[200401]Cao LW, Sang SX, Jiang ZQ, et al. Problems and countermeasures concerning engineering geological study on the liner system of municipal solid waste sanitary landfill in China[J]. New Advances on Contaminated Sites and Waste Disposal, 2004: 49-55.

[200402]Sang SX, Qin Y, Zhu YM, et al. Coalbed methane storage and pooling of continental basins in Northwestern China[J]. Mining Science and Technology, 2004: 279-282.

[200403]Shuxun S , Yongfei Z , Hua Z , et al. Researches on carbon and oxygen stable isotopes of lower Paleozoic carbonates in Xuzhou area[J]. Acta Petrologica Sinica, 2004, 86(4):325..

[200501]Sang SX, Zhu YM, Zhang J, et al. Influence of liquid water on coalbed methane adsorption: An experimental research on coal reservoirs in the south of Qinshui Basin[J]. Chinese Science Bulletin, 2005, 50: 79-85.

[200502]Wang WF, Qin Y, Song DY. Element geochemistry and cleaning potential of the No. 11 coal seam from Antaibao mining district[J]. Science in China Series D, 2005, 48 (12): 2142-2154.

[200503]Wang XS, Qin Y, Sang SX. Accumulation and sources of heavy metals in urban topsoils: a case study from the city of Xuzhou, China[J]. Environmental Geology, 2005, 48 (1): 101-107.

[200601]Wang WF, Qin Y, Sang SX, et al. Partitioning of minerals and elements during preparation of Taixi coal, China[J]. Fuel, 2006, 85 (1): 57-67.

[200701]Wang WF, Qin Y, Sang SX, et al. Sulfur variability and element geochemistry of the No. 11 coal seam from the Antaibao mining district, China[J]. Fuel, 2007, 86 (5-6): 777-784.

[200801]Wang WF, Qin Y, Sang SX, et al. Geochemistry of rare earth elements in a marine influenced coal and its organic solvent extracts from the Antaibao mining district, Shanxi, China[J]. International Journal of Coal Geology, 2008, 76 (4): 309-317.

[200901]Zhang SY, Sang SX. Physical chemistry mechanism of influence of liquid water on coalbed methane adsorption[J]. Proceedings of the International Conference on Mining Science & Technology (Icmst2009), 2009, 1 (1): 263-268.

[200902]Zhou XZ, Sang SX, Cao LW, et al. Simulation Experiment of the Anaerobic Degradation Law of Municipal Solid Waste[J]. 2009 3rd International Conference on Bioinformatics and Biomedical Engineering, Vols 1-11, 2009: 6351-6355.

[201001]Liu CJ, Wang GX, Sang SX, et al. Changes in pore structure of anthracite coal associated with CO2 sequestration process[J]. Fuel, 2010, 89 (10): 2665-2672.

[201002]Liu HH, Sang SX. Study on the law of heavy metal leaching in municipal solid waste landfill[J]. Environ Monit Assess, 2010, 165 (1-4): 349-363.

[201003]Sang SX, Xu HJ, Fang LC, et al. Stress relief coalbed methane drainage by surface vertical wells in China[J]. International Journal of Coal Geology, 2010, 82 (3-4): 196-203.

[201101]Xu HJ, Sang SX, Fang LC, et al. Production Characteristics and the Control Factors of Surface Wells for Relieved Methane Drainage in the Huainan Mining Area[J]. Acta Geologica Sinica-English Edition, 2011, 85 (4): 932-941.

[201201]Liu HH, Sang SX, Wang GGX, et al. Evaluation of the synergetic gas-enrichment and higher-permeability regions for coalbed methane recovery with a fuzzy model[J]. Energy, 2012, 39 (1): 426-439.

[201301]Liu HH, Sang SX, Formolo M, et al. Production characteristics and drainage optimization of coalbed methane wells: A case study from low-permeability anthracite hosted reservoirs in southern Qinshui Basin, China[J]. Energy for Sustainable Development, 2013, 17 (5): 412-423.

[201302]Liu HH, Sang SX, Xu HJ, et al. Variational Characteristics of Water Quality of Produced Formation Water in Coalbed Methane Production Area[J]. Advanced Materials Research, 2013, 726-731: 1560-1565.

[201303]Zhang XD, Miao SL, Wang GX, et al. Investigation on Pore Structures of a Medium Volatile Bituminous Coal with Solvent Extraction Tests[J]. Energy Exploration & Exploitation, 2013, 31 (3): 337-351.

