Refereed Publications

  1. Mahamuni, G.; He, J.; Rutherford, J.; Ockerman, B.; Seto, E.; Korshin, G. V.; Novosselov, I. V., Solid Phase Excitation-Emission Matrix Spectroscopy for In-Situ Chemical Analysis of Combustion Aerosols. 2020.
  2. Pinkard, B. R.; Purohit, A. L.; Moore, S. J.; Kramlich, J. C.; Reinhall, P. G.; Novosselov, I. V., Partial Oxidation of Ethanol in Supercritical Water. Industrial & Engineering Chemistry Research 2020.
  3. Pinkard, B.; Shetty, S.; Kramlich, J.; Reinhall, P. G.; Novosselov, I. V., Hydrolysis of Dimethyl Methylphosphonate (DMMP) in Hot-Compressed Water. 2020.
  4. Rasmussen, E. G.; Kramlich, J.; Novosselov, I. V., Scalable Continuous Flow Metal-Organic Framework (MOF) Synthesis Using Supercritical CO2. ACS Sustainable Chemistry & Engineering 2020.
  5. Vaddi, R. S.; Guan, Y.; Novosselov, I., Behavior of ultrafine particles in electro-hydrodynamic flow induced by corona discharge. Journal of Aerosol Science 2020, 105587.
  6. West, C. P.; Hettiyadura, A. P. S.; Darmody, A.; Mahamuni, G.; Davis, J.; Novosselov, I. V.; Laskin, A., Molecular Composition and Optical Properties of Brown Carbon Generated by the Ethane Flame. ACS Earth and Space Chemistry 2020.
  7. Fillingham, Patrick, and Igor V. Novosselov. Wall jet similarity of impinging planar underexpanded jets. International Journal of Heat and Fluid Flow  2020 [doi]
  8. Pinkard, B., Kramlich, J., & Novosselov, I. V. (2019). Gasification Pathways and Reaction Mechanisms of Primary Alcohols in Supercritical Water 2019 [preprint]
  9. Davis, Justin, Eric Molnar, and Igor Novosselov. Nanostructure transition of young soot aggregates to mature soot aggregates in diluted diffusion flames. Carbon 2019 [doi]
  10. Pinkard B.R., Rasmussen E., Kramlich J.C., Reinhall P.G., Novosselov I.V., Supercritical Water Gasification of Ethanol for Fuel Gas Production, ASME 2019 13th International Conference on Energy Sustainability [preprint]
  11. Vaddi R., Mahamuni G., Novosselov I.V.,Development of an EHD induced wind driven personal exposure monitor and in-situ analysis for characterization of exposure International Symposium on Electrohydrodynamics – St. Petersburg, Russia  2019 [Preprint]
  12. Guan Y.,  Novosselov I.V., Effect of Couette Flow on Electroconvective Vortices, International Symposium on Electrohydrodynamics – St. Petersburg, Russia  2019 arXiv preprint arXiv:1812.10899 [Preprint]
  13. Guan Y.,  Novosselov I.V.,Two Relaxation Time Lattice Boltzmann Method Coupled to Fast Fourier Transform Poisson Solver: Application to Electroconvective Flow, Journal of Computational Physics 2019.07.029  2019[doi]
  14. Vaddi R., Guan Y., Aliseda A., Novosselov I.V.,Comparison of Analytical and Numerical Models for Point to Ring Electro-Hydrodynamic Flow International Symposium on Electrohydrodynamics – St. Petersburg, Russia  2019 arXiv preprint arXiv: 1907.12540 [preprint]
  15. Vaddi R., Guan Y., Chen Z.Y., Mamishev A., Novosselov I.V.,Experimental and Numerical Investigation of Corona Discharge Induced Flow on a Flat Plate  International Symposium on Electrohydrodynamics – St. Petersburg, Russia  2019 arXiv preprint arXiv:1906.10220 [preprint]
  16. Dedic E., Chukewad Y.M., Vaddi R., Novosselov I.V., Fuller S.B., A laser-microfabricated electrohydrodynamic thruster for centimeter-scale aerial robots  arXiv preprint arXiv:1906.10210 2019 [preprint]
