Fatcat About Guide Changelog IA Scholar

Fast Determination and Source Apportionment of Eight Polycyclic Aromatic Hydrocarbons in PM10 Using the Chemometric-Assisted HPLC-DAD Method release_efuivh7amrh3di7bkkiglyr7ue

by Ting Hu, Yitao Xia, You Wang, Li Lin, Rong An, Ling Xu, Xiangdong Qing

Entity Metadata (schema)

abstracts[] {'sha1': '372adcffc1db52af3a7aa3ff34b1ec3a0f20d70b', 'content': "Polycyclic aromatic hydrocarbons (PAHs) are a group of organic compounds that are both toxic and hazardous to human health and ecological systems. In recent work, a novel analytical strategy based on the chemometric-assisted HPLC-DAD method was proposed for the quantification and source apportionment of eight PAHs in PM10 samples. Compared to traditional chromatographic methods, this approach does not require the purification of complex PM10 samples. Instead, it utilizes a mathematical separation method to extract analytes' profiles from overlapping chromatographic peaks, enabling precise quantification of PAHs in PM10. Firstly, 40 PM10 samples collected in Loudi city during two sampling periods were used for analysis. Subsequently, the second-order calibration method based on alternating trilinear decomposition (ATLD) was employed to handle the three-way HPLC-DAD data. Finally, the pollution sources of PAHs were analyzed by the feature component analysis method according to the obtained relative concentration matrix. For the validation model, the average recoveries of eight PAHs were between (88.8 ± 7.6)% and (105.6 ± 7.5)%, and the root-mean-square errors of prediction ranged from 0.03 μg mL−1 to 0.47 μg mL−1. The obtained limits of quantification for eight PAHs were in the range of 0.0050 μg mL−1 to 0.079 μg mL−1. For actual PM10 samples, results of the feature component analysis indicated that the main source of PAHs in PM10 may be traffic emissions and coal combustion. In summary, the proposed method provided a new and rapid analysis method for the accurate determination and source apportionment of PAHs in atmospheric aerosols.", 'mimetype': 'application/xml+jats', 'lang': None}
container {'state': 'active', 'ident': 'hkzvwfwfuzfrtilbhvg25msnia', 'revision': '27e9c6d4-a5b0-4f47-bc1e-f5a34f687b63', 'redirect': None, 'extra': {'abbrev': 'Chemosensors (Basel)', 'country': 'ch', 'default_license': 'CC-BY', 'doaj': {'archive': ['CLOCKSS'], 'as_of': '2022-07-06', 'default_license': 'CC-BY', 'seal': True}, 'kbart': {'clockss': {'year_spans': [[2013, 2022]]}}, 'languages': ['en'], 'publisher_type': 'oa', 'road': {'as_of': '2018-01-24'}, 'sherpa_romeo': {'color': 'green'}, 'urls': ['http://www.e-helvetica.nb.admin.ch/directAccess?callnumber=bel-302961', 'https://www.mdpi.com/journal/chemosensors', 'http://nbn-resolving.de/urn/resolver.pl?urn=urn:nbn:ch:bel-302961']}, 'edit_extra': None, 'name': 'Chemosensors', 'container_type': None, 'publication_status': None, 'publisher': 'MDPI AG', 'issnl': '2227-9040', 'issne': '2227-9040', 'issnp': None, 'wikidata_qid': 'Q27727256'}
container_id hkzvwfwfuzfrtilbhvg25msnia
contribs[] {'index': 0, 'creator_id': None, 'creator': None, 'raw_name': 'Ting Hu', 'given_name': 'Ting', 'surname': 'Hu', 'role': 'author', 'raw_affiliation': 'Hunan Provincial Key Laboratory of Dark Tea and Jin-hua, College of Materials and Chemical Engineering, Hunan City University, Yiyang 413000, China', 'extra': {'seq': 'first'}}
