AI Website GeneratorПубликаций в журналах из первых квартилей - 28; вторых - 6, третьих - 17, четвертых - 2. Количество цитирований в базе Web of Science (Core Collection) - 1079. Индекс Хирша - 19. Нормализованная по категории цитируемость - 0,99. Данные приведены на 21 марта 2024 г.
2023:
1) Ibragimova O.P., Omarova A., Bukenov B., Baimatova N., 2023. Solid-phase microextraction for the quantification of acetophenone migrated to air and water from toys and school supplies. Journal of Analytical Chemistry 78, 1414–1425. (31-й процентиль по CiteScore в Scopus по категории Analytical Chemistry)
2) Ogbuabia T.B., Guney M., Baimatova N., Ulusoy I., Karaca F., 2023. Assessing the impact of combined heat and power plants (CHPPs) in Central Asia: A case study in Almaty for PM2.5 simulations using WRF-AERMOD and ground level verification. Atmosphere 14(10), 1554. (IF=2.9, третий квартиль в разделе "Environmental Sciences")
3) Tursumbayeva M., Muratuly A., Baimatova N., Karaca F., Kerimray A., 2023. Cities of Central Asia: New hotspots of air pollution in the world. Atmospheric Environment 309, 119901. (IF=5, первый квартиль в разделе "Meteorology & Atmospheric Sciences")
4) Mukhtarov R., Ibragimova O.P., Omarova A., Tursumbayeva M., Tursun K., Muratuly A., Karaca F., Baimatova N. An episode-based assessment for the adverse effects of air mass trajectories on PM2.5 levels in Astana and Almaty, Kazakhstan. Urban Climate 49, 101541. (IF=6.4, первый квартиль в разделе "Environmental Sciences")
5) Omarova A., Baimatova N., Kazemian H., 2023. MOF-199-based coatings as SPME fiber for measurement of volatile organic compounds in air samples: Optimization of in situ deposition parameters. Microchemical Journal 185, 108263. (IF=4.8, первый квартиль в разделе "Chemistry, Analytical")
2022:
1) Bukenov B., Baimatova N, Kenessov B., 2022. Quantification of transformation products of rocket fuel unsymmetrical dimethylhydrazine in air using solid-phase microextraction. Journal of Separation Science 45, 614-622. (IF=3.645, второй квартиль в разделе "Chemistry, Analytical")
2) Kapar A., Muratuly A., Orazbayeva D., Bakaikina N.V., Bukenov B.O., Kenessov B., 2022. Modeling the effect of temperature on solid-phase microextraction of volatile organic compounds from air by polydimethylsiloxane coating using finite element analysis. Analytica Chimica Acta 1195, 339431. (IF=6.558, первый квартиль в разделе "Chemistry, Analytical") Заметка про статью
3) Alipuly A., Ibraimov A., Alimzhanova M., Mamedova M., 2022. Natural Material Shungite as Solid-Phase Extraction Sorbent for the Extraction of Red Synthetic Dye Ponceau 4R from Tap Water, Wine, and Juice. Food Analytical Methods 15, 707-716. (IF=3.366, второй квартиль в разделе "Food Science and Technology")
4) Zhakupbekova A., Baimatova N., Psillakis E., Kenessov B., 2022. Quantification of trace transformation products of rocket fuel unsymmetrical dimethylhydrazine in sand using vacuum-assisted headspace solid-phase microextraction. Environmental Science and Pollution Research 29, 33645–33656. (IF=4.223, второй квартиль в разделе "Environmental Sciences")
5) Tursumbayeva M., Kerimray A., Karaca F., Permadi D.A., 2022. Planetary Boundary Layer and its Relationship with PM2.5 Concentrations in Almaty, Kazakhstan. Aerosol and Air Quality Research. https://doi.org/10.4209/aaqr.210294 (IF = 3.063, третий квартиль в разделе "Environmental Sciences"). Заметка про статью
6) Syrgabek Y., Alimzhanova M., 2022. Modern Analytical Methods for the Analysis of Pesticides in Grapes: A Review. Foods 11, 1623. (IF = 4.35, второй квартиль в разделе "Food Science & Technology")