  17. Zhang J., Dichiara A.B., Novosseov I.V., Gao D., Chung J.H., Polyacrylic acid coated carbon nanotube–paper composites for humidity and moisture sensing, J. Mater. Chem. C, 2019,7, 5374-5380  [doi]
  18. Peterson R.C., Hallar, A.G., McCubbin I.B., Ogren J.A., Andrews E., Lowenthal D., Gorder R., Purcell R., Sleeth D., Novosselov I.V., Numerical, Wind-Tunnel, and Atmospheric Evalauation of a Turbulent Ground-Based Inlet Sampling System ,Aerosol Science and Technology 2019, 53:6, 712-727 [doi]
  19. Vaddi R., Guan Y., Novosselov I.V., Particle Dyanmics in Corona Induced Electro-hydrodynamic Flow arXiv preprint arXiv:1902.02986 2019 [Preprint]
  20. Mahamuni G., Ockerman B., Novosselov I.V., Electrostatic Capillary Collector for In-Situ Spectroscopic Analysis of Aerosols, Aerosol Science and Technology 2019 [doi]
  21. Kottapalli K., Novosselov I.V., Experimental Study of Aerodynamic Resuspension of RDX Residue, Aerosol Science and Technology 2019 [doi]
  22. Pinkard B.R., Gorman D.J., Rasmussen E., Kramlich J.C., Reinhall P.G., Novosselov I.V., Kinetics of Formic Acid Decomposition in Subcritical and Supercritical Water - A Raman Spectroscopic Study 2019 [Preprint]
  23. Pinkard B.R., Gorman D.J., Tiwari K., Rasmussen E., Kramlich J.C., Reinhall P.G., Novosselov I.V., Supercritical water gasification: practical design strategies and operational challenges for lab-scale, continuous flow reactors, Heliyon 5(2) February 2019 [doi]
  24.  Davis J., Tiwari K., Novosselov I.V., Soot morphology and nanostructure in complex flame flow patterns via secondary particle surface growth. Fuel 2019 245:447-457 [doi]
  25. Fillingham P., Kottapalli K., Zhan X., Novosselov I.V., Characterization of adhesion force in aerodynamic particle resuspension. Journal of Aerosol Science 2019, 128, 89-98. [doi]
  26. Guan Y., Novosselov I.V., Numerical Analysis of Electroconvection Phenomena in Cross-flow 2019 [Preprint]
  27. Guan Y., Vaddi R., Aliseda A., Novosselov I.V., Analytical Model of Electro-hydrodynamic flow in corona discharge. Physics of Plasmas 25, 083507 (2018) [doi]
  28. Duncan G.E., Seto E., Avery A.R., Oie M., Carvlin G., Austin E., Shirai J.H., He J., Byron Ockerman B., Novosselov I.V., Using the design-feedback iterative cycle to improve the usability of a personal air pollution monitor, JMIR  NHealth and UHealth 6 (12) 2018, e12023 [Preprint]
  29. Guan Y., Novosselov I.V., Two Relaxation Time Lattice Boltzmann Method Coupled to Fast Fourier Transform Poisson Solver: Application to Electroconvective Flow. arXiv preprint arXiv:1812.05711. 2018 Dec 11. [doi]
  30. Gupta S., Malte P., Brunton S., Novosselov I.V., Prevention of Lean Flame Blowout Using a Predictive Chemical Reactor Network Control, Fuel, Accepted, September 7th, 2018 [Preprint]
  31. DePappe P., Novosselov I.V., Chemical Reactor Network for Real-Time Analysis of Combustor Performance, Journal of Combustion, vol. 2018, Article ID 8704792, 12 pages, 2018[Preprint]
  32. Kaluri A., Malte P.C., Novosselov I.V.; Real-Time Prediction of Lean Blowout Using Chemical Reactor Network, Fuel, v 234,  December 2018, pp 797-808, 2018 [doi]
  33. Kahng S.J.Cerwyn C.Dincau B.M.Kim J.H., Novosselov I.V.Anantram M.P. and Chung J.H., Nanoink Bridge-induced Capillary Pen Printing for Chemical Sensors, Nanotechnology, IOP Science, 2018 [doi]
