Cakmak, E., A. Annamraju, J. P. Mathews, L. He, N. Gallego, and E. Lara-Curzio, (2023). Characterization of Porosity and Pore Accessibility of Vitrinite-Rich Bituminous and Subbituminous Coals by Small-Angle Neutron Scattering, Mercury Intrusion Porosimetry, and Low-Pressure N2 Adsorption, Energy Fuels, v. 37 (1), pp. 191–203.
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Cakmak, E., J. C. Hower, J. P. Mathews, M. C. Weisenberger, R. Kaplan, J. Lacy, Y. Zhang, and E. Lara-Curzio, (2023). Microstructural diversity and digestion yields of select bituminous and subbituminous coals as raw material candidates for carbon fiber precursor production, Fuel, v. 348, doi:10.1016/j.fuel.2023.128545.
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Du, Y., D. Che, and J. P. Mathews, (2022). The influence of char particle morphology on char burnout behavior by atomistic simulation, Fuel, v. 314, pp. 123129.
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Yuan, L., Q. Liu, K. Li, Y. Quan, X. Li, and J. P. Mathews, (2022). The evolution of coal, examining the transitions from anthracite to natural graphite: a spectroscopy and optical microscopy evaluation, Frontiers of Earth Science, https://doi.org/10.1007/s11707-021-0967-4.
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Chen, S., D. Tang, S. Tao, P. Liu, and J. P. Mathews, (2021). Implications of the in situ stress distribution for coalbed methane zonation and hydraulic fracturing in multiple seams, western Guizhou, China, Journal of Petroleum Science and Engineering, v. 204, [108755], https://doi.org/10.1016/j.petrol.2021.108755.
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Li, W., Y. Song, W. Yang, and J. P. Mathews, (2021). Structural transformations for a subbituminous coal, impact of temperature on gold-tube pyrolysis chars evaluated using HRTEM, Fuel, v. 311, pp. 122581.
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Wang, X., Y. Zhu, S. Chen, X. Dai, Q. Xu, Y. Song, and J. P. Mathews, (2021). Molecular Structure Evaluation and Image-Guided Atomistic Representation of Marine Kerogen from Longmaxi Shale, Energy Fuels, 35, 9, pp 7981–7992.
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Yuan, L., Q. Liu, J. P. Mathews, H. Zhang, and Y. Wu, (2021). Quantifying the Structural Transitions of Chinese Coal to Coal-Derived Natural Graphite by XRD, Raman Spectroscopy, and HRTEM Image Analyses, Energy Fuels, v. 35 (3), pp. 2335–2346.
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Zhang, Y., S. Hu, Q. Zhong, J. Zhuo, and J. P. Mathews, (2021). A large-scale molecular model of Fenghuangshan anthracite coal, Fuel, v. 295, [120616], https://doi.org/10.1016/j.fuel.2021.120616.
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Chang, Q., R. Gao, M. Gao, G. Yu, J. P. Mathews, and F. Wang, (2020). Experimental analysis of the evolution of soot structure during CO2 gasification, Fuel, v. 265, [116699], https://doi.org/10.1016/j.fuel.2019.116699.
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Liu, Y., H. Xu, D. Tang, F. Xu, J. P. Mathews, W. Hou, X. Yan, and F. Ding, (2020). Coalbed methane production of a heterogeneous reservoir in the Ordos Basin, China, Journal of Natural Gas Science and Engineering, v. 82, [103502], https://doi.org/10.1016/j.jngse.2020.103502.
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Song, Y., B. Jiang, M. Li, C. Hou, and J. P. Mathews, (2020). Macromolecular transformations for tectonically-deformed high volatile bituminous via HRTEM and XRD analyses, Fuel, v. 263, [116756], https://doi.org/10.1016/j.fuel.2019.116756.
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Wang, X., Y. Zhu, Y. Song, and J. P. Mathews, (2020). Structure and partial ordering of terrestrial kerogen: Insight from high-resolution transmission electron microscopy, Fuel, v. 281, [118759], https://doi.org/10.1016/j.fuel.2020.118759.
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Chang, Q., W. Zhu, J. K. Watson, F. Wang, and J. P. Mathews, (2019). An Image-guided Rapid Soot, Structure Construction Strategy, Carbon 2019.
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Du, Y., C. Wang, H. Xin, and J. P. Mathews, (2019). Competitive or additive behavior for H2O and CO2 gasification of coal char? Exploration via simplistic atomistic simulation, Carbon.
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Du, Y., C. Wang, H. Xin, D. Che, and J. P. Mathews, (2019). Atomistic Simulation of Coal Char Oxy-Fuel Combustion: Quantifying the Influences of CO2 to Char Reactivity, Energy & Fuels, v. 33 (10), pp. 10228–10236, doi.org/10.1021/acs.energyfuels.9b02027.
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Zhang, Y., X. Zhang, Q. Zhong, S. Hu, and J. P. Mathews, (2019). Structural Differences of Spontaneous Combustion Prone Inertinite-Rich Chinese Lignite Coals: Insights from XRD, Solid-State 13C NMR, LDIMS, and HRTEM, Energy & Fuels, v. 33 (5), pp. 4575–4584, doi.org/10.1021/acs.energyfuels.9b00123.