{'index': 1, 'creator_id': None, 'creator': None, 'raw_name': 'Yitao Xia', 'given_name': 'Yitao', 'surname': 'Xia', 'role': 'author', 'raw_affiliation': 'Hunan Provincial Key Laboratory of Dark Tea and Jin-hua, College of Materials and Chemical Engineering, Hunan City University, Yiyang 413000, China', 'extra': None}
{'index': 2, 'creator_id': None, 'creator': None, 'raw_name': 'You Wang', 'given_name': 'You', 'surname': 'Wang', 'role': 'author', 'raw_affiliation': 'Hunan Provincial Key Laboratory of Dark Tea and Jin-hua, College of Materials and Chemical Engineering, Hunan City University, Yiyang 413000, China', 'extra': None}
{'index': 3, 'creator_id': None, 'creator': None, 'raw_name': 'Li Lin', 'given_name': 'Li', 'surname': 'Lin', 'role': 'author', 'raw_affiliation': 'Hunan Provincial Key Laboratory of Dark Tea and Jin-hua, College of Materials and Chemical Engineering, Hunan City University, Yiyang 413000, China', 'extra': None}
{'index': 4, 'creator_id': None, 'creator': None, 'raw_name': 'Rong An', 'given_name': 'Rong', 'surname': 'An', 'role': 'author', 'raw_affiliation': 'Hunan Provincial Key Laboratory of Dark Tea and Jin-hua, College of Materials and Chemical Engineering, Hunan City University, Yiyang 413000, China', 'extra': None}
{'index': 5, 'creator_id': None, 'creator': None, 'raw_name': 'Ling Xu', 'given_name': 'Ling', 'surname': 'Xu', 'role': 'author', 'raw_affiliation': 'Hunan Provincial Key Laboratory of Dark Tea and Jin-hua, College of Materials and Chemical Engineering, Hunan City University, Yiyang 413000, China', 'extra': None}
{'index': 6, 'creator_id': None, 'creator': None, 'raw_name': 'Xiangdong Qing', 'given_name': 'Xiangdong', 'surname': 'Qing', 'role': 'author', 'raw_affiliation': 'Hunan Provincial Key Laboratory of Dark Tea and Jin-hua, College of Materials and Chemical Engineering, Hunan City University, Yiyang 413000, China', 'extra': None}
ext_ids {'doi': '10.3390/chemosensors12100220', 'wikidata_qid': None, 'isbn13': None, 'pmid': None, 'pmcid': None, 'core': None, 'arxiv': None, 'jstor': None, 'ark': None, 'mag': None, 'doaj': None, 'dblp': None, 'oai': None, 'hdl': None}
files[] {'state': 'active', 'ident': 'lz2ktl2ee5hbbnu4rybyyode3e', 'revision': '1a1383f1-3530-463a-9ed8-b5086c65542d', 'redirect': None, 'extra': None, 'edit_extra': None, 'size': 3415886, 'md5': '7745d70cc2e53f3e9c0c7e1a92482bb7', 'sha1': 'b90a574373ba8558650a13c5c0fa203e2600911a', 'sha256': '305b3c0549df10a49786dd2c7dfe5a00bd47470642cf65ce68810a30f9c2514c', 'urls': [{'url': 'https://mdpi-res.com/d_attachment/chemosensors/chemosensors-12-00220/article_deploy/chemosensors-12-00220.pdf?version=1729247047', 'rel': 'publisher'}, {'url': 'https://web.archive.org/web/20241021062104/https://mdpi-res.com/d_attachment/chemosensors/chemosensors-12-00220/article_deploy/chemosensors-12-00220.pdf?version=1729247047', 'rel': 'webarchive'}], 'mimetype': 'application/pdf', 'content_scope': None, 'release_ids': ['efuivh7amrh3di7bkkiglyr7ue'], 'releases': None}
filesets []
issue 10
language en
license_slug CC-BY
number
original_title
pages 220
publisher MDPI AG
refs[] {'index': 0, 'target_release_id': None, 'extra': {'unstructured': 'Liu, S.Z. (2008). Atmospheric PAH Contamination in the Western Watershed of Bohai Sea, China. [Ph.D. Thesis, Peking University].'}, 'key': 'ref_1', 'year': None, 'container_name': None, 'title': None, 'locator': None}
{'index': 1, 'target_release_id': None, 'extra': {'doi': '10.3390/toxics11120990', 'unstructured': 'Wittaya, T., Pavidarin, K., and Somporn, C. (2023). Impact of atmospheric conditions and source identification of gaseous polycyclic aromatichydrocarbons (PAHs) during a smoke haze period in upper southeast Asia. Toxics, 11.'}, 'key': 'ref_2', 'year': None, 'container_name': None, 'title': None, 'locator': None}