  34. He J., Beck N.K., Kossik A.L., Zhang J., Seto E., Meshke J.S., Novosselov I.V., Evaluation of micro-well collector for capture and analysis of aerosolized Bacillus subtilis spores, 2018, PLoS ONE 13(5):e0197783 [doi]
  35. Guan Y., Vaddi R.S., Aliseda A., Novosselov I.V., Experimental and Numerical Investigation of Electrohydrodynamic Flow in a Point-to-Ring Corona Discharge, Physical Review Fluids, 2018. 3(4): p. 043701. [doi]
  36. Pinkard B.R., Gorman D.J., Tiwari K., Davis J., Rasmussen E., Kramlich J.C., Reinhall P.G., Novosselov I.V., In-Situ Raman Spectroscopy to study Supercritical Water Gasification of Formic Acid,12th International Symposium on Supercritical Fluids, Antibes, France. [link]
  37. Tiwari K., Pinkard B.R., Gorman D.J., Davis J., Kramlich J.C., Reinhall P.G., Novosselov I.V., Computational Modelling of Mixing and Gasification in Continuous-Flow Supercritical Water Reactor, 12th International Symposium on Supercritical Fluids, Antibes, France.[link]
  38. Pinkard B.R., Gorman D.J., Tiwari K., Kramlich J.C., Reinhall P.G., Novosselov I.V., Review of Gasification of Organic Compounds in Continuous-Flow Supercritical Water Reactors, Industrial & Engineering Chemistry Research (2018)57(10):3471-81. [doi]
  39. Guan Y., Novosselov I.V., Damkoher Number Analysis in lean Blow-out of Torroidal Jet-Stirred Reactor, J. Eng. Gas Turbines Power. 2018 [doi]
  40. Purohit A., Nalbandyan A., Chime A.H., Malte P., Novosselov I.V., Role of NNH in Low-NOx Hydrogen Combustion, WSS/CI Spring Meeting (2018) [link]
  41. Njalsson T.1, Novosselov IV, Design and Optimization of a Compact Low-Cost Optical Particle Sizer, Journal of Aerosol Science (2018) 119:1-12 [doi]
  42. C. Fagnant; M. Toles; N. A. Zhou; J. Powell; J. Adolphsen; Y. Guan; B. Ockerman; J. H. Shirai; D. S. Boyke; I. V. Novosselov; J. S. Meschke, "Development of an evolution device for ViroCap virus filters", Environ Monit Assess (2017) 189:574 [doi]
  43. P. Fillingham, H. Murali, I. V. Novosselov, Nondimensional Parameter for Characterization of Wall Shear Stress From Underexpanded Axisymmetric Impinging Jets. ASME. J. Fluids Eng. 2017;139(11) [doi]
  44. J. He and I. V. Novosselov, Design and Evaluation of an Aerodynamic Focusing Micro-Well Aerosol Collector, Aerosol Science and Technology, V51, Issue 9, pp 1061 1026, 2017 [doi]
  45. C. Fagnant, L. M. Sánchez, N. A. Zhou, J. C. Falman, M. Eisenstein, D. Guelig, B. Ockerman, Y. Guan, A. L. Kossik, Y. S. Linden, N. K. Beck, R. Wilmouth, E. Komen, B. Mwangi, J. Nyangao, J. H. Shirai, I. V. Novosselov, P. Borus, D. S. Boyle, J. S. Meschke, Improvement of the bag-mediated filtration system for sampling wastewater and wastewater-impacted waters. Food and Environmental Virology,  published online: 2017 Jul 03 [doi]
  46. Boyd Fackler, Megan Karalus, Igor Novosselov, John Kramlich, and Philip Malte. NOx Behavior for Lean-Premixed Combustion of Alternative Gaseous Fuels, Journal of Engineering for Gas Turbines and Power 138(4), 2016 [doi]
  47. E Austin, I Novosselov, M Yost, E Seto, – Laboratory evaluation of the Shinyei PPD42NS low-cost particulate matter sensor, PlosOne, PONE-D-15-19785R1, 2015 [doi]
  48. S Vijlee1, J. Kramlich, Novosselov, Effects of Composition on the Flame Stabilization of Alternative Aviation Fuels in a Toroidal Well Stirred Reactor, Proceeding of Turbo Expo 2015, GT2015-43014 [doi]
