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Lei, Zhen, and C.-H. Tsai, (2017). Market deregulation and nuclear safety, In Energy Economics, ISSN 0140-9883,
Burgess, C. E., and H. H. Schobert, (1998). “Relationship of Coal Characteristics Determined by Pyrolysis/ Gas Chromatography/ Mass Spectrometry and Nuclear Magnetic Resonance to Liquefaction Reactivity and Product Composition.” Energy & Fuels, 12 (6), 1212-22.
Burgess, C. E., and H. H. Schobert, (1998). Relationship of coal characteristics determined by pyrolysis /gas chromatography/mass spectrometry and nuclear magnetic resonance to liquefaction reactivity and product composition. Energy and Fuels, vol. 12, pp. 1212-1222.
Hou, L., P. G. Hatcher, and R. E. Botto, (1996). Diffusion of pyridine in illinois no 6 coal: Measuring the swelling and deswelling characteristics by combined methods of nuclear magnetic resonance (NMR) and nuclear magnetic resonance imaging (nmri). International Journal of Coal Geology, 32, (1-4), 167-89.
Hou, L., G. D. Cody, D. C. French, R. E. Botto, and P. G. Hatcher, (1995). Dynamic detection of a phase-transition for illinois no-6 coal in pyridine by nuclear-magnetic-resonance imaging (nmri) and NMR-spectroscopy. Energy & Fuels, 9, (1), 84-9.
Vassallo, A. M., N. C. Lockhart, J. V. Hanna, R. Chamberlain, P. C. Painter, and M. Sobkowiak, (1991). Infrared and nuclear-magnetic-resonance spectroscopy of density fractions from callide coal. Energy & Fuels, 5, (3), 477-82.
Wilson, M. A., R. J. Pugmire, J. Karas, L. B. Alemany, W. R. Woolfenden, D. M. Grant, and P. H. Given, (1984). Carbon distribution in coals and coal macerals by cross polarization magic angle spinning c-13 nuclear magnetic-resonance spectrometry. Analytical Chemistry, 56, (6), 933-43.