Electrospinning: A whipping fluid jet generates submicron polymer fibers

Polymeric fibers with diameters in the range from 50 nm to 5 μm are produced by accelerating a fluid jet in an electric field, in a process known as “electrospinning.” Here we show that an essential element of the process is a fluid instability, the rapidly whipping jet. The phenomena responsible for the onset of whipping are revealed by a linear instability analysis that describes the jet behavior in terms of known fluid properties and operating conditions. The behavior of two competing instabilities, the Rayleigh mode and the axisymmetric conducting mode, is also described. The results are summarized using operating diagrams, delineating regimes of operation in electrospinning, which are in good agreement with experimental observations.

[1]  Darrell H. Reneker,et al.  Bending instability of electrically charged liquid jets of polymer solutions in electrospinning , 2000 .

[2]  Darrell H. Reneker,et al.  Mechanical properties of composites using ultrafine electrospun fibers , 1999 .

[3]  P. Gibson,et al.  Electrospinning Technology: Direct Application of Tailorable Ultrathin Membranes , 1998 .

[4]  R. Jaeger,et al.  Electrospinning of ultra-thin polymer fibers , 1998 .

[5]  Darrell H. Reneker,et al.  Electrospinning process and applications of electrospun fibers , 1993, Conference Record of the 1993 IEEE Industry Applications Conference Twenty-Eighth IAS Annual Meeting.

[6]  L. Larrondo,et al.  Electrostatic fiber spinning from polymer melts. I. Experimental observations on fiber formation and properties , 1981 .

[7]  P. Baumgarten,et al.  Electrostatic spinning of acrylic microfibers , 1971 .

[8]  Geoffrey Ingram Taylor,et al.  Electrically driven jets , 1969, Proceedings of the Royal Society of London. A. Mathematical and Physical Sciences.

[9]  Geoffrey Ingram Taylor,et al.  Disintegration of water drops in an electric field , 1964, Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences.

[10]  N. Nayyar,et al.  The Stability of a Dielectric Liquid Jet in the Presence of a Longitudinal Electric Field , 1960 .

[11]  Andrzej Ziabicki,et al.  Fundamentals of fibre formation: The science of fibre spinning and drawing , 1976 .

[12]  D. A. Saville,et al.  ELECTROHYDRODYNAMIC STABILITY: FLUID CYLINDERS IN LONGITUDINAL ELECTRIC FIELDS. , 1970 .