Electromechanical imaging in liquid environments: a pathway toward molecular-level resolution of biological systems

Electromechanical imaging in liquid environments: a pathway toward molecular-level resolution of biological systems

Scientists have demonstrated that electromechanical imaging techniques, when operated in a liquid environment, can provide a resolution of up to 10 times that of the resolution when imaging in air. The liquid imaging method will allow for high-res studies of ferroelectric materials, as well as imaging electromechanical properties of biological systems, ultimately on the molecular level.

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<p><a href="http://www.physorg.com/news70962299.html">Electromechanical imaging in liquid environments: a pathway toward molecular-level resolution of biological systems</a></p> <p>Scientists have demonstrated that electromechanical imaging techniques, when operated in a liquid environment, can provide a resolution of up to 10 times that of the resolution when imaging in air. The liquid imaging method will allow for high-res studies of ferroelectric materials, as well as imaging electromechanical properties of biological systems, ultimately on the molecular level.</p>