Composites hybridized with Ca(OH)2 and LaMnO3 synergistically improve phosphate adsorption properties

Phosphate loading is an important factor in the deterioration of freshwater ecosystems. La-based perovskites, a new type of adsorbent material, suffer from low phosphate adsorption performance and are highly affected by pH. Hence, the construction of materials with high phosphate adsorption performa...

Full description

Saved in:

Bibliographic Details
Published in	New journal of chemistry Vol. 48; no. 5; pp. 2155 - 2165
Main Authors	Feng, Menghan, Li, Mengmeng, Guo, Changbin, Zhang, Xueyan, Tian Yuan, Zhang, Keqiang, Wang, Feng
Format	Journal Article
Language	English
Published	Cambridge Royal Society of Chemistry 29.01.2024
Subjects	Adsorption Agricultural wastes Chemisorption Composite materials Lanthanum compounds Perovskites Slaked lime Synergistic effect Wastewater treatment
Online Access	Get full text

Cover

Loading…

Abstract	Phosphate loading is an important factor in the deterioration of freshwater ecosystems. La-based perovskites, a new type of adsorbent material, suffer from low phosphate adsorption performance and are highly affected by pH. Hence, the construction of materials with high phosphate adsorption performance over a wide pH range for phosphate removal is a challenge. In this study, Ca(OH)2-hybridized LaMnO3 perovskite composites (Cax–LMO, x = 0, 0.2, 0.4, 0,7) were prepared by impregnating different ratios of CaO on LaMnO3. Isothermal, kinetic, and influential factor tests showed that the maximum phosphate adsorption capacity of Ca0.4–LMO for phosphate reached 101.1 mg P g−1, which was 1.14 times higher than that of the original Ca0–LMO. The phosphate adsorption capacity of Ca0.4–LMO was minimally affected by pH and only decreased by 17.8% with increasing pH. Therefore, the synergistic effect of Ca(OH)2 and LaMnO3 improved the performance of the material for phosphate adsorption over a wide pH range. In the experiments using three types of real wastewater, the removal rate of Ca0.4–LMO reached 99.6% for high-concentration cattle farm wastewater. Quantitative removal was realized for low-concentration pond wastewater and the effluent of sanitary wastewater, revealing high efficiency in removing phosphate from real water bodies. After eight adsorption–desorption cycles, the phosphate removal rate of Ca0.4–LMO remained up to 96%, proving its reusability. Characterization results showed that the phosphate adsorption process was mainly chemisorption, and the adsorption mechanisms were ligand exchange, inner-layer complexation, and electrostatic attraction. This study provides a new approach for improving the phosphate adsorption performance of La-based perovskites for phosphate removal over a wide pH range.
AbstractList	Phosphate loading is an important factor in the deterioration of freshwater ecosystems. La-based perovskites, a new type of adsorbent material, suffer from low phosphate adsorption performance and are highly affected by pH. Hence, the construction of materials with high phosphate adsorption performance over a wide pH range for phosphate removal is a challenge. In this study, Ca(OH)2-hybridized LaMnO3 perovskite composites (Cax–LMO, x = 0, 0.2, 0.4, 0,7) were prepared by impregnating different ratios of CaO on LaMnO3. Isothermal, kinetic, and influential factor tests showed that