Instead, Dr. Weiland, a mechanical engineering professor at the University of Pittsburgh, hopes to use tiny strips of plastic, undulating in the current of rivers and streams, to produce electricity.
  
  An expert in "smart materials," Dr. Weiland and her team at Pitt are working on a project in which they hope to use plastics known as ionic polymers to help generate electricity for the town of Vandergrift in Westmoreland County, 25 miles northeast of Pittsburgh.
  
  If her plans work out, the borough's historic downtown could one day get 20 percent or more of its electrical power from a mile-long array of tiny plastic devices wiggling away on the bottom of the Kiskiminetas River as it sweeps around the town.
  
  Lisa Mauck Weiland
  ...
  Ionic polymers, already used as sensors, have the ability to dynamically generate current when they move, and Dr. Weiland and her engineering students are now trying to figure out the best size, shape and array of the plastics to put in the Kiski River sometime in the next five years.
  
  Once the array goes in on the riverbed, she said, "if you were able to look at it, you would just see a bunch of little things wiggling.It wouldn't look that different from a bunch of plant life."Cables from the array might then connect to the town's power grid at different spots along the bank.
  
  The power generation project is just one part of the Vandergrift Improvement Program, in which the borough, designed in 1894 as a model steelmaking community, now hopes to revitalize itself as a model "green" community, with the help of Pitt, the Pittsburgh History & Landmarks Foundation and the state Department of Community and Economic Development.
  
  Dr. Weiland is Pitt's key liaison to the project, and she plans to put as much energy into community education work on environmental sustainability as she does on the power experiment.
  
  By working with Vandergrift's citizens on conserving energy and developing clean technologies like solar power, she said it's conceivable Downtown could one day function without using any fossil fuels.
  
  The residents' creativity and ideas will be crucial to the effort, she said, because even though "technology is going to have a very important role to play, technology alone is not going to come to the rescue.It took all of us to make this mess and it will take all of us to clean it up."
  
  While the Vandergrift project has become Dr. Weiland's personal mission, it is not her professional passion.
  ...
  "The skin is one of the last hurdles to developing an airplane that can morph in flight, just like a bird does," Dr. Weiland said.
  
  The trick is to find a material that can soften when the wings are changing shape and then harden again.There is one class of materials that can be softened with heat and then regain its rigidity, but that process is too slow and could give off a "heat signature" that the enemy could detect, she said.
  
  As an alternative, her lab is investigating materials that could soften and reharden after exposure to different wavelengths of light, or different electrical frequencies.
  
  That work has also led her down another pathway, exploring materials that incorporate the same energy packets that are used by human cells -- ATP, or adenosine triphosphate.
  
  The ATP can drive microscopic pumping action in a material, and one possible use of that might be to deliver vaccines or medications to target cells that would activate the pumps and release the substances in the body, she said.
  
  If the ionic polymers she is working with in Vandergrift don't end up being the best material for generating power, they still hold great promise as self-powered sensors, especially for spots that are too remote or dangerous for regular human inspection, such as deep mine shafts or nuclear plants, she said.
  
  There might even be medical uses, Dr. Weiland said.One experiment has used an ionic polymer patch on the arm to detect the subtle turbulence in the bloodstream that might indicate clots are forming near the heart.
  
  Dr. Weiland grew up in the Baltimore area and can remember being so fascinated by planes at a young age that she would climb out of her crib if she heard one flying overhead.
  
  After earning an associate degree at a community college, she got her bachelor's in mechanical engineering at the University of Maryland.Eventually, her airplane mania lured her to graduate school at Purdue University and the Georgia Institute of Technology, where she earned her Ph.D. in 2002 and did her first airplane morphing.

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  dsc.discovery.com/news/2008/08/26/river-power-energy.ht - [Cached Version]
  Published on: 1/1/2008    Last Visited: 8/27/2008  

  "Vandergrift is trying to be the model green town," said Lisa Weiland, a scientist at the University of Pittsburgh who is involved in the project.
  
  Vandergrift, which is northeast of Pittsburgh, was originally supposed to be the model steel town, but now, as Weiland says, it is "reinventing itself and going for sustainability."
  
