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  4. Javanbakht, G., Sedghi, M., Welch, W. R. W., Goual, L., Hoepfner, M. P., Molecular polydispersity improves prediction of asphaltene aggregationJ. of Molecular Liquids, Vol. 256, 2018, pp. 382-394,
  5. Chaisoontornyotin, W., Bingham, A. W., Hoepfner, M. P.Reversibility of Asphaltene Precipitation Using Temperature-Induced AggregationEnergy and Fuels, Vol. 31(4), 2017, pp. 3392-3398,
  6. Favero, C. V. B., Maqbool, T., Hoepfner, M. P., Haji-Akbari, N., Fogler, H. S., Revisiting the Flocculation Kinetics of Destabilized Asphaltenes, Advances in Colloid and Interface Science, Vol. 244, 2017, pp. 267-280.
  7. Chaisoontornyotin, W., Haji-Akbari, N., Srikiratiwong, P., Fogler, H. S., Hoepfner, M. P., A Combined Asphaltene Aggregation and Deposition Investigation, Energy and Fuels, Vol. 30(3), 2016, pp. 1979-1986,
  8. Elkasabi, Y., Ross, A. M., Oh, J., Hoepfner, M. P., Fogler, H. S., Lahann, J., Krebsbach, P. H., Design Strategies for Reduced-Scale Surface Composition Gradients via Chemical Vapor Deposition Copolymerization. Chemical Vapor Deposition, Vol. 20, 2014, pp. 23-31.
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  11. Haji-Akbari, N., Masirisuk, P., Hoepfner, M. P., Fogler, H. S., A Unified Model for Aggregation of Asphaltenes, Energy and Fuels, Vol. 27(5), 2013, pp. 2497-2505.
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  13. Maqbool, T., Raha, S., Hoepfner, M. P., Fogler, H.S., Modeling the Aggregation of Asphaltenes in Crude Oil-Precipitant SystemsEnergy and Fuels, Vol. 25(4), 2011, pp. 1585-1596.
  14. Hoepfner, M. P., Roper, D. K., Describing Temperature Increases in Plasmon-Resonant Nanoparticle Systems. J Therm Anal. Calorim. Vol. 98(1), 2009, pp. 197-202.
  15. Roper, D. K.; Ahn, W.; Hoepfner, M. P., Microscale Heat Transfer Transduced by Surface Plasmon Resonant Gold NanoparticlesJ. Phys. Chem. C., Vol. 111(9), 2007, pp. 3636-3641.