A nanoparticle coated hydrogel may be formed by a method of electrospraying nanoparticles on to a surface includes providing a drug and polymer combination in solvent to an inner capillary of a coaxial dual capillary spray nozzle. A coating with a drug that releases over time may be provided. Open a
A nanoparticle coated hydrogel may be formed by a method of electrospraying nanoparticles on to a surface includes providing a drug and polymer combination in solvent to an inner capillary of a coaxial dual capillary spray nozzle. A coating with a drug that releases over time may be provided. Open and closed matrixes may be selectively formed to help modify time release periods.
대표청구항▼
1. A method of electrospraying nanoparticles on to a surface, the method comprising: providing a first liquid diluent to a first outer opening of a first spray head and a first liquid spray composition to a first inner opening of the first spray head, the first inner opening concentric with the firs
1. A method of electrospraying nanoparticles on to a surface, the method comprising: providing a first liquid diluent to a first outer opening of a first spray head and a first liquid spray composition to a first inner opening of the first spray head, the first inner opening concentric with the first outer opening, wherein the first liquid spray composition includes an active ingredient and a polymer, and wherein the first liquid diluent includes a solvent with a dielectric constant greater than ten to at least partially dissolve the polymer;providing a second liquid diluent to a second outer opening of a second spray head and a second liquid spray composition to second inner opening of the second spray head, the second inner opening concentric with the second outer opening;charging the surface with an ionizer;applying a potential difference in a range of between about 2.5 kilovolts to about 6 kilovolts between the surface and the first spray head;spraying the first liquid diluent and the first liquid spray composition simultaneously from the first spray head onto the surface in a first pass relative to the surface to provide positively charged particles to the surface, wherein a flow rate of the first liquid diluent is less than five times the flow rate of the first liquid spray composition; andspraying the second liquid diluent and the second liquid spray composition from the second spray head onto the surface in a second pass relative to the surface to increase a depth of bound coating and provide negatively charged particles on the positively charged particles, the second pass occurring at a time after the first pass has completed, wherein a flow rate of the second liquid diluent is less than five times the flow rate of the second liquid spray composition. 2. The method of claim 1, further comprising including conductive elements embedded in the polymer of the first liquid spray composition, wherein the conductive elements comprise carbon black. 3. A method of electrospraying nanoparticles on to a non-conductive surface, the method comprising: providing a first liquid diluent to a first outer opening of a first spray head and a first liquid spray composition to a first inner opening of the first spray head, the first inner opening concentric with the first outer opening, wherein the first liquid spray composition includes an active ingredient and a polymer, and wherein the first liquid diluent includes a solvent with a dielectric constant less than ten;providing a second liquid diluent to a second outer opening of a second spray head and a second liquid spray composition to second inner opening of the second spray head, the second inner opening concentric with the second outer opening;charging the surface with an ionizer;spraying the first liquid diluent and the first liquid spray composition simultaneously from the first spray head onto the surface in a first pass relative to the surface to provide positively charged particles to the surface, wherein a flow rate of the first liquid diluent is greater than five times the flow rate of the first liquid spray composition; andspraying the second liquid diluent and the second liquid spray composition from the second spray head onto the surface in a second pass relative to the surface to increase a depth of bound coating and provide negatively charged particles on the positively charged particles, the second pass occurring at a time after the first pass has completed, wherein a flow rate of the second liquid diluent is greater than five times the flow rate of the second liquid spray composition. 4. The method of claim 3, wherein the positive and negative electrospray streams are provided by separate dual nozzle electrospray devices. 5. The method of claim 4, wherein the electrospray devices are spaced apart and the surface is moved between the sprays. 6. The method of claim 5, wherein the electrospray devices are on opposite sides of the surface, which is rotated between the corresponding positive and negative sprays. 7. The method of claim 6, wherein the electrospray devices are positioned at approximately a 45 degree angle from each other pointing toward the non-conductive surface to be coated. 8. The method of claim 3, further comprising including carbon black embedded in the polymer of the first liquid spray composition. 9. The method of claim 1, wherein spraying the first liquid diluent and the first liquid spray composition from the first spray head onto the surface in a first pass relative to the surface includes spraying the first liquid diluent and the first liquid spray composition through a charged loop electrode to pass the first liquid diluent and first liquid spray composition through a nonuniform electric field. 10. The method of claim 1, further comprising imaging the spray from the first spray head and analyzing the image to determine one or more characteristics of the spray including an angle of incidence between the spray and the surface being sprayed. 11. The method of claim 10, further comprising increasing the potential difference in response to determining the angle of incidence is greater than a specified threshold. 12. The method of claim 1, wherein providing a first liquid diluent to a first outer opening of a first spray head and a first liquid spray composition to a first inner opening of the first spray head includes providing a polymer at least partially dissolved in solvent to an intermediate opening between the outer opening and the inner opening, and wherein spraying the first liquid diluent and the first liquid spray composition simultaneously from the first spray head onto the surface in a first pass relative to the surface to provide positively charged particles to the surface includes spraying the polymer at least partially dissolved in solvent. 13. The method of claim 1, wherein the second liquid diluent and the second liquid spray composition are non-polymer. 14. The method of claim 1, wherein the dielectric constant of the solvent is in a range of between about 10 and 80. 15. The method of claim 1, further comprising spraying a third liquid diluent and third spray composition on the surface to form a closed matrix coating on the surface. 16. The method of claim 1, further comprising spraying a third liquid diluent and third spray composition on the surface to form an intermediate matrix coating on the surface. 17. The method of claim 1, further comprising providing a gas spray alongside the first spray head to help in evaporating the solvent after the solvent has left the first spray head. 18. The method of claim 3, wherein spraying the first liquid diluent and the first liquid spray composition from the first spray head onto the surface in a first pass relative to the surface includes spraying the first liquid diluent and the first liquid spray composition through a charged loop electrode to pass the first liquid diluent and first liquid spray composition through a nonuniform electric field. 19. The method of claim 3, further comprising spraying a third liquid diluent and third spray composition on the surface to form an open matrix coating on the surface. 20. The method of claim 3, further comprising spraying a third liquid diluent and third spray composition on the surface to form an intermediate matrix coating on the surface.
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