All Stories

  1. Moving From Micro‐ to Nanofibers Within Melt Electrospinning

    Article • Journal of Applied Polymer Science, June 2025, Wiley

    Dr Jason Bochinski

  2. Enhancing ionic conductivity in polymer melts results in smaller diameter electrospun fibers

    Article • Applied Physics Letters, August 2023, American Institute of Physics

    Dr Jason Bochinski

  3. Tracking the complete degradation lifecycle of poly(ethyl cyanoacrylate): From induced photoluminescence to nitrogen-doped nano-graphene precursor residue

    Article • Polymer Degradation and Stability, January 2022, Elsevier

    Dr Jason Bochinski

  4. Increasing ionic conductivity within thermoplastics via commercial additives results in a dramatic decrease in fiber diameter from melt electrospinning

    Article • Soft Matter, January 2021, Royal Society of Chemistry

    Dr Jason Bochinski

  5. Nanoparticle-based photothermal heating to drive chemical reactions within a solid: using inhomogeneous polymer degradation to manipulate mechanical properties and segregate carbonaceous by-products

    Article • Nanoscale, January 2020, Royal Society of Chemistry

    Dr Jason Bochinski

  6. Photothermally-driven thermo-oxidative degradation of low density polyethylene: heterogeneous heating plus a complex reaction leads to homogeneous chemistry

    Article • Nanotechnology, September 2019, Institute of Physics Publishing

    Dr Jason Bochinski

  7. Facile measurement of surface heat loss from polymer thin films via fluorescence thermometry

    Article • Journal of Polymer Science Part B Polymer Physics, December 2017, Wiley

    Dr Jason Bochinski

  8. In situcuring of liquid epoxy via gold-nanoparticle mediated photothermal heating

    Article • Nanotechnology, January 2017, Institute of Physics Publishing

    Dr Jason Bochinski

  9. Nanoscale steady-state temperature gradients within polymer nanocomposites undergoing continuous-wave photothermal heating from gold nanorods

    Article • Nanoscale, January 2017, Royal Society of Chemistry

    Dr Jason Bochinski

  10. Enhanced Crystallinity of Polymer Nanofibers without Loss of Nanofibrous Morphology via Heterogeneous Photothermal Annealing

    Article • Macromolecules, December 2016, American Chemical Society (ACS)

    Dr Jason Bochinski

  11. Unconfined, melt edge electrospinning from multiple, spontaneous, self-organized polymer jets

    Article • Materials Research Express, November 2014, Institute of Physics Publishing

    Dr Jason Bochinski

  12. Control of the electric field–polymer solution interaction by utilizing ultra-conductive fluids

    Article • Polymer, November 2014, Elsevier

    Dr Jason Bochinski

  13. Blending with Non‐responsive Polymers to Incorporate Nanoparticles into Shape‐Memory Materials and Enable Photothermal Heating: The Effects of Heterogeneous Temperature Distribution

    Article • Macromolecular Chemistry and Physics, September 2014, Wiley

    Dr Jason Bochinski

  14. Spatial temperature mapping within polymer nanocomposites undergoing ultrafast photothermal heating via gold nanorods

    Article • Nanoscale, January 2014, Royal Society of Chemistry

    Dr Jason Bochinski

  15. Thermal Annealing of Polymer Nanocomposites via Photothermal Heating: Effects on Crystallinity and Spherulite Morphology

    Article • Macromolecules, October 2013, American Chemical Society (ACS)

    Dr Jason Bochinski

  16. Maximizing Spontaneous Jet Density and Nanofiber Quality in Unconfined Electrospinning: The Role of Interjet Interactions

    Article • Macromolecules, September 2013, American Chemical Society (ACS)

    Dr Jason Bochinski

  17. Anisotropic Thermal Processing of Polymer Nanocomposites via the Photothermal Effect of Gold Nanorods

    Article • Particle & Particle Systems Characterization, February 2013, Wiley

    Dr Jason Bochinski

  18. Metal Nanoparticles Acting as Light‐Activated Heating Elements within Composite Materials

    Article • Advanced Functional Materials, August 2012, Wiley

    Dr Jason Bochinski

  19. Effect of Solution Parameters on Spontaneous Jet Formation and Throughput in Edge Electrospinning from a Fluid-Filled Bowl