{'index': 2, 'target_release_id': None, 'extra': {'doi': '10.3390/atmos13091420', 'unstructured': 'Wang, Y., Zhang, H., Zhang, X., Bai, P.C., Zhang, L.L., Huang, S.J., Pointing, S.B., Nagao, S., Chen, B., and Toriba, A. (2022). Abundance, source apportionment and health risk assessment of polycyclic aromatic hydrocarbons and nitro-polycyclic aromatic hydrocarbons in PM2.5 in the urban atmosphere of Singapore. Atmosphere, 13.'}, 'key': 'ref_3', 'year': None, 'container_name': None, 'title': None, 'locator': None}
{'index': 3, 'target_release_id': None, 'extra': {'authors': ['Liao'], 'doi': '10.1016/j.chemosphere.2020.127518', 'volume': '259'}, 'key': 'ref_4', 'year': 2020, 'container_name': 'Chemosphere', 'title': 'Abundance and sources of benzo[a] pyrene and other PAHs in ambient air in Hong Kong: A review of 20-year measurements (1997–2016)', 'locator': '127518'}
{'index': 4, 'target_release_id': None, 'extra': {'authors': ['Famiyeh'], 'doi': '10.1016/j.scitotenv.2021.147741', 'volume': '789'}, 'key': 'ref_5', 'year': 2021, 'container_name': 'Sci. Total Environ.', 'title': 'A review on analysis methods, source identification, and cancer risk evaluation of atmospheric polycyclic aromatic hydrocarbons', 'locator': '147741'}
{'index': 5, 'target_release_id': None, 'extra': {'authors': ['Wu'], 'doi': '10.1016/j.uclim.2024.102108', 'volume': '57'}, 'key': 'ref_6', 'year': 2024, 'container_name': 'Urban Clim.', 'title': 'Risks and sources of atmospheric particulate-bound polycyclic aromatic hydrocarbons (AP-PAHs) in seven regions of China: A review', 'locator': '102108'}
{'index': 6, 'target_release_id': None, 'extra': {'authors': ['Bozek'], 'doi': '10.1016/j.atmosenv.2015.11.018', 'volume': '126'}, 'key': 'ref_7', 'year': 2016, 'container_name': 'Atmos. Environ.', 'title': 'Polycyclic aromatic hydrocarbon adsorption on selected solid particulate matter fractions', 'locator': '128'}
{'index': 7, 'target_release_id': None, 'extra': {'authors': ['Abbas'], 'doi': '10.1007/s10311-017-0697-0', 'volume': '16'}, 'key': 'ref_8', 'year': 2018, 'container_name': 'Environ. Chem. Lett.', 'title': 'Polycyclic aromatic hydrocarbon derivatives in airborne particulate matter: Sources, analysis and toxicity', 'locator': '439'}
{'index': 8, 'target_release_id': None, 'extra': {'authors': ['Krzyszczak'], 'doi': '10.1016/j.scitotenv.2021.147738', 'volume': '788'}, 'key': 'ref_9', 'year': 2021, 'container_name': 'Sci. Total Environ.', 'title': 'Occurrence and toxicity of polycyclic aromatic hydrocarbons derivatives in environmental matrices', 'locator': '147738'}
{'index': 9, 'target_release_id': None, 'extra': {'authors': ['Vosough'], 'doi': '10.1002/cem.2976', 'volume': '32'}, 'key': 'ref_10', 'year': 2018, 'container_name': 'J. Chemom.', 'title': 'Current challenges in second-order calibration of hyphenated chromatographic data for analysis of highly complex samples', 'locator': 'e2976'}
{'index': 10, 'target_release_id': None, 'extra': {'authors': ['Dogra'], 'doi': '10.1080/10408347.2022.2042671', 'volume': '53'}, 'key': 'ref_11', 'year': 2023, 'container_name': 'Crit. Rev. Anal. Chem.', 'title': 'Derivatization, an applicable asset for conventional HPLC systems without MS detection in food and miscellaneous analysis', 'locator': '1807'}
