Adsorption Characteristics of Cetirizine on Graphene Oxide

by Tuhin Bhattacharjee, Arnab Bhattacharjee, Deepmoni Deka, Mihir Kumar Purkait, Devasish Chowdhury, Gitanjali Majumdar

Entity Metadata (schema)

`abstracts[]`	{'sha1': 'e133f5f5211cbca0cd1320dcf147330e4019ca1e', 'content': "Water pollution caused by emerging contaminants such as pharmaceutical compounds is a growing problem worldwide. In this reported work, graphene oxide (GO) was directly used to remove an antihistamine drug, cetirizine. GO was prepared from graphite using a modified Hummer's method and was characterized by UV–vis spectroscopy, Fourier-transformed infrared spectroscopy (FTIR), thermogravimetric analyzer (TGA), field scanning electron microscope (FE-SEM), transmission electron microscope (TEM), X-ray diffraction (XRD), etc. GO was demonstrated to be a highly efficient adsorbent for removing cetirizine from an aqueous solution. The adsorption of cetirizine on GO at various pH levels showed that in acidic pH with the adsorption shows faster kinetics and complete removal of cetirizine within 10 min, followed by neutral pH, which showed relatively slower kinetics but complete removal of cetirizine. However, at basic pH, GO could not completely remove cetirizine after 24 h. At a neutral pH, GO showed maximum adsorption of 81.30 mg g−1 of cetirizine. The adsorption isotherm results showed good agreement with the Langmuir isotherm. The BET surface area analysis showed the presence of mesoporosity in GO. In addition, the BET analysis further revealed a type IV isotherm curve being followed. A plausible mechanism is also discussed in the paper. The recyclability experiment demonstrates an adsorption efficiency of 85% after four cycles. The thermodynamic study reveals that adsorption is thermodynamically less favorable at higher temperatures. Hence, the current study successfully demonstrates the use of GO as an efficient adsorbent in removing cetirizine. It also studies the various factors and interactions affecting adsorption. Thus, this study sheds light on the adsorption characteristics of cetirizine on graphene oxide.", 'mimetype': 'application/xml+jats', 'lang': None}
`container`	{'state': 'active', 'ident': 'j6tmua55wbdunddrpil6xnyr7u', 'revision': 'a828d8df-df97-440b-b092-003e086b22f0', 'redirect': None, 'extra': {'country': 'ch', 'doaj': {'archive': ['CLOCKSS'], 'as_of': '2022-07-06', 'default_license': 'CC-BY', 'seal': False}, 'kbart': {'clockss': {'year_spans': [[2020, 2022]]}}, 'languages': ['en'], 'publisher_type': 'oa', 'urls': ['https://www.mdpi.com/journal/suschem', 'http://nbn-resolving.de/urn/resolver.pl?urn=urn:nbn:ch:bel-1664477']}, 'edit_extra': None, 'name': 'Sustainable Chemistry', 'container_type': 'journal', 'publication_status': None, 'publisher': 'MDPI AG', 'issnl': '2673-4079', 'issne': '2673-4079', 'issnp': None, 'wikidata_qid': 'Q96733606'}
`container_id`	`j6tmua55wbdunddrpil6xnyr7u`