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Zhong, Q., Q. Mao, J. Xiao, A. van Duin, and J. P. Mathews, (2018). ReaxFF simulations of petroleum coke sulfur removal mechanisms during pyrolysis and combustion, Combustion and Flame, v. 198, pp. 146-157.
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Zhong, Q., Q. Mao, J. Xiao, A. van Duin, and J. P. Mathews, (2018). Sulfur removal from petroleum coke during high-temperature pyrolysis. Analysis from TG-MS data and ReaxFF simulations, Journal of Analytical and Applied Pyrolysis, v. 132, pp. 134-142, ISSN 0165-2370, https://doi.org/10.1016/j.jaap.2018.03.007.
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Zhong, Q., Q. Mao, L. Zhang, J. Xiang, J. Xiao, and J. P. Mathews, (2018). Structural features of Qingdao petroleum coke from HRTEM lattice fringes: Distributions of length, orientation, stacking, curvature, and a large-scale image-guided 3D atomistic representation, Carbon, v. 129, pp. 790-802, ISSN 0008-6223, https://doi.org/10.1016/j.carbon.2017.12.106.
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Abrahamson, J. P., M. Singh, J. P. Mathews, and R. L. Vander Wal, (2017). Pulsed laser annealing of carbon black. Carbon, v. 124, November 2017, pp. 380-390.
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Coetzee, G. H., R. Sakurovs, H. W. J. P. Neomagus, R. Everson, J. P. Mathews, and J. R. Bunt, (2017). Particle size influence on the pore development of nanopores in coal gasification chars: from micron to millimeter particles, Carbon, v. 112, pp. 37-46.
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Mathews, J. P., Q. P. Campbell, H. Xu, and P. M. Halleck, (2017). A review of the application of X-ray computed tomography to the study of coal, Fuel, v. 209, pp. 10-24, ISSN 0016-2361.
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Song, Y., B. Jiang, J. P. Mathews, G. Yan, and F. Li, (2017). Structural transformations and hydrocarbon generation of low-rank coal (vitrinite) during slow heating pyrolysis, Fuel Processing Technology, v. 167, 2017, pp. 535-544, ISSN 0378-3820, http://dx.doi.org/10.1016/j.fuproc.2017.08.003.
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Wang, C., T. Huddle, C.-H. Huang, W. Zhu, R. L. Vander Wal, E. Lester, and J. P. Mathews, (2017 February 21). Improved Quantification of Curvature in High-Resolution Transmission Electron Microscopy Lattice Fringe Micrographs of Soots, Carbon, v. 117, pp. 174-181, ISSN 0008-6223.
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Huang, Y., F. Cannon, J. S. Guo, J. K. Watson, and J. P. Mathews, (2016). Atomistic Modeling Insight Into the Structure of Lignite-Based Activated Carbon, and Behavior of Benzene Sorption. RSC Advances, 6, 56623-37.
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Kumar, H., D. Elsworth, J. P. Mathews, and C. Marone, (2016). Permeability evolution analogies in sorbing media: a comparison between organic-rich shale and coal, Geofluids, v. 16, pp. 43-55.
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Louw, E., G. D. Mitchell, R. E. Winans, and J. P. Mathews, (2016). Constitution of drop-tube generated coal chars from vitrinite-rich and inertinite-rich South African coals, Energy & Fuels, v. 30, pp. 112-120.
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Wang, C., T. Huddle, E. Lester, and J. P. Mathews, (2016). Quantifying Curvature in HRTEM Lattice Fringe Micrographs of Coals, Energy & Fuels, v. 30 (4), pp. 2694–2704.
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Xin, H., C. A. Wang, E. Louw, D. Wang, and J. P. Mathews, (2016). Atomistic simulation of coal char isothermal oxy-fuel combustion: Char reactivity and behavior, Fuel, v. 182, pp. 935-943.
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Xu, H., D. Tang, J. P. Mathews, J. Zhao, B. Li, S. Tao, and S. Li, (2016). A comparative evaluation of coal specific surface area by CO2 and N2 adsorption and its influence on CH4 adsorption capacity at different pore sizes, Fuel, v. 183, pp. 420-431.
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Xu, H., D. Tang, J. P. Mathews, J. Zhao, B. Li, S. Tao, and S. Li, (2016). Evaluation of coal macrolithotypes distribution by geophysical logging data in the Hancheng Block, Eastern Margin, Ordos Basin, China, International Journal of Coal Geology, v. 165, pp. 265-277, ISSN 0166-5162.
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Zhao, J., H. Xu, D. Tang, J. P. Mathews, S. Li, and S. Tao, (2016). A comparative evaluation of coal specific surface area by CO2 and N2 adsorption and its influence on CH4 adsorption capacity at different pore sizes, Fuel, v. 183, pp. 420-431.
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Zhao, J., H. Xu, D. Tang, J. P. Mathews, S. Li, and S. Tao, (2016). Coal seam porosity and fracture heterogeneity of macrolithotypes in the Hancheng Block, eastern margin, Ordos Basin, China. International Journal of Coal Geology, v. 159, pp. 18-29.