[201401]Liu HH, Sang SX, Wang GGX, et al. Block scale investigation on gas content of coalbed methane reservoirs in southern Qinshui basin with statistical model and visual map[J]. Journal of Petroleum Science and Engineering, 2014, 114: 1-14.

[201402]Liu SQ, Sang SX, Zhu QP, et al. Response characteristics and mechanisms of dynamic fluid field for well interference of coal bed methane group wells in production block[J]. Energy Exploration & Exploitation, 2014, 32 (5): 771-790.

[201403]Liu SQ, Sang SX, Zhu QP, et al. Structure and production fluid flow pattern of post-fracturing high-rank coal reservoir in Southern Qinshui Basin[J]. Journal of Central South University, 2014, 21 (10): 3970-3982.

[201404]Mao YM, Sang SX, Liu SQ, et al. Spatial distribution of pH and organic matter in urban soils and its implications on site-specific land uses in Xuzhou, China[J]. Comptes Rendus Biologies, 2014, 337 (5): 332-337.

[201405]Wang WF, Hao WD, Bian ZF, et al. Effect of coal mining activities on the environment of Tetraena mongolica in Wuhai, Inner Mongolia, China—A geochemical perspective[J]. International Journal of Coal Geology, 2014, 132: 94-102.

[201406]Wang WF, Hao WD, Xu SM, et al. Ash limitation of physical coal beneficiation for medium–high ash coal—A geochemistry perspective[J]. Fuel, 2014, 135: 83-90.

[201407]Wang WF, Qin Y, Qian FC, et al. Partitioning of elements from coal by different solvents extraction[J]. Fuel, 2014, 125: 73-80.

[201501]Han SJ, Sang SX, Wang WF, et al. Geochemical characteristics and tectonic setting of Lower Carboniferous volcanic rocks from Wunan-Ludong area, Junggar basin, China[J]. Himalayan Geology, 2015, 36 (2): 118-125.

[201502]Liu CJ, Wang GX, Sang SX, et al. Fractal analysis in pore structure of coal under conditions of CO 2 sequestration process[J]. Fuel, 2015, 139: 125-132.

[201503]Liu SQ, Sang SX, Liu HH, et al. Growth characteristics and genetic types of pores and fractures in a high-rank coal reservoir of the southern Qinshui basin[J]. Ore Geology Reviews, 2015, 64: 140-151.

[201504]Wang WF, Sang SX, Hao WD, et al. A cut-off grade for gold and gallium in coal[J]. Fuel, 2015, 147: 62-66.

[201505]Liu SQ, Sang SX, Zhu QP, et al. Triple medium physical model of post fracturing high-rank coal reservoir in southern Qinshui Basin[J]. Journal of Earth Science, 2015, 26 (3): 407-415.

[201506]Zhou FB, Liu SQ, Pang YQ, et al. Effects of Coal Functional Groups on Adsorption Microheat of Coal Bed Methane[J]. Energy & Fuels 2015, 29: 1550-1557.

[201601]Jia JL, Cao LW, Sang SX, et al. A case study on the effective stimulation techniques practiced in the superposed gas reservoirs of coal-bearing series with multiple thin coal seams in Guizhou, China[J]. Journal of Petroleum Science and Engineering, 2016, 146: 489-504.

[201602]Liu HH, Sang SX, Xue JH, et al. Characteristics of an in situ stress field and its control on coal fractures and coal permeability in the Gucheng block, southern Qinshui Basin, China[J]. Journal of Natural Gas Science and Engineering, 2016, 36: 1130-1139.

[201603]Liu SQ, Sang SX, Pan ZJ, et al. Study of characteristics and formation stages of macroscopic natural fractures in coal seam #3 for CBM development in the east Qinnan block, Southern Quishui Basin, China[J]. Journal of Natural Gas Science and Engineering, 2016, 34: 1321-1332.

[201604]Wang T, Sang SX, Liu SQ, et al. Occurrence and genesis of minerals and their influences on pores and fractures in the high-rank coals[J]. Energy Exploration & Exploitation, 2016, 34 (6): 899-914.

[201605]Wang WF, Sang SX, Bian ZF, et al. Fine-grained pyrite in some Chinese coals[J]. Energy Exploration & Exploitation, 2016, 34 (4): 543-560.

[201606]Xu HJ, Sang SX, Yang JF, et al. Selection of suitable engineering modes for CBM development in zones with multiple coalbeds: A case study in western Guizhou Province, Southwest China[J]. Journal of Natural Gas Science and Engineering, 2016, 36: 1264-1275.

[201607]Zhao XZ, Liu SQ, Sang SX, et al. Characteristics and generation mechanisms of coal fines in coalbed methane wells in the southern Qinshui Basin, China[J]. Journal of Natural Gas Science and Engineering, 2016, 34: 849-863.