`contribs[]`	{'index': 0, 'creator_id': None, 'creator': None, 'raw_name': 'Tuhin Bhattacharjee', 'given_name': 'Tuhin', 'surname': 'Bhattacharjee', 'role': 'author', 'raw_affiliation': 'Department of Chemistry, Assam Engineering College, Guwahati 781013, India', 'extra': {'more_affiliations': ['Department of Chemistry, Assam Science and Technology University, Tetelia Road, Jalukbari, Guwahati 781013, India'], 'seq': 'first'}} {'index': 1, 'creator_id': None, 'creator': None, 'raw_name': 'Arnab Bhattacharjee', 'given_name': 'Arnab', 'surname': 'Bhattacharjee', 'role': 'author', 'raw_affiliation': 'Department of Chemistry, Assam Engineering College, Guwahati 781013, India', 'extra': None} {'index': 2, 'creator_id': '63c7ynu4ungpbp3rborupki6uy', 'creator': {'state': 'active', 'ident': '63c7ynu4ungpbp3rborupki6uy', 'revision': '63783855-8427-482e-9b62-3b0c513be575', 'redirect': None, 'extra': None, 'edit_extra': None, 'display_name': 'Deepmoni Deka', 'given_name': 'Deepmoni', 'surname': 'Deka', 'orcid': '0000-0002-4648-5889', 'wikidata_qid': None}, 'raw_name': 'Deepmoni Deka', 'given_name': 'Deepmoni', 'surname': 'Deka', 'role': 'author', 'raw_affiliation': 'Centre for the Environment, Indian Institute of Technology, Guwahati 781039, India', 'extra': None} {'index': 3, 'creator_id': None, 'creator': None, 'raw_name': 'Mihir Kumar Purkait', 'given_name': 'Mihir Kumar', 'surname': 'Purkait', 'role': 'author', 'raw_affiliation': 'Centre for the Environment, Indian Institute of Technology, Guwahati 781039, India', 'extra': {'more_affiliations': ['Department of Chemical Engineering, Indian Institute of Technology, Guwahati 781039, India']}} {'index': 4, 'creator_id': 'zfns3u4rsbbmxbontxudna3qam', 'creator': {'state': 'active', 'ident': 'zfns3u4rsbbmxbontxudna3qam', 'revision': '96d07179-5ccc-4c1f-8951-d858ff8a0c81', 'redirect': None, 'extra': None, 'edit_extra': None, 'display_name': 'Devasish Chowdhury', 'given_name': 'Devasish', 'surname': 'Chowdhury', 'orcid': '0000-0003-4829-6210', 'wikidata_qid': None}, 'raw_name': 'Devasish Chowdhury', 'given_name': 'Devasish', 'surname': 'Chowdhury', 'role': 'author', 'raw_affiliation': 'Material Nanochemistry Laboratory, Physical Science Division, Institute of Advanced Studies in Science and Technology, Paschim Boragaon, Guwahati 781035, India', 'extra': None} {'index': 5, 'creator_id': None, 'creator': None, 'raw_name': 'Gitanjali Majumdar', 'given_name': 'Gitanjali', 'surname': 'Majumdar', 'role': 'author', 'raw_affiliation': 'Department of Chemistry, Assam Engineering College, Guwahati 781013, India', 'extra': {'more_affiliations': ['Department of Chemistry, Assam Science and Technology University, Tetelia Road, Jalukbari, Guwahati 781013, India']}}
`ext_ids`	`{'doi': '10.3390/suschem4020016', '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': 'vxzcqldzwfaibbxfohbqxlujie', 'revision': '14bb1883-1ef7-4c02-be98-e7363dbe4a84', 'redirect': None, 'extra': None, 'edit_extra': None, 'size': 5190894, 'md5': 'e01c58f9dc8177d290aec0ab1fcc9bab', 'sha1': 'e7de6c09de01cfcfbf969ae12dc5a9ca2a05a6d1', 'sha256': 'd030258aae751b0cb5274b1fcefa23ba667895660433c4bd588e961a9eb61591', 'urls': [{'url': 'https://mdpi-res.com/d_attachment/suschem/suschem-04-00016/article_deploy/suschem-04-00016.pdf?version=1685426860', 'rel': 'publisher'}, {'url': 'https://web.archive.org/web/20230625150911/https://mdpi-res.com/d_attachment/suschem/suschem-04-00016/article_deploy/suschem-04-00016.pdf?version=1685426860', 'rel': 'webarchive'}], 'mimetype': 'application/pdf', 'content_scope': None, 'release_ids': ['p5xohpqwevaqjhaaqzqjetnvom'], 'releases': None}
