2021

11. P. Dias da Silva, M.S. Wong, and K. Zygourakis “JP-8 Desulfurization by CuNa-Y Zeolite at Elevated Temperatures Has Two Distinct Stages: Chemisorption Followed by Surface Reactions” Industrial & Engineering Chemistry Research 60, 40, 14534 – 14546 (2021) DOI: 10.1021/acs.iecr.1c02131 (Abstract)

10. Y. Xu, K.N. Heck, C. Ayala-Orozco, J.H. Arredondo, W. Zenor, M. Shammai, and M.S. Wong “Heavy oil viscosity reduction at mild temperatures using palladium acetylacetonate” Fuel 294, 120546 (2021) DOI: 10.1016/j.fuel.2021.120546 (Abstract)

2020

9. Y. Xu, C. Ayala-Orozco, P. Chiang, M. Shammai, and M.S. Wong “Understanding the role of iron (III) tosylate on heavy oil viscosity reduction” Fuel 274, 117808 (2020) DOI: 10.1016/j.fuel.2020.117808 (Abstract)

2019

8. P. Dias da Silva, S.K. Samaniego Andrade, K. Zygourakis, and M.S. Wong, “Adsorptive Desulfurization of Liquid Fuels at Elevated Temperatures Using Metal Exchanged Zeolite Y” Ind. Eng. Chem. Res. 58, 19623-19632 (2019) DOI: 10.1021/acs.iecr.9b03203 (Abstract)

2018

7. Y. Xu, C. Ayala-Orozco, and M.S. Wong, “Heavy Oil Viscosity Reduction Using Iron III para-Toluenesulfonate Hexahydrate” Society of Petroleum Engineers SPE Western Regional Meeting, 22-26 April, Garden Grove, California, USA (2018) DOI:10.2118/190020-MS (Abstract)

2014

6. H. Shamsi-Jazeyi, C.A. Miller, M.S. Wong, J.M. Tour, and R. Verduzco, “Polymer-Coated Nanoparticles for Enhanced Oil Recovery” Journal of Applied Polymer Science, (2014)DOI:10.1002/app.40576 (Abstract)

5. C. Hwang, G. Ruan, L. Wang, H. Zheng, E.L.G. Samuel, C. Xiang, W. Lu, W. Kasper, K. Huang, Z. Peng, Z. Schaefer, A.T. Kan, A A. Mart , M.S. Wong, M.B. Tomson, and J.M. Tour, “Carbon-Based Nanoreporters Designed for Subsurface Hydrogen Sulfide Detection” Applied Materials & Interfaces, (2014) DOI:10.1021/am5009584 (Abstract)

2012

4. C.C. Hwang, L. Wang, W. Lu, G.D. Ruan, G.C. Kini, C.S. Xiang, E.L.G. Samuel, W. Shi, A.T. Kan, M.S. Wong, M.B. Tomson, and J.M. Tour, “Highly stable carbon nanoparticles designed for downhole hydrocarbon detection,” Energy Environ. Sci., 5, 8304-8309 (2012) DOI:10.1039/C2EE21574H (Abstract)

2011

3. J.M. Berlin, J. Yu, W. Lu, E.E. Walsh, L.L. Zhang, P. Zhang, Wei. Chen, A.T. Kan, M.S. Wong, M.B. Tomson, and J.M. Tour, “Engineered nanoparticles for hydrocarbon detection in oil-field rocks,” Energy Environ. Sci., 4 (2), 505-509 (2011) DOI:10.1039/C0EE00237B (Abstract)

2010

2. H.G. Bagaria, G.C. Kini, and M.S. Wong, “Electrolyte Solutions Improve Nanoparticle Transfer from Oil to Water,” J. Phys. Chem. C, 114 (47), 19901-19907 (2010) DOI:10.1021/jp106140j (Abstract) (AIChE-STS Best Applied Paper Award)

1. J. Yu, J.M. Berlin, W. Lu, L. Zhang, A.T. Kan, P. Zhang, E.E. Walsh, S.N. Work, W. Chen, J.M. Tour, M.S. Wong, and M.B. Tomson, “Transport study of nanoparticles for oilfield application,” SPE 131158, 2010 SPE International Conference on Oilfield Scale, Aberdeen, UK, May 26-27, DOI:10.2118/131158-MS (Abstract)