Каталог библиотеки БГТУ

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

Статьи. Автор - Li, Z.

• colorimetric and fluorescent chemosensor of FE{3+} based on an asymmetrical squarylium dye
  Lu, M., Wang, Y., Li, Y., Li, Z., Xu, S., Yao, C.
  
  // Журнал прикладной спектроскопии .- 2018 .- Т. 85, № 2. - С. 327-334 .-
• Preparation and performance of SrWO[4]:RE{3+} (RE = Eu, Sm, Pr) fluorescent powders for white LEDs
  Li, Z., Wang, Ya. N., Wu, K., Xu, Y., Cao, J., Wang, Y. F., Deng, L.
  
  Preparation and performance of SrWO[4]:RE{3+} (RE = Eu, Sm, Pr) fluorescent powders for white LEDs, Z. Li, Ya. N. Wang, K. Wu [et al.] // Журнал прикладной спектроскопии .- 2023 .- Т. 90, № 3. - С. 530 .-
• Partial least squares regression calibration of an ultraviolet-visible spectrophotometer for measurements of chemical oxygen demand in dye wastewater
  Mai, W., Zhang, J. -F., Zhao, X. -M., Li, Z., Xu, Z. -W.
  
  Partial least squares regression calibration of an ultraviolet-visible spectrophotometer for measurements of chemical oxygen demand in dye wastewater, [[Текст]], W. Mai [et al.] // Журнал прикладной спектроскопии .- 2017 .- Т. 84, № 5. - С. 746-752 .-
• Colorimetric detection of Fe(II) и Co(II) by using terpyridine-based derivative
  Wang, X., Ma, Y., Li, Z., Han, G., Guan, X., Fan, K.
  
  Colorimetric detection of Fe(II) и Co(II) by using terpyridine-based derivative, X. Wang, Y. Ma, Z. Li [et al.] // Журнал прикладной спектроскопии .- 2022 .- Т. 89, № 3. - С. 435 .-
• Nondestructive identification of millet varieties using hyperspectral imaging technology
  Wang, X., Li, Z., Zheng, D., Wang, W.
  
  Nondestructive identification of millet varieties using hyperspectral imaging technology, X. Wang, Z. Li Z., Z. Zheng Z., W. Wang // Журнал прикладной спектроскопии .- 2020 .- Т. 87, № 1. - С. 64-71 .-
• Краткие сообщения
  Гагарин, С. Г., Li, Z., Chen, S., Zhang, Q., Li, J., Yang, Y., Li, S., Wang, S., Wang, Z., Zhao, Y.
  
  Краткие сообщения, [[Текст]], реф. С. Г. Гагарин Реф. ст.: Cheng Y., Zhang Q., Fang C. et al. Co-carbonization behaviors of petroleum pitch/waste SBS: Influence on morphology and structure of resultant cokes // J. Analyt. Appl. Pyrol. - 2018. - Vol. 129, January. - P. 154-161 ; Li J., Li Z., Yang Y. et al. Laboratory study on the inhibitory effect of free radical scavenger on coal spontaneous combustion // Fuel Process. Technol. – 2018. - Vol. 171, March. - P. 350-360 ; He L., Hui Y., Li S., Lin W. Production of light aromatic hydrocarbons by catalytic cracking of coal pyrolysis vapors over natural iron ores // Fuel. - 2018. - Vol. 216, 15 March. - P. 227-232 ; Tang L., Chen S., Wang S. et al. Exploration on the action mechanism of microwave with peroxyacetic acid in the process of coal desulfurization // Fuel. - 2018. - Vol. 214, 15 February. - P. 554-560 ; Du J., Deng W., Chuan Li C. et al. Multi-metal catalysts for slurry-phase hydrocracking of coal-tar vacuum residue: Impact of inherent inorganic minerals // Fuel. - 2018. - Vol. 215, 1 March. - P. 370-377 ; Wei Q., Dai S., Lefticariu L., Costin G. Electron probe microanalysis of major and trace elements in coals and their low-temperature ashes from the Wulantuga and Lincang Ge ore deposits, China // Fuel. - 2018. - Vol. 215, 1 March. - P. 1-12 ; Peng L., Wang Z., Ma W. et al. Dynamic influence of screening coals on a vibrating screen // Fuel. - 2018. - Vol. 216, 15 March. - P. 484-493 ; Xie X., Zhao Y., Qiu P. et al. Investigation of the relationship between infrared structure and pyrolysis reactivity of coals with different ranks // Fuel. - 2018. - Vol. 216, 15 March. - P. 521-530 ; Sakurovs R., Koval L., Grigore M. et al. Nanostructure of cokes // Intern. J. of Coal Geol. - 2018. - Vol. 188, 1 March. - P. 112-120 ; Cardott B. J., Curtis M. E. Identification and nanoporosity of macerals in coal by scanning electron microscopy // Intern. J. of Coal Geol. - 2018. - Vol. 190, 1 April. - P. 205-217 .- // Кокс и химия .- 2019 .- № 6. - С. 50-54 .-
• Краткие сообщения
  Гагарин, С. Г., Dong, L., Liu, Q., He, X., Shi, L., Senneca, O., Li, Z., Wang, H., Liu, Z., Zhang, J.
  
