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reportAgricultural Production
2.2.5 References

 

1.       ANDREESCU, S. & MARTY, J. L. (2006) Twenty years research in cholinesterase biosensors: From basic research to practical applications. Biomolecular Engineering, 23, 1-15.

2.       LIU, G. D. & LIN, Y. H. (2006) Biosensor based on self-assembling acetylcholinesterase on carbon nanotubes for flow injection/amperometric detection of organophosphate pesticides and nerve agents. Analytical Chemistry, 78, 835-843.

3.       VAMVAKAKI, V. & CHANIOTAKIS, N. A. (2007) Pesticide detection with a liposome-based nano-biosensor. Biosensors & Bioelectronics, 22, 2848-2853.

4.       LIN, Y. H., LU, F., TU, Y. & REN, Z. F. (2004a) Glucose biosensors based on carbon nanotube nanoelectrode ensembles. Nano Letters, 4, 191-195.

5.       HRAPOVIC, S., LIU, Y. L., MALE, K. B. & LUONG, J. H. T. (2004) Electrochemical biosensing platforms using platinum nanoparticles and carbon nanotubes. Analytical Chemistry, 76, 1083-1088.

6.       ZHANG, M. G., SMITH, A. & GORSKI, W. (2004) Carbon nanotube-chitosan system for electrochemical sensing based on dehydrogenase enzymes. Analytical Chemistry, 76, 5045-5050.

7.       SANZ, V. C., MENA, M. L., GONZALEZ-CORTES, A., YANEZ-SEDENO, P. & PINGARRON, J. M. (2005) Development of a tyrosinase biosensor based on gold nanoparticles-modified glassy carbon electrodes - Application to the measurement of a bioelectrochemical polyphenols index in wines. Analytica Chimica Acta, 528, 1-8.

8.       LI, Y. F., LIU, Z. M., LIU, Y. L., YANG, Y. H., SHEN, G. L. & YU, R. Q. (2006a) A mediator-free phenol biosensor based on immobilizing tyrosinase to ZnO nanoparticles. Analytical Biochemistry, 349, 33-40.

9.       VISWANATHAN, S., WU, L. C., HUANG, M. R. & HO, J. A. A. (2006) Electrochemical immunosensor for cholera toxin using liposomes and poly(3,4-ethylenedioxythiophene)-coated carbon nanotubes. Analytical Chemistry, 78, 1115-1121.

10.   YONZON, C. R., JEOUNGF, E., ZOU, S. L., SCHATZ, G. C., MRKSICH, M. & VAN DUYNE, R. P. (2004) A comparative analysis of localized and propagating surface plasmon resonance sensors: The binding of concanavalin a to a monosaccharide functionalized self-assembled monolayer. Journal of the American Chemical Society, 126, 12669-12676.

11.   JOSHI, K. A., TANG, J., HADDON, R., WANG, J., CHEN, W. & MULCHANDANI, A. (2005) A disposable biosensor for organophosphorus nerve agents based on carbon nanotubes modified thick film strip electrode. Electroanalysis, 17, 54-58.

12.   CHEN, H. D., ZUO, X. L., SU, S., TANG, Z. Z., WU, A. B., SONG, S. P., ZHANG, D. B. & FAN, C. H. (2008b) An electrochemical sensor for pesticide assays based on carbon nanotube-enhanced acetycholinesterase activity. Analyst, 133, 1182-1186.

13.   VAMVAKAKI, V. & CHANIOTAKIS, N. A. (2007) Pesticide detection with a liposome-based nano-biosensor. Biosensors & Bioelectronics, 22, 2848-2853.

14.   MCKENDRY, R., ZHANG, J. Y., ARNTZ, Y., STRUNZ, T., HEGNER, M., LANG, H. P., BALLER, M. K., CERTA, U., MEYER, E., GUNTHERODT, H. J. & GERBER, C. (2002) Multiple label-free biodetection and quantitative DNA-binding assays on a nanomechanical cantilever array. Proceedings of the National Academy of Sciences of the United States of America, 99, 9783-9788.

15.   TSCHMELAK, J., PROLL, G. & GAUGLITZ, G. (2005) Optical biosensor for pharmaceuticals, antibiotics, hormones, endocrine disrupting chemicals and pesticides in water: Assay optimization process for estrone as example. Talanta, 65, 313-323.

16.   RICKERBY, D. G. & MORRISON, M. (2007) Nanotechnology and the environment: A European perspective. Science and Technology of Advanced Materials, 8, 19-24.

17.   ERANNA, G., JOSHI, B. C., RUNTHALA, D. P. & GUPTA, R. P. (2004) Oxide materials for development of integrated gas sensors - A comprehensive review. Critical Reviews in Solid State and Materials Sciences, 29, 111-188.

