The temporary structures, which can be degraded away with a biocompatible chemical trigger, could be useful in fabricating microfluidic devices, creating biomaterials that respond dynamically to ...

Brown researchers have found a way to 3-D print intricate temporary structures that can be degraded on demand using a biocompatible chemical trigger. The technique could be useful in fabricating ...

PROVIDENCE, R.I. [Brown University] -- Brown University engineers have demonstrated a technique for making 3-D-printed biomaterials that can degrade on demand, which can be useful in making ...

Brown University engineers have demonstrated a technique for making 3-D-printed biomaterials that can degrade on demand, which can be useful in making intricately patterned microfluidic devices or in ...