7) Alimzhanova M., Mamedova M., Ashimuly K., Alipuly A., Adilbekov Y., 2022. Miniaturized solid-phase microextraction coupled with gas chromatography-mass spectrometry for determination of endocrine disruptors in drinking water. Food Chemistry X 14, 100345. (IF = 5.182, первый квартиль в разделе "Chemistry, Applied")
8) Omarova A., Bakaikina N.V., Muratuly A., Kazemian H., Baimatova N., 2022. A review on preparation methods and applications of metal–organic framework-based solid-phase microextraction coatings. Michrochemical Journal 175, 107147. (IF=4.821, первый квартиль в разделе "Chemistry, Analytical")
9) Muratuly A., Kapar A., Kenessov B., 2022. Modeling headspace solid-phase microextraction of volatile organic compounds from water samples with porous coatings using finite element analysis, Advances in Sample Preparation 3, 100030. Заметка про статью
10) Baimatova N., Omarova A., Muratuly A., Tursumbayeva M., Ibragimova O.P., Bukenov B., Kerimray A., 2023. Seasonal Variations and Effect of COVID-19 Lockdown Restrictions on the Air Quality in the Cities of Kazakhstan. Environmental Processes 9(3), 48. (67-й процентиль по CiteScore в Scopus по категории Pollution)
2021:
1) Azhgaliyeva D., Mishra R., Karymshakov K., Kerimray A., Kapsalyamova Z., 2021. What determines coal consumption for residential heating in Kazakhstan and the Kyrgyz Republic? Australasian Journal of Environmental Management 28, 410-432. (IF=1.833, четвертый квартиль в разделе "Environmental Studies")
2) Assanov D., Zapasnyi V., Kerimray A., 2021. Air quality and industrial emissions in the cities of Kazakhstan. Atmosphere 12, 314. (IF=2.397, третий квартиль в разделе "Meteorology & Atmospheric Sciences")
3) Omarova A., Baizhan A., Baimatova N., Kenessov B., Kazemian H., 2021. New in situ solvothermally synthesized metal-organic framework MOF-199 coating for solid-phase microextraction of volatile organic compounds from air samples. Microporous and Mesoporous Materials 328, 111493. (IF=5.455, первый квартиль в разделе "Chemistry, Applied")
4) Omarova A., Ibragimova O. P., Bukenov B., Abilda A., Orazbayeva D. Baimatova N., 2021. Determination of 1,3-Butadiene Migrated from Butadiene-Based Polymers to Air and Water Using Sorbent Tubes and Purge-and-Trap. Chromatographia 84, 1105 - 1112. (IF=2.044, третий квартиль в разделе "Chemistry, Analytical")
5) Ibragimova O.P., Omarova A., Bukenov B., Zhakupbekova A., Baimatova N., 2021. Seasonal and Spatial Variation of Volatile Organic Compounds in Ambient Air of Almaty City, Kazakhstan. Atmosphere 12, 1592. (IF=2.686, третий квартиль в разделе "Environmental Sciences")
6) Ul'yanovskii N.V., Kosyakov D.S., Popov M.S., Shavrina I.S., Ivakhnov A.D., Kenessov B., Lebedev A.T., 2021. Rapid quantification and screening of nitrogen-containing rocket fuel transformation products by vortex assisted liquid-liquid microextraction and gas chromatography – high-resolution Orbitrap mass spectrometry. Microchemical Journal 171, 106821. (IF=4.821, первый квартиль в разделе "Chemistry, Analytical")
7) Kapsalyamova Z., Mishra R., Kerimray A., Karymshakov K., Azhgaliyeva D., 2021. Why energy access is not enough for choosing clean cooking fuels? Evidence from the multinomial logit model. Journal of Environmental Management 290, 112539. (IF=5.647, первый квартиль в разделе "Environmental Sciences")
2020:
1) Kerimray A., Assanov D., Kenessov B., Karaca F., 2020. Trends and health impacts of major urban air pollutants in Kazakhstan. Journal of the Air & Waste Management Association 70, 1148-1164. (IF=2.245, третий квартиль в разделе "Environmental Sciences")