  That sustainable power will most likely come from a grid of undulating strips made of polyvinylidene fluoride or PVDF, a material that generates a slight electrical current when it is moved, in this case, by the currents and eddies in the Kiskiminetas River.Such materials are described as piezoelectric, and the resulting electrical current would pass to small substations along the river's edge before charging a group of batteries.
  
  "There are other materials that give better performance or have higher energy densities," said Weiland."But we're willing to sacrifice a little power to keep the ecosystem happy."
  
  The Kiskiminetas River, or the Kiski, as it's more informally known, is about 40 yards wide where it passes Vandergrift.Weiland currently plans to lay a grid, 30 yards wide and about a mile long, down on the river bed to help power the city.

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  www.AEONIA.com/generate-electricity-polymers - [Cached Version]
  Published on: 10/12/2008    Last Visited: 8/29/2008  

  This project is led by Lisa Mauck Weiland, a mechanical engineering professor at the University of Pittsburgh, who is directing the development of the Mechanics of Active Materials Laboratory of the Department of Mechanical Engineering and Materials Science.Besides this project, she's heading other research programs.
  
  For example, the DARPA-sponsored "Light Activated Shape Memory Polymer" is about "Materials with Optically-Controllable Mechanical Properties" and is being done in collaboration with the Advanced Materials division of the Cornerstone Research Group.
  
  Now, let's return to the Pittsburgh Post-Gazette article mentioned above for more details."Ionic polymers, already used as sensors, have the ability to dynamically generate current when they move, and Dr. Weiland and her engineering students are now trying to figure out the best size, shape and array of the plastics to put in the Kiski River sometime in the next five years.
  ...
  Lisa Weiland has been involved in this project since the summer of 2006."The results showed that the Kiskiminetas River, or the Kiski, as locals call the waterway, was a significant untapped natural energy resource for the town.There also was a knowledge gap, says Weiland, about how best to harness that resource.

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  crnblog.org/?cat=15 - [Cached Version]
  Published on: 10/12/2008    Last Visited: 9/28/2008  

  Lisa Mauck Weiland, mechanical engineering professor at the University of Pittsburgh.

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  Dateline Pittsburgh: 9/25/06 - [Cached Version]
  Published on: 9/25/2006    Last Visited: 9/25/2006  

  School of Engineering: Daniel Cole, assistant professor, Mechanical Engineering; Jennifer Gray, assistant professor, Materials Science; Guangyong Li, assistant professor, Electrical and Computer Engineering; Jason Monnell, research associate, Civil and Environmental Engineering; Ravi Shankar, assistant professor, Industrial Engineering; Lisa Weiland, assistant professor, Mechanical Engineering; Minhee Yun, assistant professor, Electrical and Computer Engineering.

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  Newswise - [Cached Version]
  Published on: 9/29/2004    Last Visited: 9/29/2004  

  At Virginia Tech, Leo will be working with Tim Long, professor of chemistry, and Lisa Weiland, currently a research scientist at CIMMS who will soon be joining the University of Pittsburgh's mechanical engineering department.

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  Plants Provide Model For New Shape-Changing Materials - [Cached Version]
  Published on: 10/5/2004    Last Visited: 10/5/2004  

  At Virginia Tech, Leo will be working with Tim Long, professor of chemistry, and Lisa Weiland, currently a research scientist at CIMMS who will soon be joining the University of Pittsburgh's mechanical engineering department.

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  Plastics News - PN Blog - [Cached Version]
  Published on: 9/2/2008    Last Visited: 9/3/2008  

  Lisa Weiland, an assistant professor at the University of Pittsburgh's Department of Mechanical Engineering and Materials Science, explains that Vandergrift is a steel town that is "reinventing itself and going for sustainability."

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  Post-Gazette NOW - Health, Science & Environment - [Cached Version]
  Published on: 10/12/2008    Last Visited: 7/31/2008  

  Lisa Mauck Weiland, mechanical engineering professor at the University of Pittsburgh.
  ...
  Dr. Weiland explains why she doesn't favor giving people lists of do's and don't's on conservation activities.
  
  She favors an educational approach that emphasizes underlying principles.
  
  She says shape-changing "smart materials" might allow customized camping equipment.
  
  Lisa Mauck Weiland

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