`filesets`	`[]`
`issue`
`language`	`en`
`license_slug`	`CC-BY`
`number`
`original_title`
`pages`	`209-223`
`publisher`	`MDPI AG`
`refs[]`	{'index': 0, 'target_release_id': None, 'extra': {'authors': ['Patel'], 'doi': '10.1021/acs.chemrev.8b00299', 'volume': '119'}, 'key': 'ref_1', 'year': 2019, 'container_name': 'Chem. Rev.', 'title': 'Pharmaceuticals of Emerging Concern in Aquatic Systems: Chemistry, Occurrence, Effects, and Removal Methods', 'locator': '3510'} {'index': 1, 'target_release_id': None, 'extra': {'authors': ['Larsson'], 'doi': '10.1016/j.jhazmat.2007.07.008', 'volume': '148'}, 'key': 'ref_2', 'year': 2007, 'container_name': 'J. Hazard. Mater.', 'title': 'Effluent from Drug Manufactures Contains Extremely High Levels of Pharmaceuticals', 'locator': '751'} {'index': 2, 'target_release_id': None, 'extra': {'authors': ['Abrell'], 'doi': '10.1007/s11356-020-10842-9', 'volume': '27'}, 'key': 'ref_3', 'year': 2020, 'container_name': 'Environ. Sci. Pollut. Res.', 'title': 'Pharmaceuticals as Emerging Contaminants in the Aquatic Environment of Latin America: A Review', 'locator': '44863'} {'index': 3, 'target_release_id': None, 'extra': {'authors': ['Majumder'], 'doi': '10.1039/c5tb00676g'}, 'key': 'ref_4', 'year': 2015, 'container_name': 'J. Mater. Chem. B', 'title': 'Cetirizine Derived Supramolecular Topical Gel in Action: Rational Design, Characterization and in Vivo Self-Delivery Application in Treating Skin Allergy in Mice', 'locator': '6634'} {'index': 4, 'target_release_id': None, 'extra': {'authors': ['Fick'], 'doi': '10.1897/09-073.1', 'volume': '28'}, 'key': 'ref_5', 'year': 2009, 'container_name': 'Environ. Toxicol. Chem.', 'title': 'Contamination of surface, ground, and drinking water from pharmaceutical production', 'locator': '2522'} {'index': 5, 'target_release_id': None, 'extra': {'authors': ['Schulz'], 'volume': '58'}, 'key': 'ref_6', 'year': 2003, 'container_name': 'Pharmazie', 'title': 'Therapeutic and toxic blood concentrations of more than 800 drugs and other xenobiotics', 'locator': '447'} {'index': 6, 'target_release_id': None, 'extra': {'authors': ['Wenzl'], 'doi': '10.1177/000992286900800517'}, 'key': 'ref_7', 'year': 1969, 'container_name': 'Clin. Pediatr. Phila.', 'title': 'Antihistamine Toxicity in Children', 'locator': '297'} {'index': 7, 'target_release_id': None, 'extra': {'authors': ['May'], 'doi': '10.1016/j.intimp.2021.108412', 'volume': '103'}, 'key': 'ref_8', 'year': 2022, 'container_name': 'Int. Immunopharmacol.', 'title': 'Levocetirizine and Montelukast in the COVID-19 Treatment Paradigm', 'locator': '108412'} {'index': 8, 'target_release_id': None, 'extra': {'authors': ['He'], 'doi': '10.1016/j.jhazmat.2020.123219', 'volume': '398'}, 'key': 'ref_9', 'year': 2020, 'container_name': 'J. Hazard. Mater.', 'title': 'Rapid Transformation of H1-Antihistamines Cetirizine (CET) and Diphenhydramine (DPH) by Direct Peroxymonosulfate (PMS) Oxidation', 'locator': '123219'} {'index': 9, 'target_release_id': None, 'extra': {'authors': ['Sutar'], 'doi': '10.1016/j.ultsonch.2014.10.016', 'volume': '24'}, 'key': 'ref_10', 'year': 2015, 'container_name': 'Ultrason. Sonochem.', 'title': 'Ultrasound Assisted