Каталог библиотеки БГТУ

1. Базы данных
2. Статьи
3. Автор
4. Li, X.

Статьи. Автор - Li, X.

• Каталитический крекинг н-декана на катализаторах Pt/ZrO[[d]]2[[/d]]-TiO[[d]]2[[/d]]-Al[[d]]2[[/d]]O[[d]]3[[/d]], модифицированных NiO-MoO[[d]]3[[/d]]
  Zhang, G., Li, X., Jiao, Yi., Wang, Zh., Zhu, Q., Wang, J.
  
  Каталитический крекинг н-декана на катализаторах Pt/ZrO[[d]]2[[/d]]-TiO[[d]]2[[/d]]-Al[[d]]2[[/d]]O[[d]]3[[/d]], модифицированных NiO-MoO[[d]]3[[/d]], [[Текст]], G. Zhang [и др.] // Нефтехимия .- 2017 .- Т. 57, № 4. - С. 403-409 .-
• Краткие сообщения
  Гагарин, С. Г., Li, Q., Li, X., Zhang, R., Li, W., Wang, S., Zhang, G., Xu, Y., Zhang, Y., Nomura, S.
  
  Краткие сообщения, [[Текст]], реф. С. Г. Гагарин Реф. ст.: Li Q., Ju Y., Chen P. et al. Biomarker Study of Depositional Paleoenvironments and Organic Matter Inputs for Permian Coalbearing Strata in the Huaibei Coalfield, East China // Energy and Fuels. - 2017. - Vol. 31, № 4. - P. 3567-3577 ; Zheng M., Li X., Nie F., Guo L. Investigation of Overall Pyrolysis Stages for Liulin Bituminous Coal by Large-Scale ReaxFF Molecular Dynamics // Energy and Fuels. - 2017. - Vol. 31, № 4. - P. 3575-3683 ; Gai Z., Zhang R., Bi J. Characteristics of Soot from Rapid Pyrolysis of Coal and Petroleum Coke // Energy and Fuels. - 2017. - Vol. 31, № 4. - P. 3759-3767 ; Cui W., Li W., Gao R. et al. Hydroprocessing of Low-Temperature Coal Tar for the Production of Clean Fuel over Fluorinated NiW/ Al[2]O[3]-SiO[2] Catalyst // Energy and Fuels. - 2017. - Vol. 31, № 4. - P. 3768-3783 ; Lin Q., Wang S., Liang Y. et al. Analytical prediction of coal spontaneous combustion tendency: Velocity range with high possibility of self-ignition // Fuel Process. Technol. - 2017. - Vol. 159, May. - P. 38-47 ; Behera S. K., Chakraborty S., Meikap В. C. Chemical demineralization of high ash Indian coal by using alkali and acid solutions // Fuel. - 2017. - Vol. 196, 15 May. - P. 102-109 ; Zhang G., Zhao P., Xu Y., Zhang Y. Characteristics of Pressure Drop of Charred Layer in Coke Dry Quenching over Coke Oven Gas // Energy and Fuels. - 2017. - Vol. 31, № 4. - P. 4548-4555 ; Nomura S. Recent developments in cokemaking technologies in Japan // Fuel Process. Technol. - 2017. - Vol. 159, May. - P. 1-8 ; Mochizuki Y., Naganuma R., Uebo K., Tsubouchi N. Some factors influencing the fluidity of coal blends: Particle size, blend ratio and inherent oxygen species // Fuel Process. Technol. - 2017. - Vol. 159, May. - P. 67-75 ; Hao P., Bai Z. -Q., Zhao Z. -T. et al. Study on the preheating stage of low rank coals liquefaction: Product distribution, chemical structural change of coal and hydrogen transfer // Fuel Process. Technol. - 2017. - Vol. 159, May. - P. 153-159 .- // Кокс и химия .- 2018 .- № 1. - С. 44-48 .-
• Phenolic hydroxyl group-carbon dots as a fluorescent probe for the detection of hydrogen peroxide and glucose in milk
  Wei, Y., Li, L., Ma, C., Wu, Y., Gao, H., Xiong, Y., Li, X., Wang, G., Guo, S., Chen, G.
  
