Alan Dix Snip!t: First pressure-sensitive, self-healing material developed

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Snip summary	Our largest bodily organ is also one of the most remarka... our skin pressure sensitive, it is also able to efficien... provide a protective barrier between our insides and the... While we’ve covered synthetic materials that can repai... pressure se First pressure-sensitive, self-healing material developed http://www.gizmag.com/self-healing-pressure-sensitive-material/24969/

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Our largest bodily organ is also one of the most remarkable. Not only is our skin pressure sensitive, it is also able to efficiently heal itself to provide a protective barrier between our insides and the world around us. While we’ve covered synthetic materials that can repair themselves or are pressure senstive, combining these properties in a single synthetic material has understandably proven more difficult. Now researchers at Stanford University have developed the first pressure-sensitive synthetic material that can heal itself when torn or cut, giving it potential for use in next-generation prostheses or self-healing electronic devices.

HTML	Our largest bodily organ is also one of the most remarkable. Not only is our skin pressure sensitive, it is also able to efficiently heal itself to provide a protective barrier between our insides and the world around us. While we’ve covered synthetic materials that can <a href="http://www.gizmag.com/bleeding-plastic/21958/" target="_blank">repair themselves</a> or are <a href="http://www.gizmag.com/stretchy-pressure-sensitive-nano-spring-material/20289/" target="_blank">pressure senstive</a>, combining these properties in a single synthetic material has understandably proven more difficult. Now researchers at Stanford University have developed the first pressure-sensitive synthetic material that can heal itself when torn or cut, giving it potential for use in next-generation prostheses or self-healing electronic devices.

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Our largest bodily organ is also one of the most remarkable. Not only is our skin pressure sensitive, it is also able to efficiently heal itself to provide a protective barrier between our insides and the world around us. While we’ve covered synthetic materials that can <a href="http://www.gizmag.com/bleeding-plastic/21958/" target="_blank">repair themselves</a> or are <a href="http://www.gizmag.com/stretchy-pressure-sensitive-nano-spring-material/20289/" target="_blank">pressure senstive</a>, combining these properties in a single synthetic material has understandably proven more difficult. Now researchers at Stanford University have developed the first pressure-sensitive synthetic material that can heal itself when torn or cut, giving it potential for use in next-generation prostheses or self-healing electronic devices.

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