Enzyme Catalyzed Degradation of Cetirizine Dihydrochloride', 'locator': '80'} {'index': 10, 'target_release_id': None, 'extra': {'authors': ['Uheida'], 'doi': '10.1016/j.seppur.2018.11.030', 'volume': '212'}, 'key': 'ref_11', 'year': 2019, 'container_name': 'Sep. Purif. Technol.', 'title': 'Photocatalytic Degradation of Ibuprofen, Naproxen, and Cetirizine Using PAN-MWCNT Nanofibers Crosslinked TiO2-NH2 Nanoparticles under Visible Light Irradiation', 'locator': '110'} {'index': 11, 'target_release_id': None, 'extra': {'authors': ['Li'], 'doi': '10.1016/j.colsurfa.2011.06.013', 'volume': '385'}, 'key': 'ref_12', 'year': 2011, 'container_name': 'Colloids Surf. A Physicochem. Eng. Asp.', 'title': 'Mechanism of Chlorpheniramine Adsorption on Ca-Montmorillonite', 'locator': '213'} {'index': 12, 'target_release_id': None, 'extra': {'authors': ['Khan'], 'doi': '10.1007/s11356-017-8388-8', 'volume': '24'}, 'key': 'ref_13', 'year': 2017, 'container_name': 'Environ. Sci. Pollut. Res.', 'title': 'The Role of GO and GO-Based Nanomaterials in the Removal of Pharmaceuticals from Aqueous Media: A Review', 'locator': '7938'} {'index': 13, 'target_release_id': None, 'extra': {'doi': '10.1016/j.jece.2016.06.012'}, 'key': 'ref_14', 'year': 2016, 'container_name': 'J. Environ. Chem. Eng.', 'title': 'Preparation of Laccase-GO Nanosheet/Alginate Composite: Application for the Removal of Cetirizine from Aqueous Solution', 'locator': '3013'} {'index': 14, 'target_release_id': None, 'extra': {'authors': ['Zhu'], 'doi': '10.1002/adma.201001068', 'volume': '22'}, 'key': 'ref_15', 'year': 2010, 'container_name': 'Adv. Mater.', 'title': 'Graphene and GO: Synthesis, Properties, and Applications', 'locator': '3906'} {'index': 15, 'target_release_id': None, 'extra': {'authors': ['Lin'], 'doi': '10.1016/j.talanta.2020.120810', 'volume': '214'}, 'key': 'ref_16', 'year': 2020, 'container_name': 'Talanta', 'title': 'Flex-GO (Flexible GO) Sensor for Electrochemical Monitoring Lactate in Low-Volume Passive Perspired Human Sweat', 'locator': '120810'} {'index': 16, 'target_release_id': None, 'extra': {'authors': ['Wang'], 'doi': '10.1016/j.apsusc.2019.143997', 'volume': '500'}, 'key': 'ref_17', 'year': 2020, 'container_name': 'Appl. Surf. Sci.', 'title': 'Fabrication of Architectural Structured Polydopamine-Functionalized Reduced GO/Carbon Nanotube/PEDOT:PSS Nanocomposites as Flexible Transparent Electrodes for OLEDs', 'locator': '143997'} {'index': 17, 'target_release_id': None, 'extra': {'authors': ['Ji'], 'doi': '10.1016/j.apsusc.2017.05.028', 'volume': '419'}, 'key': 'ref_18', 'year': 2017, 'container_name': 'Appl. Surf. Sci.', 'title': 'Work Function Engineering of GO via Covalent Functionalization for Organic Field-Effect Transistors', 'locator': '252'} {'index': 18, 'target_release_id': None, 'extra': {'authors': ['Wang'], 'doi': '10.1016/j.jcis.2018.01.073', 'volume': '516'}, 'key': 'ref_19', 'year': 2018, 'container_name': 'J. Colloid Interface Sci.', 'title': 'Design and Evaluation of Galactosylated Chitosan/GO Nanoparticles as a Drug Delivery System', 'locator': '332'} {'index': 19, 'target_release_id': None, 'extra': {'authors': ['Berrio'], 'doi': '10.1016/j.mtchem.2021.100422', 'volume': '20'}, 'key': 'ref_20', 'year': 2021, 'container_name': 'Mater. Today Chem.', 'title': 'Synthesis and Applications of GO Aerogels in Bone Tissue Regeneration: A Review', 'locator': '100422'} {'index': 20, 'target_release_id': None, 'extra': {'doi': '10.3390/nano9030439', 'unstructured': 'Wang, Y., Pan, C., Chu, W., Vipin, A., and Sun, L. (2019). Environmental Remediation Applications of Carbon Nanotubes and GO: Adsorption and Catalysis. Nanomaterials, 9.'