[201701]Duan PP, Wang WF, Liu XH, et al. Distribution of As, Hg and other trace elements in different size and density fractions of the Reshuihe high-sulfur coal, Yunnan Province, China[J]. International Journal of Coal Geology, 2017, 173: 129-141.

[201702]Fang HH, Sang SX, Wang JL, et al. Simulation of Paleotectonic Stress Fields and Distribution Prediction of Tectonic Fractures at the Hudi Coal Mine, Qinshui Basin[J]. Acta Geologica Sinica-English Edition, 2017, 91 (6): 2007-2023.

[201703]Huang HZ, Bi CQ, Sang SX, et al. Signature of coproduced water quality for coalbed methane development[J]. Journal of Natural Gas Science and Engineering, 2017, 47: 34-46.

[201704]Huang HZ, Sang SX, Miao Y, et al. Trends of ionic concentration variations in water coproduced with coalbed methane in the Tiefa Basin[J]. International Journal of Coal Geology, 2017, 182: 32-41.

[201705]Jia JL, Sang SX, Cao LW, et al. Characteristics of the superposed gas reservoirs of coal-bearing series and its pool-forming dynamic mechanism in Jiyang depression, Bohai Bay Basin, China[J]. Himalayan Geology, 2017, 38 (2): 141-155.

[201706]Liu SQ, Sang SX, Wang G, et al. FIB-SEM and X-ray CT characterization of interconnected pores in high-rank coal formed from regional metamorphism[J]. Journal of Petroleum Science and Engineering, 2017, 148: 21-31.

[201707]Niu QH, Cao LW, Sang SX, et al. The adsorption-swelling and permeability characteristics of natural and reconstituted anthracite coals[J]. Energy, 2017, 141: 2206-2217.

[201708]Niu QH, Pan JN, Cao LW, et al. The evolution and formation mechanisms of closed pores in coal[J]. Fuel, 2017, 200: 555-563.

[201709]Jia JL, Cao LW, Zhang DJ, et al. Study on the fracture characteristics of thick-hard limestone roof and its controlling technique[J]. Environmental Earth Sciences, 2017, 76 (17).

[2017010]Lan TH, Liu HH, Sang SX, et al. Study on geochemistry discriminate method of gas emission in goaf[J]. IOP Conference Series: Earth and Environmental Science, 2017, 69: 012057.

[201801]Du Y, Sang SX, Wang WF, et al. Dissolution of Illite in Supercritical CO₂–Saturated Water: Implications for Clayey Caprock Stability in CO₂ Geological Storage[J]. Journal of Chemical Engineering of Japan, 2018, 51 (1): 116-122.

[201802]Du Y, Sang SX, Wang WF, et al. Experimental Study of the Reactions of Supercritical CO₂ and Minerals in High-Rank Coal under Formation Conditions[J]. Energy & Fuels, 2018, 32 (2): 1115-1125.

[201803]Duan PP, Wang WF, Sang SX, et al. Geochemistry of Toxic Elements and Their Removal via the Preparation of High-Uranium Coal in Southwestern China[J]. Minerals, 2018, 8 (3): 83-100.

[201804]Fang HH, Sang SX, Wang JL, et al. Pore characteristics and its significance on shale gas reservoir: a case study of the Longmaxi shale in the Nanchuan region, Chongqing, South China[J]. International Journal of Oil Gas and Coal Technology, 2018, 18 (3-4): 512-536.

[201805]Jia JL, Sang SX, Cao LW, et al. Characteristics of CO₂/supercritical CO₂ adsorption-induced swelling to anthracite: An experimental study[J]. Fuel, 2018, 216: 639-647.

[201806]Liu HH, Sang SX, Xue JH, et al. Experimental study on the velocity sensitivity of coal reservoir during coalbed methane drainage in southern Qinshui Basin[J]. Energy Exploration & Exploitation, 2018, 36 (6): 1593-1608.

[201807]Liu HH, Sang SX, Xue JH, et al. Evolution and geochemical characteristics of gas phase fluid and its response to inter-well interference during multi-well drainage of coalbed methane[J]. Journal of Petroleum Science and Engineering, 2018, 162: 491-501.

[201808]Liu SQ, Ma JS, Sang SX, et al. The effects of supercritical CO₂ on mesopore and macropore structure in bituminous and anthracite coal[J]. Fuel, 2018, 223: 32-43.