2) Orazbayeva D., Koziel J.A., Trujillo-Rodriguez M., Anderson J., Kenessov B., 2020. Polymeric ionic liquid sorbent coatings in headspace solid-phase microextraction: A green sample preparation technique for the determination of pesticides in soil. Microchemical Journal 157, 104996. (IF=3.594, первый квартиль в разделе "Chemistry, Analytical")
3) Kerimray A., Baimatova N, Ibragimova O.P., Bukenov B., Kenessov B., Alimbayeva D., Karaca F., 2020. Assessing air quality changes in large cities during COVID-19 lockdowns: The impacts of traffic-free urban conditions in Almaty, Kazakhstan. Science of the Total Environment 730, 139179. (IF=6.551, первый квартиль в разделе "Environmental Sciences")
4) Kerimray A., Azbanbayev E., Kenessov B., Plotitsyn P., Alimbayeva D., Karaca F., 2020. Spatiotemporal Variations and Contributing Factors of Air Pollutants in Almaty, Kazakhstan. Aerosol and Air Quality Research 20, 1340-1352. (IF=2.735, второй квартиль в разделе "Environmental Sciences")
2019:
1) Ibragimova O.P., Baimatova N., Kenessov B., 2019. Low-cost quantitation of multiple volatile organic compounds in air using solid-phase microextraction. Separations 6, 51. (IF=1.9, третий квартиль в разделе "Chemistry, Analytical")
2) Kenessov B., Derbissalin M., Koziel J.A., Kosyakov D.S., 2019. Modeling solid-phase microextraction of volatile organic compounds by porous coatings using finite element analysis. Analytica Chimica Acta 1076, 73-81. (IF=5.977, первый квартиль в разделе "Chemistry, Analytical")
3) Zhakupbekova A., Baimatova N., Kenessov B., 2019. A critical review of vacuum-assisted headspace solid-phase microextraction for environmental analysis. Trends in Environmental Analytical Chemistry 22, e00065. (IF=7.059, первый квартиль в разделе "Chemistry, Analytical").
4) Kosyakov D.S., Ul'yanovskii N.V., Pikovskoi I.I., Kenessov B., Bakaikina N.V., Zhubatov Z., 2019. Effects of oxidant and catalyst on the transformation products of rocket fuel 1,1-dimethylhydrazine in water and soil. Chemosphere 228, 335-344. (IF=5.778, первый квартиль в разделе "Environmental Sciences")
5) Nurzhanova A., Pidlisnyuk V., Abit K., Nurzhanov C., Kenessov B., Stefanovska T., Erickson L., 2019. Comparative assessment of using Miscanthus × giganteus for remediation of soils contaminated by heavy metals: a case of military and mining sites. Environmental Science and Pollution Research 26, 13320-13333 (IF=3.056, второй квартиль в разделе "Environmental Sciences")
2018:
1) Tursumbayeva M., Koziel J.A., Maurer D., Kenessov B., Rice S., 2018. Development of time-weighted average sampling of odorous volatile organic compounds in air with solid-phase microextraction fiber housed inside a GC glass liner: Proof of concept. Molecules 24, 406. (IF=3.267, второй квартиль в разделе "Chemistry, Multidisciplinary").
2) Kenessov B., Koziel J.A., Baimatova N., Demyanenko O.P., Derbissalin M., 2018. Optimization of time-weighted average air sampling by solid-phase microextraction fibers using finite element analysis software. Molecules 23, 2736. (IF=3.267, второй квартиль в разделе "Chemistry, Multidisciplinary").
3) Orazbayeva D., Kenessov B., Psillakis E., Nassyrova D., Bektassov M. Determination of transformation products of unsymmetrical dimethylhydrazine in water using vacuum-assisted headspace solid-phase microextraction. Journal of Chromatography A 1555, 30-36. (IF=4.049, первый квартиль в разделе "Chemistry, Analytical").