}, 'key': 'ref_21', 'year': None, 'container_name': None, 'title': None, 'locator': None} {'index': 21, 'target_release_id': None, 'extra': {'authors': ['Wu'], 'doi': '10.1016/j.ijbiomac.2019.12.017', 'volume': '143'}, 'key': 'ref_22', 'year': 2020, 'container_name': 'Int. J. Biol. Macromol.', 'title': 'Preparation of a Porous GO/Alkali Lignin Aerogel Composite and Its Adsorption Properties for Methylene Blue', 'locator': '325'} {'index': 22, 'target_release_id': None, 'extra': {'authors': ['Ain'], 'doi': '10.1016/j.jwpe.2019.101044', 'volume': '33'}, 'key': 'ref_23', 'year': 2020, 'container_name': 'J. Water Process Eng.', 'title': 'Application of Magnetic GO for Water Purification: Heavy Metals Removal and Disinfection', 'locator': '101044'} {'index': 23, 'target_release_id': None, 'extra': {'authors': ['Velusamy'], 'doi': '10.1002/tcr.202000153', 'volume': '21'}, 'key': 'ref_24', 'year': 2021, 'container_name': 'Chem. Rec.', 'title': 'A Review on Heavy Metal Ions and Containing Dyes Removal Through GO-Based Adsorption Strategies for Textile Wastewater Treatment', 'locator': '1570'} {'index': 24, 'target_release_id': None, 'extra': {'authors': ['Bhattacharjee'], 'doi': '10.1016/j.matchemphys.2022.126413', 'volume': '288'}, 'key': 'ref_25', 'year': 2022, 'container_name': 'Mater. Chem. Phys.', 'title': 'Synthesis and Characterization of Exfoliated Beta-Cyclodextrin Functionalized GO for Adsorptive Removal of Atenolol', 'locator': '126413'} {'index': 25, 'target_release_id': None, 'extra': {'authors': ['Delhiraja'], 'doi': '10.1021/acs.iecr.8b02668', 'volume': '58'}, 'key': 'ref_26', 'year': 2019, 'container_name': 'Ind. Eng. Chem. Res.', 'title': 'Development of Highly Water Stable GO-Based Composites for the Removal of Pharmaceuticals and Personal Care Products', 'locator': '2899'} {'index': 26, 'target_release_id': None, 'extra': {'authors': ['Ouyang'], 'doi': '10.1016/j.seppur.2020.117536', 'volume': '253'}, 'key': 'ref_27', 'year': 2020, 'container_name': 'Sep. Purif. Technol.', 'title': 'Biomass-Derived Activated Carbons for the Removal of Pharmaceutical Mircopollutants from Wastewater: A Review', 'locator': '117536'} {'index': 27, 'target_release_id': None, 'extra': {'authors': ['Thiebault'], 'doi': '10.1080/10643389.2019.1663065', 'volume': '50'}, 'key': 'ref_28', 'year': 2020, 'container_name': 'Crit. Rev. Environ. Sci. Technol.', 'title': 'Raw and Modified Clays and Clay Minerals for the Removal of Pharmaceutical Products from Aqueous Solutions: State of the Art and Future Perspectives', 'locator': '1451'} {'index': 28, 'target_release_id': None, 'extra': {'authors': ['Emam'], 'doi': '10.1016/j.jhazmat.2021.125509', 'volume': '414'}, 'key': 'ref_29', 'year': 2021, 'container_name': 'J. Hazard. Mater.', 'title': 'Observable Removal of Pharmaceutical Residues by Highly Porous Photoactive Cellulose Acetate@MIL-MOF Film', 'locator': '125509'} {'index': 29, 'target_release_id': None, 'extra': {'authors': ['HooriabadSaboor'], 'doi': '10.1002/asia.202101105', 'volume': '17'}, 'key': 'ref_30', 'year': 2022, 'container_name': 'Chem.