  Phenolic hydroxyl group-carbon dots as a fluorescent probe for the detection of hydrogen peroxide and glucose in milk, Y. Wei, L. Li, Ch. Ma [et al.] // Журнал прикладной спектроскопии .- 2022 .- Т. 89, № 2. - С. 221-229 .-
• Phenolic hydroxyl group-carbon dots as a fluorescent probe for the detection of hydrogen peroxide and glucose in milk
  Wei, Y., Li, L., Ma, C., Wu, Y., Gao, H., Xiong, Y., Li, X., Wang, G., Guo, S., Chen, G.
  
  Phenolic hydroxyl group-carbon dots as a fluorescent probe for the detection of hydrogen peroxide and glucose in milk, Y. Wei, L. Li, Ch. Ma [et al.] // Журнал прикладной спектроскопии .- 2022 .- Т. 89, № 2. - С. 221-229 .-
• Применение микроволновой технологии в области твердооксидных топливных элементов
  Fu, M., Lin, X., Li, X., Tao, Z.
  
  Применение микроволновой технологии в области твердооксидных топливных элементов, Min Fu, Xin Lin, Xiangyang Li, Zetian Tao 11 рис., 3 табл. // Успехи химии .- 2023 .- Т. 92, № 9. - С. [54-67] .-
• Краткие сообщения
  Гагарин, С. Г., Li, W., Li, X., Liu, D., Zhang, L., Chen, Q., Jin, L., Li, Y., Wu, W., Wang, J.
  
  Краткие сообщения, [[Текст]], реф. С. Г. Гагарин Реф. ст.: Barreda D., Perez-Mas A. M., Silvestre-Albero A. et al. Unusual flexibility of mesophase pitch-derived carbon materials: An approach to the synthesis of grapheme // Carbon. - 2017. - Vol. 115, May. - P. 539-545 ; Synnott D. P., Sanei H., Dewing K. et al. Insight into visible light spectrum changes with increasing reflectance in bituminite and inertinite macerals // Fuel. - 2017. - Vol. 197, 1 June. - P. 201-208 ; Li W., Bai Z. -Q., Bai J., Li X. Transformation and roles of inherent mineral matter in direct coal liquefaction: A mini-review // Fuel. - 2017. - Vol. 197, 1 June. - P. 209-216 ; Ziolkowska D. A., Jangam J. S. D., Rudakov G. et al. Simple synthesis of highly uniform bilayer-carbon nanocages // Carbon. - 2017. - Vol. 115, May. - P. 617-524 ; Cai Y., Liu D., Pan Z. Partial Coal Pyrolysis and Its Implication To Enhance Coalbed Methane Recovery: A Simulation Study // Energy and Fuels. - 2017. - Vol. 31, № 5. - P. 4895-4903 ; Zhang L., Hu S., Chen Q. et al. Identification of the structural characteristics of the asphaltenes in the tetrahydrofuran-microwave-extracted portions from two Chinese coals // Fuel Process. Technol. - 2017. - Vol. 160, 1 June. - P. 86-92 ; Liu T. -L., Cao J. -P., Zhao X. -Y. et al. In situ upgrading of Shengli lignite pyrolysis vapors over metal-loaded HZSM-5 catalyst // Fuel Process. Technol. - 2017. - Vol. 160, 1 June. - P. 19-26 ; Niu B., Jin L., Li Y. et al. Mechanism of hydrogen transfer and role of solvent during heating-up stage of direct coal liquefaction // Fuel Process. Technol. - 2017. - Vol. 160, 1 June. - P. 130-135 ; Yang F., Hou Y., Wu W. et al. The relationship between benzene carboxylic acids from coal via selective oxidation and coal rank // Fuel Process. Technol. - 2017. - Vol. 160, 1 June. - P. 207-215 ; Zhou S., Liu D., Cai Y., Yao Y. Effects of the coalification jump on the petrophysical properties of lignite, subbituminous and high-volatile bituminous coals // Fuel. - 2017. - Vol. 199, 1 July. - P. 219-228 ; Li X. -H., Li L. -L., Li B. -F. et al. Product distribution and interactive mechanism during co-pyrolysis of a subbituminous coal and its direct liquefaction residue // Fuel. - 2017. - Vol. 199, 1 July. - P. 372-379 ; Tomaszewicz M., Mianowski A. Char structure dependence on formation enthalpy of parent coal // Fuel. - 2017. - Vol. 199, 1 July. - P. 380-393 ; Wen X., Jian S., Wang J. Prediction models of calorific value of coal based on wavelet neural networks // Fuel. - 2017. - Vol. 199, 1 July. - P. 512-522 ; Lu Y., Kocaefe D., Kocaefe Y. et al. The wettability of coke by pitches with different quinoline-insoluble contents // Fuel. - 2017. - Vol. 199, 1 July. - P. 587-597 .- // Кокс и химия .- 2018 .- № 3. - С. 43-48 .-
• Low-Temperature Solid-State Synthesis of FePO4 as a Heterogeneous Fenton-Like Catalyst for the Degradation of Methyl Blue
  Zhang, Q., Wang, S., Li, X., Wang, Q.
  