{'index': 11, 'target_release_id': None, 'extra': {'authors': ['Santanatoglia'], 'doi': '10.1016/j.jfca.2023.105732', 'volume': '125'}, 'key': 'ref_12', 'year': 2024, 'container_name': 'J. Food Compos. Anal.', 'title': 'Development of new analytical methods for the quantification of organic acids, chlorogenic acids and caffeine in espresso coffee by using solid-phase extraction (SPE) and high-performance liquid chromatography-diode array detector (HPLC-DAD)', 'locator': '105732'}
{'index': 12, 'target_release_id': None, 'extra': {'doi': '10.1016/j.jpba.2023.115642', 'unstructured': 'Lovato, G., Ciriolo, L., Perrucci, M., Federici, L., Ippoliti, R., Iacobelli, S., Capone, E., Locatelli, M., and Sala, G. (2023). HPLC-DAD validated method for DM4 and its metabolite S-Me-DM4 quantification in biological matrix for clinical and pharmaceutical applications. J. Pharm. Biomed. Anal., 235.'}, 'key': 'ref_13', 'year': None, 'container_name': None, 'title': None, 'locator': None}
{'index': 13, 'target_release_id': None, 'extra': {'doi': '10.1016/j.measurement.2022.111242', 'volume': '196'}, 'key': 'ref_14', 'year': 2022, 'container_name': 'Measurement', 'title': 'Monitoring of PAHs in simulated natural and artificial fires by HPLC-DAD-FLD with the application of Multi-Component Integrated calibration method to improve quality of analytical results', 'locator': '111242'}
{'index': 14, 'target_release_id': None, 'extra': {'authors': ['Escandar'], 'doi': '10.1016/j.microc.2021.106016', 'volume': '164'}, 'key': 'ref_15', 'year': 2021, 'container_name': 'Microchem. J.', 'title': 'Multi-way calibration for the quantification of polycyclic aromatic hydrocarbons in samples of environmental impact', 'locator': '106016'}
{'index': 15, 'target_release_id': None, 'extra': {'authors': ['Qing'], 'doi': '10.1016/j.aca.2014.12.037', 'volume': '861'}, 'key': 'ref_16', 'year': 2015, 'container_name': 'Anal. Chim. Acta', 'title': 'A novel fourth-order calibration method based on alternating quinquelinear decomposition algorithm for processing high performance liquid chromatography-diode array detection-kinetic-pH data of naptalam hydrolysis', 'locator': '12'}
{'index': 16, 'target_release_id': None, 'extra': {'authors': ['Qing'], 'doi': '10.1360/n032015-00093', 'volume': '46'}, 'key': 'ref_17', 'year': 2016, 'container_name': 'Sci. Sin. Chim.', 'title': 'A new alternating weighted quadrilinear decomposition algorithm with application for analysis of non-quinquelinear five-way data arrays', 'locator': '401'}
{'index': 17, 'target_release_id': None, 'extra': {'doi': '10.3390/molecules26216357', 'unstructured': 'Chiappini, F.A., Alcaraz, M.R., Escandar, G.M., Goicoechea, H.C., and Olivieri, A.C. (2021). Chromatographic applications in the multi-way calibration field. Molecules, 26.'}, 'key': 'ref_18', 'year': None, 'container_name': None, 'title': None, 'locator': None}
{'index': 18, 'target_release_id': None, 'extra': {'authors': ['Wu'], 'doi': '10.1016/j.microc.2020.105575', 'volume': '159'}, 'key': 'ref_19', 'year': 2020, 'container_name': 'Microchem. J.', 'title': 'Recent applications of multiway calibration methods in environmental analytical chemistry: A review', 'locator': '105575'}
{'index': 19, 'target_release_id': None, 'extra': {'doi': '10.3390/chemosensors11010053', 'unstructured': 'Qing, X.D., Zhang, X.H., An, R., Zhang, J., Xu, L., and Duponchel, L. (2023). A fast and robust third-order multivariate calibration approach coupled with excitation-emission matrix phosphorescence for the quantification and oxidation kinetic study of fluorene in wastewater samples. Chemosensors, 11.'}, 'key': 'ref_20', 'year': None, 'container_name': None, 'title': None, 'locator': None}