-Asian J.', 'title': 'The Effectiveness of MOFs for the Removal of Pharmaceuticals from Aquatic Environments: A Review Focused on Antibiotics Removal', 'locator': 'e202101105'} {'index': 30, 'target_release_id': None, 'extra': {'authors': ['Ghasemi'], 'doi': '10.1021/acs.iecr.2c00924', 'volume': '61'}, 'key': 'ref_31', 'year': 2022, 'container_name': 'Ind. Eng. Chem. Res.', 'title': 'Removal of Pharmaceutical Pollutants from Wastewater Using 2D Covalent Organic Frameworks (COFs): An In Silico Engineering Study', 'locator': '8809'} {'index': 31, 'target_release_id': None, 'extra': {'authors': ['Ayati'], 'doi': '10.1016/j.jclepro.2021.125880', 'volume': '291'}, 'key': 'ref_32', 'year': 2021, 'container_name': 'J. Clean. Prod.', 'title': 'Recent Advances in Using of Chitosan-Based Adsorbents for Removal of Pharmaceutical Contaminants: A Review', 'locator': '125880'} {'index': 32, 'target_release_id': None, 'extra': {'authors': ['Kebede'], 'doi': '10.1016/j.jece.2019.103330'}, 'key': 'ref_33', 'year': 2019, 'container_name': 'J. Environ. Chem. Eng.', 'title': 'Biopolymer Electrospun Nanofibres for the Adsorption of Pharmaceuticals from Water Systems', 'locator': '103330'} {'index': 33, 'target_release_id': None, 'extra': {'authors': ['Fachina'], 'doi': '10.1016/j.chemosphere.2021.133213', 'volume': '289'}, 'key': 'ref_34', 'year': 2022, 'container_name': 'Chemosphere', 'title': 'Application of Activated Carbon Functionalized with GO for Efficient Removal of COVID-19 Treatment-Related Pharmaceuticals from Water', 'locator': '133213'} {'index': 34, 'target_release_id': None, 'extra': {'authors': ['Mahmoodi'], 'doi': '10.1039/d1ra06069d', 'volume': '11'}, 'key': 'ref_35', 'year': 2021, 'container_name': 'RSC Adv.', 'title': 'GO–Chitosan Hydrogel for Adsorptive Removal of Diclofenac from Aqueous Solution: Preparation, Characterization, Kinetic and Thermodynamic Modelling', 'locator': '36289'} {'index': 35, 'target_release_id': None, 'extra': {'authors': ['Azizian'], 'doi': '10.1016/j.jcis.2004.03.048', 'volume': '276'}, 'key': 'ref_36', 'year': 2004, 'container_name': 'J. Colloid Interface Sci.', 'title': 'Kinetic Models of Sorption: A Theoretical Analysis', 'locator': '47'} {'index': 36, 'target_release_id': None, 'extra': {'authors': ['Weber'], 'doi': '10.1061/jsedai.0000430', 'volume': '89'}, 'key': 'ref_37', 'year': 1963, 'container_name': 'J. Sanit. Eng. Div.', 'title': 'Kinetics of Adsorption on Carbon from Solution', 'locator': '31'} {'index': 37, 'target_release_id': None, 'extra': {'doi': '10.3390/ma13061262', 'unstructured': 'Murcia-Salvador, A., Pellicer, J.A., Rodríguez-López, M.I., Gómez-López, V.M., Núñez-Delicado, E., and Gabaldón, J.A. (2020). Egg By-Products as a Tool to Remove Direct Blue 78 Dye from Wastewater: Kinetic, Equilibrium Modeling, Thermodynamics and Desorption Properties. Materials, 13.'