the maximum phosphate adsorption capacity of Ca0.4–LMO for phosphate reached 101.1 mg P g−1, which was 1.14 times higher than that of the original Ca0–LMO. The phosphate adsorption capacity of Ca0.4–LMO was minimally affected by pH and only decreased by 17.8% with increasing pH. Therefore, the synergistic effect of Ca(OH)2 and LaMnO3 improved the performance of the material for phosphate adsorption over a wide pH range. In the experiments using three types of real wastewater, the removal rate of Ca0.4–LMO reached 99.6% for high-concentration cattle farm wastewater. Quantitative removal was realized for low-concentration pond wastewater and the effluent of sanitary wastewater, revealing high efficiency in removing phosphate from real water bodies. After eight adsorption–desorption cycles, the phosphate removal rate of Ca0.4–LMO remained up to 96%, proving its reusability. Characterization results showed that the phosphate adsorption process was mainly chemisorption, and the adsorption mechanisms were ligand exchange, inner-layer complexation, and electrostatic attraction. This study provides a new approach for improving the phosphate adsorption performance of La-based perovskites for phosphate removal over a wide pH range.
Author	Feng, Menghan Li, Mengmeng Tian Yuan Zhang, Keqiang Guo, Changbin Zhang, Xueyan Wang, Feng
Author_xml	– sequence: 1 givenname: Menghan surname: Feng fullname: Feng, Menghan – sequence: 2 givenname: Mengmeng surname: Li fullname: Li, Mengmeng – sequence: 3 givenname: Changbin surname: Guo fullname: Guo, Changbin – sequence: 4 givenname: Xueyan surname: Zhang fullname: Zhang, Xueyan – sequence: 5 fullname: Tian Yuan – sequence: 6 givenname: Keqiang surname: Zhang fullname: Zhang, Keqiang – sequence: 7 givenname: Feng surname: Wang fullname: Wang, Feng
BookMark	eNotj09LwzAchoNMcJte_AQBL3qo5n-boxTnhMkueh5p86tN2ZLYZMr89Bb09LzwwvvwLtDMBw8IXVNyTwnXD5b7gQip1XCG5pQrXWim6GzKVIiCSKEu0CKlgRBKS0XnCOpwiCG5DAn3p2Z01v2Axd8u97g2t9v1HcPGW7wxr37LcTp5GD9cyq41-_0Ju0Mcwxfg2IcUe5MBG5vCGLMLHk9VhDE7SJfovDP7BFf_XKL31dNbvS422-eX-nFTRFrxXKhSyE6xilXWAGdV05qGTQeEJl3XUQOdbnlZMSMIcAGN0pKUrZZGlJISK_kS3fztTurPI6S8G8Jx9JNyxzTVXOgJ_BczhFov
ContentType	Journal Article
Copyright	Copyright Royal Society of Chemistry 2024
Copyright_xml	– notice: Copyright Royal Society of Chemistry 2024
DBID	7SR 8BQ 8FD H9R JG9 KA0
DOI	10.1039/d3nj04596j
DatabaseName	Engineered Materials Abstracts METADEX Technology Research Database Illustrata: Natural Sciences Materials Research Database ProQuest Illustrata: Technology Collection
DatabaseTitle	Materials Research Database ProQuest Illustrata: Natural Sciences Engineered Materials Abstracts ProQuest Illustrata: Technology Collection Technology Research Database METADEX
DatabaseTitleList	Materials Research Database
DeliveryMethod	fulltext_linktorsrc
Discipline	Chemistry
EISSN	1369-9261
EndPage	2165
GroupedDBID	--- -DZ -JG -~X 0-7 0R~ 123 29N 4.4 705 70~ 7SR 7~J 8BQ 8FD AAEMU AAIWI AAJAE AAMEH AANOJ AAWGC AAXHV AAXPP ABASK ABCQX ABDVN ABEMK ABJNI ABPDG ABRYZ ABXOH ACGFS ACIWK ACLDK ACNCT ADMRA ADSRN AEFDR AENEX AENGV AESAV AETIL AFLYV AFOGI AFRDS AFVBQ AGEGJ AGKEF AGRSR AGSTE AHGCF ALMA_UNASSIGNED_HOLDINGS ANUXI APEMP ASKNT AUDPV AZFZN BLAPV BSQNT C6K CS3 D0L DU5 EBS ECGLT EE0 EF- F5P GGIMP GNO H13 H9R HZ~ H~N IDZ J3I JG9 KA0 L7B M4U N9A O9- OK1 P2P R7B R7C R7D RAOCF RCNCU RNS RPMJG RRA RRC RSCEA SKA SKF SKH SLH TN5 TWZ VH6 YNT YQT
