[1] 蒋学先. 浅论我国危险废物处理处置技术现状[J]. 金属材料与冶金工程, 2009, 37(4):57-60 Jiang Xuexian. Discussion on the current status of treatment and disposal technology for hazardous waste in our country[J]. Metal Materials and Metallurgy Engineering, 2009, 37(4):57-60(in Chinese)
[2] Duan H, Huang Q, Wang Q, et al. Hazardous waste generation and management in China:A review[J]. Journal of Hazardous Materials, 2008, 158(2/3):221-227
[3] 李晓敏. 浅谈碳十重芳烃综合利用工艺技术[J]. 化工技术与开发, 2014, 43(8):73-75 Li Xiaomin. Comprehensive utilization technology of C10 heavy aromatic[J]. Technology & Development of Chemical Industry, 2014, 43(8):73-75(in Chinese)
[4] 赵斌. 粗酚连续精制分离项目技改浅谈[J]. 山东化工, 2016, 45(12):96-97, 101 Zhao Bin. Discussion on technical reformation of con-tinuous refining and separation of crude phenol[J]. Shandong Chemical Industry, 2016, 45(12):96-97, 101(in Chinese)
[5] 董立明. 利用粗酚生产2123酚醛树脂[J]. 浙江化工, 1990, 21(1):42-44 Dong Liming. Production of 2123 phenolic resin from crude phenol[J]. Zhejiang Chemical Industry, 1990, 21(1):42-44(in Chinese)
[6] Shao Y, Sui J, Yin G, et al. Nitrogen-doped carbon nanostructures and their composites as catalytic materials for proton exchange membrane fuel cell[J]. Applied Catalysis B:Environmental, 2008, 79(1):89-99
[7] 谢菲, 王艳莉, 詹亮, 等. 沥青基球形活性炭对CO2的吸脱附行为研究[J]. 无机材料学报, 2011, 26(2):149-154 Xie Fei, Wang Yan Li, Zhan Liang, et al. Adsorption/desorption performance of CO2 on pitch-based spherical activated carbons[J]. Journal of Inorganic Materials, 2011, 26(2):149-154(in Chinese)
[8] Pevida C, Plaza M G, Arias B, et al. Surface modification of activated carbons for CO2 capture[J]. Applied Surface Science, 2008, 254(22):7165-7172
[9] Sun Y, Zhao J, Wang J, et al. Sulfur-Doped millimeter-sized microporous activated carbon spheres derived from sulfonated poly(styrene-divinylbenzene) for CO2 capture[J]. Journal of Physical Chemistry C, 2017, 121(18):10000-10009
[10] Xia Y, Zhu Y, Tang Y. Preparation of sulfur-doped microporous carbons for the storage of hydrogen and carbon dioxide[J]. Carbon, 2012, 50(15):5543-5553
[11] Seema H, Kemp K C, Le N H, et al. Highly selective CO2 capture by S-doped microporous carbon materials[J]. Carbon, 2014, 66:320-326
[12] Wang P, Hu X, Liao D, et al. Dual fire retardant action:the combined gas and condensed phase effects of azo-modified NiZnAl layered double hydroxide on intumescent polypropylene[J]. Industrial & Engineering Chemistry Research, 2017, 56(4):920-932
[13] Stradella L, Argentero M. A study of the thermal decomposition of urea, of related compounds and thiourea using DSC and TG-EGA[J]. Thermochimica Acta, 1993, 219:315-323
[14] Hao G, Li W, Qian D, et al. Rapid synthesis of nitrogen-doped porous carbon monolith for CO2 capture[J]. Advanced Materials, 2010, 22(7):853-857
[15] Zhao Y, Zhao L, Yao K, et al. Novel porous carbon materials with ultrahigh nitrogen contents for selective CO2 capture[J]. Journal of Materials Chemistry, 2012, 22(37):19726-19731
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