Although electrospinning (ES) allows the production of unsurpassed nanoscale polymer fibers, the major drawbacks are the nozzle-clogging and single-jet spinneret, respectively. This is a real limitation in terms of usable polymers and for patterning active organics. Nowadays the micro-engineering of smart materials could represent a new route for many fields of technology ranging from the production of electronic and photonic devices1-3 to regenerative medicine and tissue engineering.4-7
Tethered Pyro-Electrohydrodynamic Spinning for Patterning Well-Ordered Structures at Micro- and Nanoscale
Coppola Sara;Vespini Veronica;Gennari Oriella;Grilli Simonetta;Ferraro Pietro
2014
Abstract
Although electrospinning (ES) allows the production of unsurpassed nanoscale polymer fibers, the major drawbacks are the nozzle-clogging and single-jet spinneret, respectively. This is a real limitation in terms of usable polymers and for patterning active organics. Nowadays the micro-engineering of smart materials could represent a new route for many fields of technology ranging from the production of electronic and photonic devices1-3 to regenerative medicine and tissue engineering.4-7File in questo prodotto:
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Descrizione: Tethered Pyro-Electrohydrodynamic Spinning for Patterning WellOrdered Structures at Micro- and Nanoscale
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