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Latest Biologically inspired engineering Stories

2015-03-04 12:26:34

Institute's human organ-on-a-chip design recognized for its elegance and potential societal impact BOSTON and NEW YORK, March 4, 2015 /PRNewswire-USNewswire/ -- Samples of the Wyss

2015-01-13 23:02:17

The vaccine would provide a nonsurgical method for spaying and neutering animals and could greatly reduce rates of euthanasia in the United States Los Angeles,

2014-11-17 08:26:29

Recognizing her groundbreaking advancements in bioprinting, Foreign Policy honors Lewis for the potential impact her research could have on global health and technology BOSTON, Nov.

2014-10-29 08:26:08

New startup will develop non-stick surfaces for broad range of industrial applications BOSTON, Oct.

biolfims
2014-09-18 02:30:14

Harvard team lays the foundation for using bacterial biofilms for production of new self-healing materials and bioprocessing technologies.

New Method Enables Scientists To Print Tissue Constructs With Blood Vessels
2014-02-19 15:24:58

A new bioprinting method developed at the Wyss Institute for Biologically Inspired Engineering at Harvard University and the Harvard School of Engineering and Applied Sciences (SEAS) creates intricately patterned 3D tissue constructs with multiple types of cells and tiny blood vessels.

Tiny Robotic Insects Take Flight
2013-05-03 09:06:20

A team of Harvard engineers has made a successful test flight with a tiny robotic insect that is half the size of a paperclip, weighs less than a tenth of a gram, and can flap its wings 120 times per second.

New Adaptive Material Inspired By Tears Designed By Scientists
2013-04-08 14:15:26

Tunable material system designed by Harvard team is easily adaptable for diverse applications in fuel transport, textiles, optical systems, and more

Color-tunable Photonic Fibers Mimic The Fruit Of The “Bastard Hogberry” Plant
2013-01-28 14:29:04

A team of materials scientists at Harvard University and the University of Exeter, UK, have invented a new fiber that changes color when stretched.