Biomimetic photodegradation of glyphosate in carborane-functionalized nanoconfined spaces
Biomimetic photodegradation of glyphosate in carborane-functionalized nanoconfined spaces
The removal of organophosphorus (OP) herbicides from water has been studied using adsorptive removal, chemical oxidation, electrooxidation, enzymatic degradation, and photodegradation. The OP herbicide glyphosate (GP) is one of the most used herbicides worldwide, leading to excess GP in wastewater and soil. GP is commonly broken down in environmental conditions to compounds such as aminomethylphosphonic acid (AMPA) or sarcosine, with AMPA having a longer half-life and similar toxicity to GP. Metal-organic frameworks (MOFs) are excellent materials for purifying OP herbicides from water due to their ability to combine adsorption and photoactivity within one material. Herein, we report the use of a robust Zr-based MOF with a meta-carborane carboxylate ligand (mCB-MOF-2) to examine the adsorption and photodegradation of GP. The maximum adsorption capacity of mCB-MOF-2 for GP was determined to be 11.4 mmol/g. Non-covalent intermolecular forces between the carborane-based ligand and GP within the micropores of mCB-MOF-2 are thought to be responsible for strong binding affinity and capture of GP. After 24 h of irradiation with ultraviolet-visible (UV-vis) light, mCB-MOF-2 selectively converts 69% of GP to sarcosine and orthophosphate, following the C-P lyase enzymatic pathway and biomimetically photodegrading GP. Circumventing the production of AMPA is desirable, as it has a longer half-life and similar toxicity to GP. The exceptional adsorption capacity of GP by mCB-MOF-2 and its biomimetic photodegradation to non-toxic sarcosine make it a promising material for removing OP herbicides from water.
13730-13741
Gan, Lei
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Nord, Makenzie T.
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Lessard, Jacob M.
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Tufts, Noah Q.
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Chidambaram, Arunraj
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Light, Mark E.
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Huang, Hongliang
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Solano, Eduardo
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Fraile, Julio
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Suárez-García, Fabián
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Viñas, Clara
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Teixidor, Francesc
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Stylianou, Kyriakos C.
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Planas, José G.
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20 June 2023
Gan, Lei
e361ae76-bd0b-4847-b4ce-3e6cd5241ce5
Nord, Makenzie T.
f51e7318-daf9-4a2a-b474-bc4395ae27f4
Lessard, Jacob M.
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Tufts, Noah Q.
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Chidambaram, Arunraj
2bc4620b-7b65-4279-9f35-c68e49a9359e
Light, Mark E.
cf57314e-6856-491b-a8d2-2dffc452e161
Huang, Hongliang
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Solano, Eduardo
ffb9e57b-8537-47f8-bb1a-df30f13b7433
Fraile, Julio
b156bd1b-1d41-4296-b54c-2baa0134c6e1
Suárez-García, Fabián
f254660a-474a-4920-ac15-86ff0760b57b
Viñas, Clara
636b5d2e-fefb-4e83-93df-9615eee8e771
Teixidor, Francesc
d24b81b5-5d82-42ca-bd30-fd9c73d0ee68
Stylianou, Kyriakos C.
0536c485-b0e9-4135-9f47-506bf5d51c1b
Planas, José G.
98b21b50-1c21-4265-bd3c-67afe28ef652
Gan, Lei, Nord, Makenzie T., Lessard, Jacob M., Tufts, Noah Q., Chidambaram, Arunraj, Light, Mark E., Huang, Hongliang, Solano, Eduardo, Fraile, Julio, Suárez-García, Fabián, Viñas, Clara, Teixidor, Francesc, Stylianou, Kyriakos C. and Planas, José G.
(2023)
Biomimetic photodegradation of glyphosate in carborane-functionalized nanoconfined spaces.
Journal of the American Chemical Society, 145 (25), .
(doi:10.1021/jacs.3c02019).
Abstract
The removal of organophosphorus (OP) herbicides from water has been studied using adsorptive removal, chemical oxidation, electrooxidation, enzymatic degradation, and photodegradation. The OP herbicide glyphosate (GP) is one of the most used herbicides worldwide, leading to excess GP in wastewater and soil. GP is commonly broken down in environmental conditions to compounds such as aminomethylphosphonic acid (AMPA) or sarcosine, with AMPA having a longer half-life and similar toxicity to GP. Metal-organic frameworks (MOFs) are excellent materials for purifying OP herbicides from water due to their ability to combine adsorption and photoactivity within one material. Herein, we report the use of a robust Zr-based MOF with a meta-carborane carboxylate ligand (mCB-MOF-2) to examine the adsorption and photodegradation of GP. The maximum adsorption capacity of mCB-MOF-2 for GP was determined to be 11.4 mmol/g. Non-covalent intermolecular forces between the carborane-based ligand and GP within the micropores of mCB-MOF-2 are thought to be responsible for strong binding affinity and capture of GP. After 24 h of irradiation with ultraviolet-visible (UV-vis) light, mCB-MOF-2 selectively converts 69% of GP to sarcosine and orthophosphate, following the C-P lyase enzymatic pathway and biomimetically photodegrading GP. Circumventing the production of AMPA is desirable, as it has a longer half-life and similar toxicity to GP. The exceptional adsorption capacity of GP by mCB-MOF-2 and its biomimetic photodegradation to non-toxic sarcosine make it a promising material for removing OP herbicides from water.
Text
jacs.3c02019
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More information
Accepted/In Press date: 6 June 2023
e-pub ahead of print date: 20 June 2023
Published date: 20 June 2023
Additional Information:
Funding Information:
L.G., F.T., C.V., and J.G.P. thank MINECO grants CTQ20, PID2019-106832RB-I00, and the Generalitat de Catalunya (2017/SGR/1720) for financial support. ICMAB acknowledges the support of the Spanish MINECO through the Severo Ochoa Centers of Excellence Program under grant SEV-2015-0496. L.G. acknowledges the China Scholarship Council (CSC) for his Ph.D. grants (201609110106). K.C.S. thanks the Department of Chemistry at Oregon State University for support through the start-up funding and SciRis-II. M.T.N. thanks the Department of Chemistry for support through the Milton Harris Graduate Fellowship (2022). The authors thank Dr. Patrick Reardon and Steve Huhn for helpful discussions associated with the NMR experiments and Dr. Christine Pastorek and the Integrated Lab at OSU for access to GCMS instrumentation. Some experiments were performed at the XALOC and NCD-SWEET beamlines of the ALBA synchrotron with the support of ALBA staff.
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Local EPrints ID: 480905
URI: http://eprints.soton.ac.uk/id/eprint/480905
ISSN: 0002-7863
PURE UUID: 7c1b0122-5447-49b9-8052-9888cbd4278b
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Date deposited: 10 Aug 2023 16:52
Last modified: 18 Mar 2024 02:50
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Contributors
Author:
Lei Gan
Author:
Makenzie T. Nord
Author:
Jacob M. Lessard
Author:
Noah Q. Tufts
Author:
Arunraj Chidambaram
Author:
Hongliang Huang
Author:
Eduardo Solano
Author:
Julio Fraile
Author:
Fabián Suárez-García
Author:
Clara Viñas
Author:
Francesc Teixidor
Author:
Kyriakos C. Stylianou
Author:
José G. Planas
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