  Краткие сообщения, реф. С. Г. Гагарин Реф. ст.: Shi N., Liu Q., He X. et al. Molecular Structure and Formation Mechanism of Hydrochar from Hydrothermal Carbonization of Carbohydrates // Energy and Fuels. 2019. Vol. 33, № 10. P. 9904-9915 ; Law J. C., Headen T. F., Jimenez-Serratos G. et al. Catalogue of Plausible Molecular Models for the Molecular Dynamics of Asphaltenes and Resins Obtained from Quantitative Molecular Representation // Energy and Fuels. 2019. Vol. 33, № 10. P. 9779-9795 ; Xu D., Shi L., Qu X. et al. Leaching Behavior of Heavy Metals from the Coal Gangue under the Impact of Site Ordovician Limestone Karst Water from Closed Shandong Coal Mines, North China // Energy and Fuels. 2019. Vol. 33, № 10. P. 10016-10028 ; Holland T., Fletcher T. H., Senneca O. Review of Carbonaceous Annealing Effects on O[2] and CO[2] Coal Reactivity // Energy and Fuels. 2019. Vol. 33, № 11. P. 10415-10434 ; Ma Z. -H., Wei X. -Y., Liu G. -H. et al. Insight into the Compositions of the Soluble/Insolube Portions from the Acid/Base Extraction of Five Fractions Distilled from a High Temperature Coal Tar // Energy and Fuels. 2019. Vol. 33, № 10. P. 10099-10107 ; Ok S., Mal T. K. NMR Spectroscopy Analysis of Asphaltenes // Energy and Fuels. 2019. Vol. 33, № 11. P. 10391-10414 ; Shang Z., Dong L., Niu L. et al. Adsorption of Methane, Nitrogen, and Carbon Dioxide in Atomic-Scale Fractal Nanopores by Monte Carlo Simulation I: Single-Component Adsorption // Energy and Fuels. 2019. Vol. 33, № 11. P. 10457-10475 ; Lv D., Li Z., Wang D. et al. Sedimentary Model of Coal and Shale in the Paleogene Lijiaya Formation of the Huangxian Basin: Insight from Petrological and Geochemical Characteristics of Coal and Shale // Energy and Fuels. 2019. Vol. 33, № 11. P. 10442-10456 ; Xuan W., Wang H., Xia L. et al. Quantitative Study of Si Structural Units in Coal Slags and Their Influence on Viscosity // Energy and Fuels. 2019. Vol. 33, № 11. P. 10593-10601 ; Liu Z., Chen D., Zhang J. et al. Combining Isotopic Geochemical Data and Logging Data to Predict the Range of the Total Gas Content in Shale: A Case Study from the Wufeng and Longmaxi Shales in the Middle Yangtze Area, South China // Energy and Fuels. 2019. Vol. 33, № 11. P. 10487-10498 .- // Кокс и химия .- 2020 .- № 11. - С. 48-52 .-
• Статистический подход к синергии данных CALIOP и наземных радиометрических станций для исследования высотных профилей параметров аэрозоля
  Чайковский, А. П., Бриль, А. И., Пещеренков, В. А., Метельская, Н. С., Малинка, А. В., Осипенко, Ф. П., Король, М. М., Podvin, T., Li, Z., Zhang, Y.
  
  Статистический подход к синергии данных CALIOP и наземных радиометрических станций для исследования высотных профилей параметров аэрозоля, А. П. Чайковский, А. И. Бриль, В. А. Пещеренков [и др.] // Журнал прикладной спектроскопии .- 2024 .- Т. 91, № 2. - С. 291-301 .-