4) Bakaikina N.V., Kenessov B., Ul'yanovskii N.V., Kosyakov D.S., 2018. Quantification of transformation products of rocket fuel unsymmetrical dimethylhydrazine in soils using SPME and GC-MS. Talanta 184, 332-337. (IF=5.339, первый квартиль в разделе "Chemistry, Analytical")
5) Carlsen L., Bruggemann R., Kenessov B., 2018. Use of partial order in environmental pollution studies demonstrated by urban BTEX air pollution in 20 major cities worldwide. Science of the Total Environment 610-611, 234-243. (IF=6.551, первый квартиль в разделе "Environmental Sciences")
2017:
1) Orazbayeva D., Kenessov B., Koziel J.A., Nassyrova D., Lyabukhova N.V., 2017. Quantification of BTEX in soil by headspace SPME-GC-MS using combined standard addition and internal standard calibration. Chromatographia 80, 1249-1256. (IF=1.596, третий квартиль в разделе "Chemistry, Analytical")
2) Baimatova N., Koziel J.A., Kenessov B., 2017. Sampling and analysis of naphthalene in internal combustion engine exhaust with retracted SPME device and GC-MS. Atmosphere 8, 130. (IF=2.397, третий квартиль в разделе "Meteorology & Atmospheric Sciences")
3) Bakaikina N.V., Kenessov B.N., Ul’yanovskii N.V., Kosyakov D.S., Pokryshkin S.A., Derbissalin M.A., Zhubatov Z.K., 2017. Quantification of transformation products of unsymmetrical dimethylhydrazine in water using SPME and GC-MS. Chromatographia 80, 931-940. (IF=1.596, третий квартиль в разделе "Chemistry, Analytical")
4) Sagandykova G.N., Alimzhanova M.B., Nurzhanova Y.T., Kenessov B., 2017 Determination of semi-volatile additives in wines using SPME and GC-MS. Food Chemistry 220, 162-167. (IF=6.306, первый квартиль в разделе "Food Science and Technology")
2016:
1) Kenessov B., Koziel J., Bakaikina N.V., Orazbayeva D., 2016. Perspectives and challenges of on-site quantification of organic pollutants in soils using solid-phase microextraction. Trends in Analytical Chemistry 85, Part A, 111-122. (IF=9.801, первый квартиль в разделе "Chemistry, Analytical")
2) Sailaukhanuly Y., Carlsen L., Tulegenov A., Nurzhanova A., Kenessov B., Kamysbayev D., 2016. Distribution and risk assessment of selected organochlorine pesticides in Kyzyl Kairat village from Kazakhstan. Environmental Monitoring and Assessment 188, 358. (IF=1.903, третий квартиль в разделе "Environmental Sciences")
3) Baimatova N., Kenessov B., Koziel J.A., Carlsen L., Bektassov M., Demyanenko O., 2016. Simple and accurate quantification of BTEX in ambient air by SPME and GC-MS. Talanta 154, 46-52. (IF=5.339, первый квартиль в разделе "Chemistry, Analytical")
4) Zhubatov Z.K., Kenessov B., Bakaikina N.V., Bimaganbetova A.O., Akynbayev N., Bakhytkyzy I., 2016. Fast determination of 1-methyl-1H-1,2,4-triazole in soils contaminated by rocket fuel using solvent extraction, isotope dilution and GC-MS. Chromatographia 79, 491-499. (IF=1.402, третий квартиль в разделе "Chemistry, Analytical")
2015:
1) Yegemova S., Bakaikina N.V., Kenessov B., Koziel J., Nauryzbayev M., 2015. Determination of 1-methyl-1H-1,2,4-triazole in soils contaminated by rocket fuel using solid-phase microextraction, isotope dilution and gas chromatography - mass spectrometry. Talanta 143, 226-233. (IF=5.339, первый квартиль в разделе "Chemistry, Analytical")
2) Baimatova N., Koziel J., Kenessov B., 2015. Quantification of benzene, toluene, ethylbenzene and o-xylene in internal combustion engine exhaust with time-weighted average solid phase microextraction and gas chromatography mass spectrometry. Analytica Chimica Acta 873, 38-50. (IF=5.977, первый квартиль в разделе "Chemistry, Analytical")