[201809]Liu SQ, Sang SX, Wang T, et al. The effects of CO₂ on organic groups in bituminous coal and high-rank coal via Fourier transform infrared spectroscopy[J]. Energy Exploration & Exploitation, 2018, 36 (6): 1566-1592.

[2018010]Niu QH, Cao LW, Sang SX, et al. Anisotropic Adsorption Swelling and Permeability Characteristics with Injecting CO₂ in Coal[J]. Energy & Fuels, 2018, 32 (2): 1979-1991.

[2018011]Shao P, Wang WF, Chen L, et al. Distribution, occurrence, and enrichment of gallium in the Middle Jurassic coals of the Muli Coalfield, Qinghai, China[J]. Journal of Geochemical Exploration, 2018, 185: 116-129.

[2018012]Wang R, Sang SX, Zhu D, et al. Pore characteristics and controlling factors of the Lower Cambrian Hetang Formation shale in Northeast Jiangxi, China[J]. Energy Exploration & Exploitation, 2018, 36 (1): 43-65.

[2018013]Han SJ, Sang SX, Liang JJ, et al. Characteristics and genesis of diachronous Carboniferous volcano-sedimentary sequences: insights from geochemistry, petrology and U–Pb dating in the North Junggar basin, China[J]. International Geology Review, 2018, 61 (4): 404-423.

[201901]Du Y, Sang SX, Pan ZJ, et al. Experimental study of supercritical CO₂-H₂O-coal interactions and the effect on coal permeability[J]. Fuel, 2019, 253: 369-382.

[201902]Fang HH, Sang SX, Liu SQ. Establishment of dynamic permeability model of coal reservoir and its numerical simulation during the CO₂-ECBM process[J]. Journal of Petroleum Science and Engineering, 2019, 179: 885-898.

[201903]Fang HH, Sang SX, Liu SQ, et al. Experimental simulation of replacing and displacing CH4 by injecting supercritical CO₂ and its geological significance[J]. International Journal of Greenhouse Gas Control, 2019, 81: 115-125.

[201904]Fang HH, Sang SX, Liu SQ. Numerical simulation of enhancing coalbed methane recovery by injecting CO₂ with heat injection[J]. Petroleum Science, 2019, 16 (1): 32-43.

[201905]Han SJ, Sang SX, Liang JJ, et al. Supercritical CO₂ adsorption in a simulated deep coal reservoir environment, implications for geological storage CO₂ in deep coals in the southern Qinshui Basin, China[J]. Energy Science & Engineering, 2019, 7 (2): 488-503.

[201906]Liu CJ, Wang G, Sang SX, et al. Mobility of elements released from coal during CO₂ sequestration[J]. International Journal of Oil Gas and Coal Technology, 2019, 20 (2): 224-242.

[201907]Liu SQ, Sang SX, Ma JS, et al. Effects of supercritical CO₂ on micropores in bituminous and anthracite coal[J]. Fuel, 2019, 242: 96-108.

[201908]Zhang K, Sang SX, Liu CJ, et al. Experimental study the influences of geochemical reaction on coal structure during the CO₂ geological storage in deep coal seam[J]. Journal of Petroleum Science and Engineering, 2019, 178: 1006-1017.

[201909]Xu HJ, Sang SX, Yang JF, et al. Evaluation of coal and shale reservoir in Permian coal-bearing strata for development potential: A case study from well LC-1# in the northern Guizhou, China[J]. Energy Exploration & Exploitation, 2019, 37 (1): 194-218.

[2019010]Wang R, Sang SX, Jin J, et al. Characteristics and significance of heterogeneity of sea-land transitional facies shale gas reservoir in North Guizhou, China[J]. Geosciences Journal, 2019, 23 (1): 101-117.

[2019011]Han SJ, Sang SX, Zhou PM. , et al Geological characteristics of the Carboniferous-Permian coal-measures[J]. Himalayan Geology, 2019, 40 (1): 1-15.

[2019012]Liu SQ, Sang SX, Ma JS, et al. Three-dimensional digitalization modeling characterization of pores in high-rank coal in the southern Qinshui basin[J]. Geosciences Journal, 2019, 23 (1): 175-188.

[2019013]Duan PP, Wang WF, Sang SX, et al. Leaching behavior and organic affinity of potentially toxic elements V, Cr, Mo, and U in flotation-cleaned coal from the Ganhe Mine, China[J]. Journal of Geochemical Exploration, 2019, 200: 152-158.

[2019014]Niu QH, Cao LW, Sang SX, et al. Experimental study of permeability changes and its influencing factors with CO₂ injection in coal[J]. Journal of Natural Gas Science and Engineering, 2019, 61: 215-225.