Quaternary Ammonium Arylspiroborate Esters as Organo-Soluble, Environmentally Benign Wood Protectants
Jenny M. Carr A , Peter J. Duggan B C H , David G. Humphrey A F H , James A. Platts D and Edward M. Tyndall E GA ENSIS—Wood Processing and Products, CSIRO, Clayton South VIC 3169, Australia.
B School of Chemistry, Monash University, Melbourne VIC 3800, Australia.
C CSIRO Molecular and Health Technologies, Clayton South VIC 3169, Australia.
D School of Chemistry, Cardiff University, Cardiff CF10 3AT, UK.
E Centre for Green Chemistry, Monash University, Melbourne VIC 3800, Australia.
F Present address: Koppers Arch Wood Protection, Tullamarine VIC 3043, Australia.
G Present address: Biota Holdings Ltd, Notting Hill VIC 3168, Australia.
H Corresponding authors. Email: peter.duggan@csiro.au; david_humphrey@koppersarch.com.au
Australian Journal of Chemistry 58(12) 901-911 https://doi.org/10.1071/CH05226
Submitted: 26 August 2005 Accepted: 9 November 2005 Published: 20 December 2005
Abstract
As part of a larger project aimed at the development of leach resistant boron-based wood preservatives, the anti-fungal and termiticidal activities, and the resistance to leaching from timber, of three related tetra-n-butylammonium spiroborates, tetra-n-butylammonium bis(ortho-hydroxymethylphenolato)borate 2, tetra-n-butylammonium bis[catecholato(2–)-O,O′]borate 3, and tetra-n-butylammonium bis[salicylato(2−)-O,O']borate 4, have been examined. All three borates are found to be active against test organisms, with the following orders of activity being observed: 2 > 3 > 4 > boric acid against wood decay fungi, and 2 > 3 ≈ 4 > boric acid against termites. The most active compound in both assays 2 also has the highest calculated lipophilicity. In a test for permanence in wood, the following order of leach resistance is observed: 4 >> 3 ≈ 2 > boric acid. This order appears to correlate more closely with the stability constants of the borate esters, as determined using 11B NMR spectroscopy, rather than calculated lipophilicities.
Acknowledgments
This work was funded by the ARC, Monash University, and CSIRO Forestry and Forest Products. E.M.T. is a recipient of an Australian Postgraduate Award. Noni Johnson is thanked for helpful suggestions during the drafting of this manuscript.
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* In bioassays of this type, concentrations are commonly expressed as μmol per unit area rather than μmol per unit volume.
† Percentage mass loss = [(Mi – Mf)/Mi] × 100, where Mi is the initial mass of the wood block before exposure to fungus and Mf is the mass of the wood block after exposure to fungus (fungal matter was removed before weighing).
‡ A variety of optimization methods were tested using the X-ray crystal structure of 2 as a reference,[13] with AM1 giving the best results—see Accessory Materials for more information.
§ This solution contained some water from the 40% aqueous tetra-n-butylammonium hydroxide solution used to make up the sample.
II A study of aqueous sodium borate showed that at boron concentrations of 0.05 M and lower, polyborate signals were not detectable.[34] This limit is probably different for the largely non-aqueous [D6]DMSO/DMSO system used in this study, but is a reasonable approximation.
