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Nie, X., H. Wang, W. Li, Y. Chen, X. Guo, and C. Song, (March 2018). DFT insight into the support effect on the adsorption and activation of key species over Co catalysts for CO2 methanation, Journal of CO2 Utilization, Volume 24, Pages 99-111, ISSN 2212-9820, https://doi.org/10.1016/j.jcou.2017.12.005.
Wang, Meng, K. Payne, S.Tong, and S. Ergas, (2018). Hybrid algal photosynthesis and ion exchange (HAPIX) process for high ammonium strength wastewater treatment. Water Research. 142: 65-74.
Yu, H., X. Wang, Z. Shu, M. Fujii, and C. Song, (March 2018). Al2O3 and CeO2-promoted MgO sorbents for CO2 capture at moderate temperatures, Frontiers of Chemical Science and Engineering, Volume 12, Issue 1, pp 83–93.
Wang, C.-Y. L. Wang, A. Belnick, H. Wang, J. Li, and A. D. Lueking, (June 29, 2017). Oxygen-Selective Adsorption in RPM3-Zn Metal Organic Framework, Chemical Engineering Science, Volume 165, Pages 122-130, ISSN 0009-2509.
Emami-Meybodi, H., and H. Hassanzadeh, (2015). Two-phase convective mixing under a buoyant plume of CO2 in deep saline aquifers, Advances in Water Resources, 76, 55–71.
Emami-Meybodi, H., H. Hassanzadeh, and J. Ennis-King, (2015). CO2 dissolution in presence of background flow of saline aquifers, Water Resources Research, 51, 2595–2615.
Emami-Meybodi, H., H. Hassanzadeh, C. P. Green, and J. Ennis-King, (2015). Convective dissolution of CO2 in saline aquifers - Progress in modeling and experiments, International Journal of Greenhouse Gas Control, 40, 238–266.
Eide, J., F. de Sisternes, H. Herzog, and M. D. Webster, (2014). CO2 emissions standards and investment in carbon capture. Energy Economics 45 (2014) 53–65.
Emami-Meybodi, H., H. K. Saripalli, and H. Hassanzadeh, (2014). Formation heating by steam circulation in a horizontal wellbore, International Journal of Heat and Mass Transfer, 78, 886–992.
Kumar, H., D. Elsworth, J. P. Mathews, J. Liu, and D. Pone, (November 1, 2014). Effect of CO2 injection on heterogeneously permeable coalbed reservoirs, Fuel, Volume 135, Pages 509-521, ISSN 0016-2361.
Wang, Meng, C. Kuo-Dahab, S. Dolan, and C. Park, (2014). Kinetics of nutrient removal and expression of extracellular polymeric substance by microalgae Chlorella sp. and Micractinium sp. in wastewater treatment. Bioresource Technology.154: 131-137.
Emami-Meybodi, H., and H. Hassanzadeh, (2013). Mixing induced by buoyancy-driven flows in porous media, AIChE Journal, 59, 1378–1389.
Webster, M. D., P. Donohoo, and B. Palmintier, (2013). Water-CO2 Tradeoffs in Electricity Generation Planning. Nature Climate Change 3 (27 October 2013): 1029-1032.
Wang X. X., X. L. Ma, V. Schwartz, J. C. Clark, S. Overbury, S. Zhao, X. C. Xu, and C. S. Song, (2012). Solid Molecular Basket Sorbent for CO2 Capture from Gas Streams with Low CO2 Concentration at Ambient Conditions. Physical Chemistry Chemical Physics, 14, 1485-1492.
Wang, D. X., C. Shalaby, X. L. Ma, and C. S. Song, (2012). Development of Carbon-based “Molecular Basket” Sorbent for CO2 Capture. Industrial and Engineering Chemistry Research, 51 (7), 3048–3057.
Zhang, Z. H., X. L. Ma, D. X. Wang, C. S. Song, and Y. G. Wang, (2012). Development of Silica-Gel-Supported Polyethylenimine Sorbents for CO2 Capture from Flue Gas. AIChE Journal, 58 (8), 2495-2502.
Indrakanti, P., J. D. Kubicki, and H. H. Schobert, (2011). Photinduced Activation of CO2 on TiO2 Surfaces: Quantum Chemical Modeling f CO2 Adsorption on Oxygen Vacancies. Fuel Processing Technology, Vo., 92, DE-j.fuproc.2010.09.007, pp. 805-811.
Indrakanti, V. P., J. D. Kubicki, and H. H. Schobert, (2011). Photoinduced activation of CO2 on TiO2 surfaces: Quantum chemical modeling of CO2 adsorption on oxygen vacancies. Fuel Processing Technology, vol. 92, pp. 805-811.