  Low-Temperature Solid-State Synthesis of FePO4 as a Heterogeneous Fenton-Like Catalyst for the Degradation of Methyl Blue, Q. Zhang, X. Li, Q. Wang, S. Wang // Журнал прикладной спектроскопии .- 2022 .- Т. 89, № 1. - С. 136 .-
• Detection of dna hybridization using ZnS:Mn{2+} nanowires/SiO{2} core/shell nanocomposites and au nanoparticles
  Zhou, Y., Cao, J., Yang, L., Wei, M., Liu, X., Liu Q., Li, X., Yang, J.
  
  Detection of dna hybridization using ZnS:Mn{2+} nanowires/SiO{2} core/shell nanocomposites and au nanoparticles, [[Текст]], Y. Zhou [et al.] // Журнал прикладной спектроскопии .- 2019 .- Т. 86, № 3. - С. 382-387 .-
• Краткие сообщения
  Гагарин, С. Г., Yang, J., Liu, M., Li, Y., Shi, L., Liu, Q., Wang, Z., Zhang, J., Li, X., Zhao, J.
  
  Краткие сообщения, реф. С. Г. Гагарин Реф. ст.: Liu M., Yang J., Li Y. et al. Radical Reactions and Two-Step Kinetics of Sub-Bituminous Coal Liquefaction in Various Solvents // Energy and Fuels. 2019. Vol. 33, № 3. P. 2090-2098 ; Pan S. Predicting the Distributions of Oxygen Species from Primary Devolatilization of Coals // Energy and Fuels. 2019. Vol. 33, № 3. P. 1803-1816 ; Uwaoma R. C., Strydom C. A., Matjie R. H., Bunt J. R. Influence of Density Separation of Selected South African Coal Fines on the Products Obtained during Liquefaction Using Tetralin as a Solvent // Energy and Fuels. 2019. Vol. 33, № 3. P. 1837-1849 ; Cheng X., Shi L., Liu Q., Liu Z. Effect of a HF-HF/HCI Treatment of 26 Coals on Their Composition and Pyrolysis Behavior // Energy and Fuels. 2019. Vol. 33, № 3. P. 2008-2017 ; Yang Z., Huang J., Wang Z., Fang Y. Unique Advantages of Gasification-Coke Prepared with Low-Rank Coal Blends via Reasonable Granularity Control // Energy and Fuels. 2019. Vol. 33, № 3. P. 2115-2121 ; Xing X. Pore Structure and Integrity of a Bio-Coke under Simulated Blast Furnace Conditions // Energy and Fuels. 2019. Vol. 33, № 3. P. 2133-2141 ; Pomerantz A. E., Bostrom N. W., Kleinberg R. L. et al. Electronic Structure of Naturally Occurring Aromatic Carbon // Energy and Fuels. 2019. Vol. 33, № 3. P. 2099-2105 ; Zhang J., Li X., Xiaoyan Z. et al. Characterization of the Full-Sized Pore Structure of Coal-Bearing Shales and Its Effecton Shale Gas Content // Energy and Fuels. 2019. Vol. 33, № 3. P. 1969-1982 ; Chen D., Ye Z., Pan Z. et al. Theoretical Models To Predict Gas Adsorption Capacity on Moist Coal // Energy and Fuels. 2019. Vol. 33, № 4. P. 2908-2914 ; Zhou S., Hosseini T., Zhao J. et al. Selective Removal of Sodium from Low-Rank Xinjiang Coal upon Multistage Countercurrent Water Washing: Experimental Investigation and Kinetics Modeling // Energy and Fuels. 2019. Vol. 33, № 3. P. 2142-2152 .- // Кокс и химия .- 2020 .- № 1. - С. 50-54 .-