{'index': 20, 'target_release_id': None, 'extra': {'authors': ['Wells'], 'doi': '10.1016/j.scitotenv.2023.163937', 'volume': '886'}, 'key': 'ref_21', 'year': 2023, 'container_name': 'Sci. Total Environ.', 'title': 'Application of a fluorescence EEM-PARAFAC model for direct and indirect potable water reuse monitoring: Multi-stage oarea-biofiltration without reverse osmosis at Gwinnett County, Georgia, USA', 'locator': '163937'}
{'index': 21, 'target_release_id': None, 'extra': {'authors': ['Cavaglia'], 'doi': '10.1016/j.foodcont.2022.109269', 'volume': '142'}, 'key': 'ref_22', 'year': 2022, 'container_name': 'Food Control', 'title': 'Detection of bacterial spoilage during wine alcoholic fermentation using ATR-MIR and MCR-ALS', 'locator': '109269'}
{'index': 22, 'target_release_id': None, 'extra': {'authors': ['Wu'], 'doi': '10.1002/(sici)1099-128x(199801/02)12:1<1::aid-cem492>3.0.co;2-4', 'volume': '12'}, 'key': 'ref_23', 'year': 1998, 'container_name': 'J. Chemom.', 'title': 'An alternating trilinear decomposition algorithm with application to calibration of HPLC-DAD for simultaneous determination of overlapped chlorinated aromatic hydrocarbons', 'locator': '1'}
{'index': 23, 'target_release_id': None, 'extra': {'authors': ['Yu'], 'volume': '1'}, 'key': 'ref_24', 'year': 2017, 'container_name': 'J. Spectrosc.', 'title': 'Detection of water contamination events using fluorescence spectroscopy and alternating trilinear decomposition algorithm', 'locator': '1485048'}
{'index': 24, 'target_release_id': None, 'extra': {'authors': ['Tan'], 'doi': '10.1021/jf2023325', 'volume': '59'}, 'key': 'ref_25', 'year': 2011, 'container_name': 'J. Agric. Food Chem.', 'title': 'Simultaneous determination of free amino acid content in tea infusions by using high-performance liquid chromatography with fluorescence detection coupled with alternating penalty trilinear decomposition algorithm', 'locator': '10839'}
{'index': 25, 'target_release_id': None, 'extra': {'authors': ['Yan'], 'doi': '10.1002/jsfa.10481', 'volume': '100'}, 'key': 'ref_26', 'year': 2020, 'container_name': 'J. Sci. Food Agric.', 'title': 'Simultaneous and rapid determination of sesamin and sesamolin in sesame oils using excitation-emission matrix fluorescence coupled with self-weighted alternating trilinear decomposition', 'locator': '4418'}
{'index': 26, 'target_release_id': None, 'extra': {'authors': ['Zhang'], 'doi': '10.1016/j.fochx.2023.100766', 'volume': '19'}, 'key': 'ref_27', 'year': 2023, 'container_name': 'Food Chem. X', 'title': 'Aqueous two-phase systems coupled with chemometrics-enhanced HPLC-DAD for simultaneous extraction and determination of flavonoids in honey', 'locator': '100766'}
{'index': 27, 'target_release_id': None, 'extra': {'authors': ['Reguera'], 'doi': '10.1016/j.fpsl.2021.100664', 'volume': '28'}, 'key': 'ref_28', 'year': 2021, 'container_name': 'Food Packag. Shelf Life', 'title': 'Determination of polymer additive residues that migrate from coffee capsules by means of stir bar sorptive extraction-gas chromatography-mass spectrometry and PARAFAC decomposition', 'locator': '100664'}
{'index': 28, 'target_release_id': None, 'extra': {'authors': ['Chen'], 'doi': '10.1016/j.saa.2021.120267', 'volume': '264'}, 'key': 'ref_29', 'year': 2021, 'container_name': 'Spectrochim. Acta A', 'title': 'Quantitative analysis of carbaryl and thiabendazole in complex matrices using excitation-emission fluorescence matrices with second-order calibration methods', 'locator': '120267'}