  49. Edmund Seto, Elena Austin, Igor Novosselov, Michael Yost, Use of low-cost particle monitors to calibrate traffic-related air pollutant models in urban areas, Proceedings of 7th International Congress on Environmental Modelling and Software, San Diego, California, USA, D.P. Ames, N. Quinn (Eds.), 2014. [doi]
  50. Novosselov I, Gorder R1; Van Amberg1, J; Ariessohn, Peter; Design and Performance of a Low-cost Micro-channel Aerosol Collector, Aerosol Science and Technology, Vol. 48,Iss. 8, pp. 822-830, 2014 [doi]
  51. Chakrabarty, I. Novosselov, N. Beres, H. Moosmuller, C M Sorenson, and C. Stipe. Gravity-induced Trapping and Aerogelation of Nanoparticles in Hydrocarbon Flames", Applied Physics Letters104, 243103, 2014 [doi]
  52. Igor V. Novosselov, Peter C. Ariessohn, Rectangular Slit Atmospheric Pressure Aerodynamic Lens Aerosol Concentrator, Aerosol Science and Technology, Vol. 48, Iss. 2, 2014 [doi]
  53. Karalus1, K. B. Fackler1, I. V. Novosselov, J. C. Kramlich, P. C. Malte, A Skeletal Mechanism for the Reactive Flow Simulation of Methane Combustion, GT2013-95904, Proc. of ASME Turbo Expo June 3-7, 2013, San Antonio, TX, USA [doi]
  54. Ryan Keedy1, Evan Dengler1, Peter Ariessohn, Igor Novosselov, Alberto Aliseda, Removal Rates of Explosive Particles from Surfaces by Impingement of a Gas Jet, Aerosol Science and Technology, v 46, n 2, p 148-155, 2012 [doi]
  55. Megan F. Karalus1, K. Boyd Fackler1, Igor V. Novosselov, John C. Kramlich, and Philip C. Malte, Characterizing the Mechanism of Lean Blowout for a Recirculation-Stabilized Premixed Hydrogen Flame, GT2012-68060 Proceedings of ASME Turbo Expo, June 11-15, 2012, Copenhagen, Denmark [doi]
  56. Boyd Fackler1, Megan F. Karalus1, Igor V. Novosselov, John C. Kramlich, and Philip C. Malte, Experimental and Numerical Study of NOX Formation from the Lean Premixed Combustion of CH4 Mixed with CO2 and N2, Journal of Engineering for Gas Turbines and Power, v 133, n 12, 2011 [doi]
  57. Peter C. Ariessohn, Igor V. Novosselov, J. Scott Meschke, A New High-Performance Aerosol Concentrator, Defense Threat Reduction Agency Chem-Bio DefenseConference, Fort Leonard Wood, MO, 24-26 June, 2008 [ request full text]
  58. Novosselov IV, Malte PC, Development and Application of an 8-Step Global Mechanism for CFD and CRN Simulations of Lean-Premixed Combustors, Journal of Engineering for Gas Turbines and Power, v130, n 2, March 2008 [doi]
  59. Malte, R. Edmonds, A.C., Lee, I. Novosselov, B. Polagye, and K.B. Fackler, “NOx from Gaseous and Prevaporized Fuels Burned Lean-Premixed at Atmospheric Pressure in Single-Jet Stirred Reactors,” Paper E-38, Proceedings of US Combustion Meeting, San Diego, CA, March 26-28, 2007 [request full text]
  60. V. Novosselov, P.C. Malte, R. Srinivasan, S. X. Yuan, J.C.Y. Lee, "Chemical Reactor Network Applications to Emission prediction for Industrial DLE Gas Turbine" GT2006-90282, Proceedings of ASME Turbo Expo 2006 Power for Land, Sea, and Air, May 8-11, Barcelona, Spain, 2006 [doi]
  61. S. Campbell, Jr., S. de Bruyn Kops, I. Novosselov, J.C.Y. Lee, M.A. Benjamin, P.C. Malte, "Integrating the Staged Prevaporizer-Premixer into Gas Turbine Cycles," ASME Paper No. GT-2002-30081, 47th International Gas Turbine and Aeroengine Congress, Amsterdam, the Netherlands, 2002 [doi]