Wang, D., C. Sentorun-Shalaby, X. Ma, and C. S. Song, (2011). High-capacity and Low-cost Carbon-based “Molecular Basket” Sorbent for CO2 Capture from Flue Gas. Energy & Fuels, Vo., 25, DE-ef101364c, pp. 456-458.
Lu, Z., M. M. Maroto-Valer, and H. H. Schobert, (2010). Catalytic Effects of Inorganic Compounds on the Development of Surface Areas of Fly Ash Carbon during Steam Activation. Fuel, Vo., 89, DE-j.fuel.2010.05.024, pp. 3436-3441.
Indrakanti, P., H. H. Schobert, and J. D. Kubicki, (2009). Quantum Mechanical Modeling of CO2 Interactions with Irradiated Stoichiometric and Oxygen-Deficient Anatase TiO2 Surfaces: Implications for the Photocatalytic Reduction of CO2. Energy & Fuels, Vo., 23, DE-ef9003657, pp. 5247-5256.
Indrakanti, P., J. D. Kubicki, and H. H. Schobert, (2009). Photoinduced Activation of CO2 on Ti-based Heterogeneous Catalysts: Current State, Chemical Physics-based Insights and Outlook. Energy & Environmental Science, Vo., 2, DE-b822176f, pp. 745-758.
Indrakanti, V. P., J. D. Kubicki, and H. H. Schobert, (2009). Photoinduced activation of CO2 on Ti-based heterogeneous catalysts: current state, chemical physics based insights, and activation. Energy and Environmental Science, vol. 2, pp. 745-758.
Indraknati, V. P., J. D. Kubicki, and H. H. Schobert, (2009). Quantum mechanical modeling of CO2 interactions with irradiated stoichiometric and oxygen-deficient TiO2 surfaces: implications for the photocatalytic reduction of CO2. Energy and Fuels vol. 23, pp. 5247-5256.
Ma, X. L., X. X. Wang, and C. S. Song, (2009). “Molecular Basket” Sorbents for Separation of CO2 and H2S from Various Gas Streams. Journal of American Chemical Society, 131 (16), 5777–5783.
Tambach, T. J., J. P. Mathews, and F. van Bergen, (2009). Molecular exchange of CH4 and CO2 in coal: Enhanced coalbed methane on a nanoscale. Energy & Fuels, 23, 4845-4847.
Wang, X. X., V. Schwartz, J. C. Clark, X. L. Ma, S. Overbury, X. C. Xu, and C. S. Song, (2009). Infrared Study of CO2 Sorption over “Molecular Basket” Sorbent Consisting of Polyethylenimine-Modified Mesoporous Molecular Sieve. Journal of Physical Chemistry C, 113 (17), 7260–7268.
Indrakanti, P., J. D. Kubicki, and H. H. Schobert, (2008). Quantum Chemical Modeling of Ground States of CO2 Chemisorbed on Anatase (001), (101), and (010) TiO2 Surfaces. Energy & Fuels, Vo., 22, DE-ef700725u.
Indraknati, V. P., J. D. Kubicki, and H. H. Schobert, (2008). Quantum chemical modeling of ground states of CO chemisorbed on anatase (001), (101), and (010) TiO2 surfaces. Energy and Fuels, vol. 22, pp. 2611-2618.


Lu, Z., M. M. Maroto-Valer, and H. H. Schobert, (2008). Role of Active Sites in the Steam Activation of High Unburned Carbon Fly Ashes. Fuel, Vo., 87, DE-j.fuel.2008.01.016, pp. 2598-2605.
Maroto-Valer, M. M., Z. Lu, Yi. Zhang, and Z. Teng, (2008). Sorbents for CO2 Capture from High Carbon Fly Ashes. Waste Management, Vo., 28, DE-j.wasman.2007.10.012, pp.2320-2328.
Song, C., X. Wang, X. Ma, X. Xu, B. G. Miller, and A. W. Scaroni, (September 10-14, 2007). “Nano-Porous CO2 Molecular-Basket Sorbent for CO2 Capture from Flue Gas: Influence of Moisture on CO2 Separation by a Polyethylenimine-Modified Molecular Sieve MCM-41,” Proceedings of the 24th Annual International Pittsburgh Coal Conference, Paper No. 46-4, Sandton Convention Centre, Johannesburg, South Africa.
Goodman, A. L., R. N. Favors, and J. W. Larsen, (2006). Argonne coal structure rearrangement caused by sorption of CO2. Energy & Fuels, 20, (6), 2537-43.