ID	FETCH-LOGICAL-p183t-6745f62828dae328bcab2926490fff1aef9c3782a40e34eb69507c95a47510d53
ISSN	1144-0546
IngestDate	Thu Oct 10 18:51:10 EDT 2024
IsPeerReviewed	true
IsScholarly	true
Issue	5
Language	English
LinkModel	OpenURL
MergedId	FETCHMERGED-LOGICAL-p183t-6745f62828dae328bcab2926490fff1aef9c3782a40e34eb69507c95a47510d53
PQID	2919349291
PQPubID	2048886
PageCount	11
ParticipantIDs	proquest_journals_2919349291
PublicationCentury	2000
PublicationDate	2024-01-29
PublicationDateYYYYMMDD	2024-01-29
PublicationDate_xml	– month: 01 year: 2024 text: 2024-01-29 day: 29
PublicationDecade	2020
PublicationPlace	Cambridge
PublicationPlace_xml	– name: Cambridge
PublicationTitle	New journal of chemistry
PublicationYear	2024
Publisher	Royal Society of Chemistry
Publisher_xml	– name: Royal Society of Chemistry
SSID	ssj0011761
Score	2.4532526
Snippet	Phosphate loading is an important factor in the deterioration of freshwater ecosystems. La-based perovskites, a new type of adsorbent material, suffer from low...
SourceID	proquest
SourceType	Aggregation Database
StartPage	2155
SubjectTerms	Adsorption Agricultural wastes Chemisorption Composite materials Lanthanum compounds Perovskites Slaked lime Synergistic effect Wastewater treatment
Title	Composites hybridized with Ca(OH)2 and LaMnO3 synergistically improve phosphate adsorption properties
URI	https://www.proquest.com/docview/2919349291
Volume	48
hasFullText	1
inHoldings	1
isFullTextHit
isPrint
link	http://utb.summon.serialssolutions.com/2.0.0/link/0/eLvHCXMwnV3LjtMwFLXKzAI2iKd4DMgLFqAq0MSOGy9HVUcFdaabVOqushNn2mpIqjRF6nwFn8x1bceBQQjYRJVTWVHuyX35-Bihd0UOeShLsoCrpAioYvBJxZwGcqjbZlEOUUcXipdXbDKnXxbxotf73mEt7Rv5Mbv97b6S_7EqjIFd9S7Zf7BsOykMwG-wL1zBwnD9Kxvrj1mTrtSuvzrorVfrW8cmHwmtIzqBQj86rg9MxWU5I1qgQNXXR3FmcXNz0Jsk6-qb6m9X1W67gryzL_JdVRs_stWN-rpxNMONF3rq6E1k7sQ4n1Qa96H5sqsO42ftBr8qGy017Wdf2UX_8lqu2z-3bezFXh3sHLY1EWk6SxB5B2gaII59emSXdJ_IOFwo6AJIG60cthkjjAc8MiLtzkvTpIPG-CeXa3R-bfiOQnP2xJ3QMCBaWTUn5QayWM42PgC6Rf-r2fJiPp0u0_EivYdOI3Bd4DNPz8fp52m7MhUOjQave24neUv4Jz_3ncB-zFbSR-ihLTPwucHMY9RT5RN0v30zT5Hy2MEeO1hjB4_E-9nkQ4QBN9jgBv-CG2xxg1vcYI8b7HHzDM0vxuloEtgjN4It-PYmYEMaF0yX4blQJEpkJiQAlVE-KIoiFKrgGYGkUtCBIlRJxqGeyHgs6BCcex6T5-ikrEr1AmFZxKEqBFQEjFEpaEKLkEumsljEksj4JTpz72hpUbtbRhwKCgope_jqz7dfowcecWfopKn36g2kh418ay32AzhWbEU
link.rule.ids	315,783,787,27936,27937
linkProvider	Royal Society of Chemistry
openUrl	ctx_ver=Z39.88-2004&ctx_enc=info%3Aofi%2Fenc%3AUTF-8&rfr_id=info%3Asid%2Fsummon.serialssolutions.com&rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Ajournal&rft.genre=article&rft.atitle=Composites+hybridized+with+Ca%28OH%292+and+LaMnO3+synergistically+improve+phosphate+adsorption+properties&rft.jtitle=New+journal+of+chemistry&rft.au=Feng%2C+Menghan&rft.au=Li%2C+Mengmeng&rft.au=Guo%2C+Changbin&rft.au=Zhang%2C+Xueyan&rft.date=2024-01-29&rft.pub=Royal+Society+of+Chemistry&rft.issn=1144-0546&rft.eissn=1369-9261&rft.volume=48&rft.issue=5&rft.spage=2155&rft.epage=2165&rft_id=info:doi/10.1039%2Fd3nj04596j&rft.externalDBID=NO_FULL_TEXT
thumbnail_l	http://covers-cdn.summon.serialssolutions.com/index.aspx?isbn=/lc.gif&issn=1144-0546&client=summon
thumbnail_m	http://covers-cdn.summon.serialssolutions.com/index.aspx?isbn=/mc.gif&issn=1144-0546&client=summon
thumbnail_s	http://covers-cdn.summon.serialssolutions.com/index.aspx?isbn=/sc.gif&issn=1144-0546&client=summon