}, 'key': 'ref_38', 'year': None, 'container_name': None, 'title': None, 'locator': None} {'index': 38, 'target_release_id': None, 'extra': {'authors': ['Nethaji'], 'doi': '10.1007/s13762-012-0112-0', 'volume': '10'}, 'key': 'ref_39', 'year': 2013, 'container_name': 'Int. J. Environ. Sci. Technol.', 'title': 'Adsorption Isotherms, Kinetics and Mechanism for the Adsorption of Cationic and Anionic Dyes onto Carbonaceous Particles Prepared from Juglans Regia Shell Biomass', 'locator': '231'} {'index': 39, 'target_release_id': None, 'extra': {'authors': ['Johra'], 'doi': '10.1016/j.jiec.2013.11.022', 'volume': '20'}, 'key': 'ref_40', 'year': 2014, 'container_name': 'J. Ind. Eng. Chem.', 'title': 'Facile and Safe Graphene Preparation on Solution Based Platform', 'locator': '2883'} {'index': 40, 'target_release_id': None, 'extra': {'authors': ['Abebe'], 'doi': '10.4236/jeas.2018.84012', 'volume': '08'}, 'key': 'ref_41', 'year': 2018, 'container_name': 'J. Encapsulation Adsorpt. Sci.', 'title': 'Summary on Adsorption and Photocatalysis for Pollutant Remediation: Mini Review', 'locator': '225'} {'index': 41, 'target_release_id': None, 'extra': {'authors': ['Farghali'], 'doi': '10.1016/j.jallcom.2012.11.190', 'volume': '555'}, 'key': 'ref_42', 'year': 2013, 'container_name': 'J. Alloys Compd.', 'title': 'Preparation, Decoration and Characterization of Graphene Sheets for Methyl Green Adsorption', 'locator': '193'} {'index': 42, 'target_release_id': None, 'extra': {'authors': ['Pholosi'], 'doi': '10.1016/j.sajce.2020.01.005', 'volume': '32'}, 'key': 'ref_43', 'year': 2020, 'container_name': 'South Afr. J. Chem. Eng.', 'title': 'Intraparticle Diffusion of Cr(VI) through Biomass and Magnetite Coated Biomass: A Comparative Kinetic and Diffusion Study', 'locator': '39'} {'index': 43, 'target_release_id': None, 'extra': {'authors': ['Falahian'], 'doi': '10.1002/gch2.201700078'}, 'key': 'ref_44', 'year': 2018, 'container_name': 'Glob. Chall.', 'title': 'Synthesis and Application of Polypyrrole/Fe3O4 Nanosize Magnetic Adsorbent for Efficient Separation of Hg2+ from Aqueous Solution', 'locator': '1700078'} {'index': 44, 'target_release_id': None, 'extra': {'authors': ['Kyzas'], 'doi': '10.1016/j.scitotenv.2015.07.144', 'volume': '537'}, 'key': 'ref_45', 'year': 2015, 'container_name': 'Sci. Total Environ.', 'title': 'Removal of Beta-Blockers from Aqueous Media by Adsorption onto GO', 'locator': '411'}
`release_date`	`2023-05-30`
`release_stage`	`published`
`release_type`	`article-journal`
`release_year`	`2023`
`subtitle`
`title`	`Adsorption Characteristics of Cetirizine on Graphene Oxide`
`version`
`volume`
`webcaptures`	`[]`
`withdrawn_date`
`withdrawn_status`
`withdrawn_year`
`work_id`	`tbod7ii3cngw5b5tz6ynhllb4q`

As JSON via API

Extra Metadata (raw JSON)

`crossref.alternative-id`	`['suschem4020016']`
`crossref.license`	`[{'URL': 'https://creativecommons.org/licenses/by/4.0/', 'content-version': 'vor', 'delay-in-days': 0, 'start': '2023-05-30T00:00:00Z'}]`
`crossref.subject`	`['General Earth and Planetary Sciences', 'General Environmental Science']`
`crossref.type`	`journal-article`

Adsorption Characteristics of Cetirizine on Graphene Oxide release_p5xohpqwevaqjhaaqzqjetnvom

Entity Metadata (schema)

Extra Metadata (raw JSON)

Adsorption Characteristics of Cetirizine on Graphene Oxide `release_p5xohpqwevaqjhaaqzqjetnvom`