Controlled release of herbicide into water from beta-naphtoxyacetic acid-layered double hydroxide nanohybrid formulation

At present, the use of huge quantities of herbicides in conventional agriculture has lead to some major environmental problems. Controlled release formulations (CRF) are now being developed to avoid such problems. The release of beta-naphtoxyacetic acid (BNOA) into aqueous solution from controlled-r...

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Bibliographic Details
Published in2009 3rd International Conference on Energy and Environment (ICEE) pp. 436 - 442
Main Authors binti Jubri, Z., binti Mohd Yusoff, N.Z.A., binti Marsom, E.S., binti Sarijo, S.H.
Format Conference Proceeding
LanguageEnglish
Published IEEE 01.12.2009
Subjects
Agricultural engineering
beta-naphtoxyacetic acid
Control systems
Controlled release
Environmental factors
herbicide
Inorganic materials
Layered double hydroxide
Mathematics
Nanostructured materials
Organic materials
Power engineering and energy
Protection
Soil
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Summary:At present, the use of huge quantities of herbicides in conventional agriculture has lead to some major environmental problems. Controlled release formulations (CRF) are now being developed to avoid such problems. The release of beta-naphtoxyacetic acid (BNOA) into aqueous solution from controlled-release formulation (CRF) prepared by the intercalation of BNOA anion into Zn-Al-layered double hydroxide (ZAL) was studied. CRF consisting of organic-inorganic nanohybrid material was synthesized by coprecipitation method using BNOA as guest anion and Zn-Al-LDH as the inorganic host. As a results of successful intercalation of BNOA ion into Zn-Al-LDH, the powder X-ray diffractogram shows that the basal spacing of Zn-Al-LDH with BNOA as interlayer ion expanded from 8.93 A¿ to 19.46 A¿. This expansion is to accommodate BNOA ion for the formation of Zn-Al-BNOA nanocomposite (ZAB). The reverse process, i.e., the deintercalation or release of the guest, BNOA was found to be rapid initially, followed by more sustained release thereafter and this behavior was dependent on the type of anions and the concentrations of the release medium, the aqueous solution. The mechanism of release has been interpreted on the basis ion-exchange process between the BNOA anion intercalated into the interlamellae host and carbonate or chloride and/or hydroxyl anions in the aqueous solution.
ISBN:9781424451449
1424451442
DOI:10.1109/ICEENVIRON.2009.5398609