    Article • Macromolecules, July 2012, American Chemical Society (ACS)

    Dr Jason Bochinski

  20. Edge electrospinning for high throughput production of quality nanofibers

    Article • Nanotechnology, July 2011, Institute of Physics Publishing

    Dr Jason Bochinski

  21. Embedded metal nanoparticles as localized heat sources: An alternative processing approach for complex polymeric materials

    Article • Polymer, March 2011, Elsevier

    Dr Jason Bochinski

  22. Unconfined fluid electrospun into high quality nanofibers from a plate edge

    Article • Polymer, October 2010, Elsevier

    Dr Jason Bochinski

  23. Dynamics within Alkylsiloxane Self-Assembled Monolayers Studied by Sensitive Dielectric Spectroscopy

    Article • ACS Nano, November 2008, American Chemical Society (ACS)

    Dr Jason Bochinski

  24. Production of cold formaldehyde molecules for study and control of chemical reaction dynamics with hydroxyl radicals

    Article • Physical Review A, June 2006, American Physical Society (APS)

    Dr Jason Bochinski

  25. Efficient Stark deceleration of cold polar molecules

    Article • Zeitschrift für Physik D, November 2004, Springer Science + Business Media

    Dr Jason Bochinski

  26. Cold free-radical molecules in the laboratory frame

    Article • Physical Review A, October 2004, American Physical Society (APS)

    Dr Jason Bochinski

  27. A pulsed, low-temperature beam of supersonically cooled free radical OH molecules

    Article • Chemical Physics Letters, September 2004, Elsevier

    Dr Jason Bochinski

  28. Cold free radical molecules in the laboratory frame

    Article • January 2004, Optical Society of America (OSA)

    Dr Jason Bochinski

  29. Phase Space Manipulation of Cold Free Radical OH Molecules

    Article • Physical Review Letters, December 2003, American Physical Society (APS)

    Dr Jason Bochinski

  30. Stark manipulation of the free radical OH

    Article • January 2003, Institute of Electrical & Electronics Engineers (IEEE)

    Dr Jason Bochinski

  31. Magnetic trapping of ytterbium and the alkaline-earth metals

    Article • Physical Review A, July 2002, American Physical Society (APS)

    Dr Jason Bochinski

  32. Simultaneous multi-isotope trapping of ytterbium

    Article • Physical Review A, April 2001, American Physical Society (APS)

    Dr Jason Bochinski

  33. Vacuum-mediated multiphoton transitions

    Article • Physical Review A, April 2001, American Physical Society (APS)

    Dr Jason Bochinski

  34. Optical double-resonance cooled-atom spectroscopy

    Article • Physical Review A, January 2001, American Physical Society (APS)

    Dr Jason Bochinski

  35. Probing magneto-optic trap dynamics through weak excitation of a coupled narrow-linewidth transition

    Article • Physical Review A, May 2000, American Physical Society (APS)

    Dr Jason Bochinski

  36. Power-dependent loss from an ytterbium magneto-optic trap

    Article • Physical Review A, April 2000, American Physical Society (APS)

    Dr Jason Bochinski

  37. Laser modulation technique for single isotope spectroscopic studies

    Article • Physical Review A, March 2000, American Physical Society (APS)

    Dr Jason Bochinski

  38. Experimental study of photon-echo size in optically thick media

    Article • Physical Review A, August 1999, American Physical Society (APS)

    Dr Jason Bochinski

  39. Driving the driven atom: Spectral signatures

    Article • Physical Review A, December 1997, American Physical Society (APS)

    Dr Jason Bochinski

  40. Intrinsically Irreversible Multiphoton Laser Gain Mechanisms

    Article • Physical Review Letters, February 1997, American Physical Society (APS)

    Dr Jason Bochinski

  41. Optical gain and loss spectra of driven degenerate two-level transitions

    Article • Institute of Electrical & Electronics Engineers (IEEE)

    Dr Jason Bochinski

  42. Magnetic trapping of ytterbium and the alkaline earths

    Article • Institute of Electrical & Electronics Engineers (IEEE)

    Dr Jason Bochinski