2014:
Sailaukhanuly Ye., Sarossy Z., Carlsen L., Egsgaard H., 2014. Mechanistic aspects of the nucleophilic substitution of pectin. On the formation of chloromethane. Chemosphere 111, 575-579. (IF=5.778, первый квартиль в разделе "Environmental Sciences")
2013:
1) Carlsen L., Bruggermann R., Sailaukhanuly Ye., 2013. Application of selected partial order tools to analyze fate and toxicity indicators of environmentally hazardous chemicals. Ecological Indicators 29, 191-202. (IF=4.229, первый квартиль в разделе "Environmental Sciences")
2) Sailaukhanuly Ye., Zhakupbekova A., Amutova F., Carlsen L., 2013. On the ranking of chemicals based on their PBT characteristics: Comparison of different ranking methodologies using selected POPs as an illustrative example. Chemosphere 90, 112-117. (IF=5.778, первый квартиль в разделе "Environmental Sciences")
2012:
Kenessov B., Alimzhanova M., Sailaukhanuly Ye., Baimatova N., Abilev M., Batyrbekova S., Carlsen L., Tulegenov A., Nauryzbayev M., 2012. Transformation products of 1,1-dimethylhydrazine and their distribution in soils of fall places of rocket carriers in Central Kazakhstan. Science of the Total Environment 427-428, 78-85. (IF=6.551, первый квартиль в разделе "Environmental Sciences")
2011:
Kenessov B., Sailaukhanuly Ye., Koziel J.A., Carlsen L., Nauryzbayev M., 2011. GC-MS and GC-NPD Determination of Formaldehyde Dimethylhydrazone in Water Using SPME. Chromatographia 73, 123-128. (IF=1.596, третий квартиль в разделе "Chemistry, Analytical")
2010:
Kenessov B.N., Koziel J.A., Grotenhuis T., Carlsen L., 2010. Screening of transformation products in soils contaminated with unsymmetrical dimethylhydrazine using SPME and GC-MS. Analytica Chimica Acta 674, 32-39. (IF=5.977, первый квартиль в разделе "Chemistry, Analytical")
2009:
1) Carlsen L., Kenessov B.N., Batyrbekova S.Ye., Kolumbaeva S.Zh., Shalakhmetova T.M., 2009. Assessment of the mutagenic effect of 1,1-dimethylhydrazine. Environmental Toxicology and Pharmacology 28, 448-452. (IF=3.292, второй квартиль в разделе "Environmental Sciences")
2) Carlsen L., Kenessov B.N., Batyrbekova S.Ye., 2009. A QSAR/QSTR study on the human health impact by the rocket fuel 1,1-dimethylhydrazine and its transformation products. Environmental Toxicology and Pharmacology 27, 415-423. (IF=3.292, второй квартиль в разделе "Environmental Sciences")
2008:
Kenessov, B., Batyrbekova, S., Nauryzbayev, M., Bekbassov, T.,Alimzhanova, M., Carlsen, L., 2008. GC-MS Determination of 1-methyl-1H-1,2,4-triazole in soils affected by rocket fuel spills in Central Kazakhstan. Chromatographia 67, 421-424. (IF=1.596, третий квартиль в разделе "Chemistry, Analytical")
2007:
1) Carlsen L., Kenessova O., Batyrbekova S., 2007. A preliminary assessment of the potential environmental and human health impact of unsymmetrical dimethylhydrazine as a result of space activities. Chemosphere 67, 1108-1116. (IF=5.778, первый квартиль в разделе "Environmental Sciences")
2) Sadyrbekov D.T., Ryazantsev O.G., Kenessov B., Raldugin V.A., Atazhanova G.A., Adekeno S.M., 2007. Spectral properties of methyl-2-cis-lachnophyllate. Chemistry of Natural Compounds 42, 493-494. (IF=0.653, четвертый квартиль в разделе "Chemistry, Organic")
Примечание: первый квартиль - лучшие 25% журналов в базе Journal Citations Reports (Web of Science, Thomson Reuters) по импакт-фактору.
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