{'index': 29, 'target_release_id': None, 'extra': {'authors': ['Rasmus'], 'doi': '10.1002/cem.801', 'volume': '17'}, 'key': 'ref_30', 'year': 2003, 'container_name': 'J. Chemom.', 'title': 'A new efficient method for determining the number of components in PARAFAC models', 'locator': '274'}
{'index': 30, 'target_release_id': None, 'extra': {'authors': ['Xing'], 'doi': '10.1016/j.jes.2021.08.046', 'volume': '121'}, 'key': 'ref_31', 'year': 2022, 'container_name': 'J. Environ. Sci.', 'title': 'Variations in traffic-related polycyclic aromatic hydrocarbons in PM2.5 in Kanazawa, Japan, after the implementation of a new vehicle emission regulation', 'locator': '38'}
{'index': 31, 'target_release_id': None, 'extra': {'authors': ['Najmeddin'], 'doi': '10.1007/s10653-018-0209-6', 'volume': '41'}, 'key': 'ref_32', 'year': 2019, 'container_name': 'Environ. Geochem. Health', 'title': 'Health risk assessment and source apportionment of polycyclic aromatic hydrocarbons associated with PM10 and road deposited dust in Ahvaz metropolis of Iran', 'locator': '1267'}
{'index': 32, 'target_release_id': None, 'extra': {'authors': ['Wu'], 'doi': '10.1016/j.scitotenv.2015.07.101', 'volume': '536'}, 'key': 'ref_33', 'year': 2015, 'container_name': 'Sci. Total Environ.', 'title': 'Characterization of particulate-bound PAHs in rural households using different types of domestic energy in Henan Province, China', 'locator': '840'}
{'index': 33, 'target_release_id': None, 'extra': {'authors': ['Giandomenico'], 'doi': '10.1016/j.fct.2023.113606', 'volume': '173'}, 'key': 'ref_34', 'year': 2023, 'container_name': 'Food Chem. Toxicol.', 'title': 'Effect of in-house cooking in Mytilus galloprovincialis and Trachurus trachurus: Lipid and fatty acids quality and polycyclic aromatic hydrocarbons formation', 'locator': '113606'}
{'index': 34, 'target_release_id': None, 'extra': {'authors': ['Fakinle'], 'doi': '10.1016/j.heliyon.2022.e09113', 'volume': '8'}, 'key': 'ref_35', 'year': 2022, 'container_name': 'Heliyon', 'title': 'Quantification and health impact assessment of polycyclic aromatic hydrocarbons (PAHs) emissions from crop residue combustion', 'locator': 'e09113'}
{'index': 35, 'target_release_id': None, 'extra': {'authors': ['Forcada'], 'doi': '10.1016/j.heliyon.2023.e20977', 'volume': '9'}, 'key': 'ref_36', 'year': 2023, 'container_name': 'Heliyon', 'title': "Industrial impact on sustainable dairy farms: Essential elements, hazardous metals and polycyclic aromatic hydrocarbons in forage and cow's milk", 'locator': 'e20977'}
release_date 2024-10-18
release_stage published
release_type article-journal
release_year 2024
subtitle
title Fast Determination and Source Apportionment of Eight Polycyclic Aromatic Hydrocarbons in PM10 Using the Chemometric-Assisted HPLC-DAD Method
version
volume 12
webcaptures []
withdrawn_date
withdrawn_status
withdrawn_year
work_id 7vvw4q6g5ng65oe7tobkolqm2m
As JSON via API

Extra Metadata (raw JSON)

crossref.alternative-id ['chemosensors12100220']
crossref.funder [{'award': ['21707032'], 'name': 'National Natural Science Foundation of China'}, {'award': ['21B0720'], 'name': 'Research Foundation of the Education Bureau of Hunan Province, China'}]
crossref.license [{'URL': 'https://creativecommons.org/licenses/by/4.0/', 'content-version': 'vor', 'delay-in-days': 0, 'start': '2024-10-18T00:00:00Z'}]
crossref.type journal-article