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Coetzee, G. H., R. Sakurovs, H. W. Neomagus, L. Morpeth, R. C. Everson, J. P. Mathews, and J. R. Bunt, (2015). Pore development during gasification of South African inertinite-rich chars evaluated using small angle X-ray scattering, Carbon, v. 95, pp. 250-260.
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Coetzee, S., H. W. Neomagus, J. R. Bunt, J. P. Mathews, C. A. Strydom, and H. H. Schobert, (2015). Reduction of caking propensity in large (mm sized) South African coal particles with potassium carbonate impregnation to expand fixed and fluidised bed gasification feedstock suitability, Energy & Fuels, v. 29, (7), pp. 4255–4263.
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Huang, Y., F. S. Cannon, J. K. Watson, B. Reznik, and J. P. Mathews, (2015). Activated carbon efficient atomistic model construction that depicts experimentally-determined characteristics. Carbon, 83, 1-14.
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Kumar, H., D. Elsworth, J. Liu, D. Pone, and J. P. Mathews, (2015 September). Permeability evolution of propped artificial fractures in coal on injection of CO2, Journal of Petroleum Science and Engineering, v. 133, pp. 695-704, ISSN 0920-4105.
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Kumar, H., D. Elsworth, J. P. Mathews, and C. Marone, (2015). Permeability evolution in sorbing media: analogies between organic-rich shale and coal. Geofluids, 133, 695-704.
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Louw, E. B., G. D. Mitchell, J. Wang, R. E. Winans, and J. P. Mathews, (2015). Constitution of drop-tube generated coal chars from vitrinite-rich and inertinite-rich South African coals, Energy & Fuels.
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Mathews, J. P., C. E. Burgess Clifford, and P. C. Painter, (2015). "The Interactions of Illinois No. 6 Bituminous Coal with Solvents: a Review of Solvent Swelling and Extraction Literature," Energy & Fuels, v. 29, pp. 1279-1294.
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Okolo, G. N., H. W. J. P. Neomagus, R. C. Everson, M. J. Roberts, J. R. Bunt, R. Sakurovs, and J. P. Mathews, (2015 October 15). Chemical–structural properties of South African bituminous coals: Insights from wide angle XRD–carbon fraction analysis, ATR–FTIR, solid state 13C NMR, and HRTEM techniques, Fuel, v. 158, pp. 779-792, ISSN 0016-2361.
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Roberts, M. J., R. C. Everson, G. Domazetis, H. W. J. P. Neomagus, J. M. Jones, C. G. C. E. Van Sittert, G. N. Okolo, D. Van Niekerk, and J. P. Mathews, (2015). The DFT molecular modelling and experimental particle kinetics studies of CO2-char gasification, Carbon, v. 93, pp. 295-314, http://dx.doi.org/10.1016/j.carbon.2015.05.053.
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Roberts, M. J., R. C. Everson, G. Domazetis, H. W. J. P. Neomagus, J. M. Jones, C. G. C. E. Van Sittert, G. N. Okolo, D. Van Niekerk, and J. P. Mathews, (2015 November). Density functional theory molecular modeling and experimental particle kinetics for CO2–char gasification, Carbon, v. 93, pp. 295-314, ISSN 0008-6223.
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Roberts, M. J., R. C. Everson, H. W. J. P. Neomagus, D. Van Niekerk, J. P. Mathews, and D. J. Branken, (2015). Influence of maceral composition on the structure, properties and behavior of chars derived from South African coals, Fuel, v. 142, pp. 9-20.
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Roberts, M. J., R. C. Everson, H. W. J. P. Neomagus, G. N. Okolo, D. Van Niekerk, and J. P. Mathews, (2015). The characterization of slow-heated inertinite- and vitrinite-rich coals from the South African coalfields, Fuel, v. 158, pp. 591-601, ISSN 0016-2361.
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Wang, C. A., J. K. Watson, E. Louw, and J. P. Mathews, (2015). A Construction Strategy for Atomistic Models of Coal Chars Capturing Stacking Diversity and Pore Size Distribution, Energy & Fuels, v. 29, pp. 4814–4826.
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Yang H., F. S. Cannon, J. K. Watson, B. Reznik, and J. P. Mathews, (2015 March). Activated carbon efficient atomistic model construction that depicts experimentally-determined characteristics, Carbon, v. 83, pp. 1-14, ISSN 0008-6223
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Binner, E., E. Lester, S. Kingman, C. Dodds, J. Robinson, T. Wu, P. Wardle, and J. P. Mathews, (2014). A review of microwave coal processing. Journal of Microwave Power and Electromagnetic Energy, v. 48 (1), pp. 35-60.
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Cai, Y., D. Liu, J. P. Mathews, Z. Pan, D. Elsworth, Y. Yao, J. Li, and X. Guo, (2014). Permeability evolution in fractured coal - combining triaxial confinement with X-ray computed tomography, acoustic emission and ultrasonic techniques. International Journal of Coal Geology, v. 122, pp. 91-104.
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