Hile, M. L., (2006). CO2 sorption by Pittsburgh-seam coal subjected to confining pressure [M.S.]. University Park: Pennsylvania State University.
Romanov, V. N., A. L. Goodman, and J. W. Larsen, (2006). Errors in CO2 adsorption measurements caused by coal swelling. Energy & Fuels, 20, (1), 415-6.
Song, C. S., (2006). "Global Challenges and Strategies for Control, Conversion and Utilization of CO2 for Sustainable Development Involving Energy, Catalysis, Adsorption and Chemical Processing." Catalysis Today, 115, 2-32.
Goodman, A. L., R. N. Favors, M. M. Hill, and J. W. Larsen, (2005). Structure changes in Pittsburgh no.8 coal caused by sorption of CO2 gas. Energy & Fuels, 19, (4), 1759-60.
Xu, X., C. Song, B. G. Miller, and A. W. Scaroni, (2005). “Influence of Moisture on CO2 Separation from Gas Mixture by a Nanoporous Adsorbent Based on Polytheylenimine-Modified Molecular Sieve MCM-41,” Industrial and Engineering Chemistry Research, Vo., 44, pp. 8113-8119.
Larsen, J. W., (2004). The effects of dissolved CO2 on coal structure and properties. International Journal of Coal Geology, 57, (1), 63-70.
Song, C., X. Xu, J. M. Andrésen, B. G. Miller, and A. W. Scaroni, (2004). “Novel Nanoporous “Molecular Basket” Adsorbent for CO2 Capture,” Studies in Surface Science and Catalysis, Vol. 153, pp. 411-416.
Xu, X., C. Song, B. G. Miller, and A. W. Scaroni, (2004). “Adsorption Separation of CO2 from Simulated Flue Gas Mixtures by Novel CO2 ‘Molecular Basket’ Adsorbents, International Journal of Environmental Technology and Management, Vol. 4, Nos. 1/2, pp 32-52.
Karacan, C. O., (2003). Heterogeneous sorption and swelling in a confined and stressed coal during CO2 injection. Energy & Fuels, 17, (6), 1595-608.
Song, C., X. Xu, J. M. Andrésen, B. G. Miller, and A. W. Scaroni, (October 12-16, 2003). “Novel Nanoporous “Molecular Basket” Adsorbent for CO2 Capture,” Seventh International Conference on Carbon Dioxide Utilization, Seoul, South Korea.
Xu, X., C. Song, J. M. Andrésen, B. G. Miller, and A. W. Scaroni, (April 2003). “Preparation and Characterization of Novel CO2 “Molecular Basket” Adsorbents Based on Polymer-Modified Mesoporous Molecular Sieve MCM-41,” Microporous and Mesoporous Materials, Vol. 62, pp. 29-45.
Xu, X., C. Song, R. T. Wincek, J. M. Andrésen, B. G. Miller, and A. W. Scaroni, (March 23-27, 2003). “Separation of CO2 from Real Flue Gas of Power Plant Using a Novel CO2 “Molecular Basket” Adsorbent,” American Chemical Society Division Fuel Chemistry Preprint, Spring National Meeting, New Orleans, Louisiana.
Xu, X., C. Song, J. M. Andrésen, B. G. Miller, and A. W. Scaroni, (September 23-27, 2002). “Adsorption Separation of CO2 from Simulated Flue Gas by Novel Mesoporous “Molecular Basket” Adsorbent,” Nineteenth Annual International Pittsburgh Coal Conference, Coal – Energy and the Environment, Pittsburgh, Pennsylvania.
Xu, X., J. M. Andrésen, C. Song, B. G. Miller, and A. W. Scaroni, (2002). “Novel CO2 “Molecular Basket” Prepared Using Polymer Modified MCM-41,” American Chemical Society Division Fuel Chemistry Preprint, 47 (1).
Xu, X., J. M. Andrésen, C. Song, B. G. Miller, and A. W. Scaroni, (October 2002). “Novel Polyethyleneimine-Modified Mesoporous Molecular Sieve of MCM-41 Type as Adsorbent for CO2 Capture,” Energy & Fuels, Vol. 16, pp 1463-1469
Xu, X, J. M. Andrésen, C. Song, B. G. Miller, and A. W. Scaroni, (December 4-7, 2001). “Novel Adsorbent for CO2 Capture Based on Polymer-Modified Mesoporous Molecular Sieve of MCM-41 Type,” Eighteenth Annual International Pittsburgh Coal Conference, Coal’s International Future: The Technical Challenge, Newcastle City Hall, Newcastle, New South Wales, Australia.