18.   YE, X. J., SAKAI, K., OKAMOTO, H. & GARCIANO, L. O. (2008) A ground-based hyperspectral imaging system for characterizing vegetation spectral features. Computers and Electronics in Agriculture, 63, 13-21.

19.   EIGENBERG, R. A., BROWN-BRANDL, T. M. & NIENABER, J. A. (2008) Sensors for dynamic physiological measurements. Computers and Electronics in Agriculture, 62, 41-47.

20.   KRUGER, E. L., SOMASUNDARAM, L., KANWAR, R. S. & COATS, J. R. (1993) PERSISTENCE AND DEGRADATION OF [C-14] ATRAZINE AND [C-14] DEISOPROPYLATRAZINE AS AFFECTED BY SOIL DEPTH AND MOISTURE CONDITIONS. Environmental Toxicology and Chemistry, 12, 1959-1967.

21.   MOGUL, M. G., AKIN, H., HASIRCI, N., TRANTOLO, D. J., GRESSER, J. D. & WISE, D. L. (1996) Controlled release of biologically active agents for purposes of agricultural crop management. Resources Conservation and Recycling, 16, 289-320.

22.   Pesticide regulations could threaten cereal yields (Food Navigator, 12.08.08)

23.   ANTON, N., BENOIT, J. P. & SAULNIER, P. (2008) Design and production of nanoparticles formulated from nano-emulsion templates - A review. Journal of Controlled Release, 128, 185-199.

24.   FREDERIKSEN, H. K., KRISTENSON, H. G. & PEDERSEN, M. (2003) Solid lipid microparticle formulations of the pyrethroid gamma-cyhalothrin-incompatibility of the lipid and the pyrethroid and biological properties of the formulations. Journal of Controlled Release, 86, 243-252.

25.   WANG, L. J., LI, X. F., ZHANG, G. Y., DONG, J. F. & EASTOE, J. (2007b) Oil-in-water nanoemulsions for pesticide formulations. Journal of Colloid and Interface Science, 314, 230-235.

26.   ZENG, H., LI, X. F., ZHANG, G. Y. & DONG, J. F. (2008) Preparation and characterization of beta cypermethrin nanosuspensions by diluting O/W microemulsions. Journal of Dispersion Science and Technology, 29, 358-361.

27.   LAI, F., WISSING, S. A., MULLER, R. H. & FADDA, A. M. (2006a) Artemisia arborescens L essential oil-loaded solid lipid nanoparticles for potential agricultural application: Preparation and characterization. Aaps Pharmscitech, 7.

28.   TADROS, T., IZQUIERDO, R., ESQUENA, J. & SOLANS, C. (2004) Formation and stability of nano-emulsions. Advances in Colloid and Interface Science, 108-09, 303-318.

29.   pSivida manufactures BioSilicon for drug delivery purpose in a number of medical conditions: www.psivida.com

30.   LIU, F., WEN, L. X., LI, Z. Z., YU, W., SUN, H. Y. & CHEN, J. F. (2006) Porous hollow silica nanoparticles as controlled delivery system for water-soluble pesticide. Materials Research Bulletin, 41, 2268-2275.

31.   LI, Z. Z., XU, S. A., WEN, L. X., LIU, F., LIU, A. Q., WANG, Q., SUN, H. Y., YU, W. & CHEN, J. F. (2006b) Controlled release of avermectin from porous hollow silica nanoparticles: Influence of shell thickness on loading efficiency, UV-shielding property and release. Journal of Controlled Release, 111, 81-88.

32.   NanoPool http://www.nanopool.eu/english/news.htm

33.   CHOY, J. H., CHOI, S. J., OH, J. M. & PARK, T. (2007) Clay minerals and layered double hydroxides for novel biological applications. Applied Clay Science, 36, 122-132.

34.   LEE, W.F. & FU, Y.T. (2003) Effect of montmorillonite on the swelling behavior and drug-release behavior of nanocomposite hydrogels. Journal of Applied Polymer Science, 89, 3652–3660.

35.   EL-NAHHAL, Y., NIR, S., MARGULIES, L. & RUBIN, B. (1999) Reduction of photodegradation and volatilization of herbicides in organo-clay formulations. Applied Clay Science, 14, 105-119.

36.   OLANREWAJU, J., NEWALKAR, B. L., MANCINO, C. & KOMARNENI, S. (2000) Simplified synthesis of nitrate form of layered double hydroxide. Materials Letters, 45, 307-310.

37.   BIN HUSSEIN, M.Z., ZAINAL, Z., YAHAYA, A.H. & FOO, D.W. (2002) Controlled release of a plant growth regulator, alpha-naphthaleneacetate from the lamella of Zn–Al-layered double hydroxide nanocomposite. Journal of Controlled Release, 82, 417-427.

38.   LAKRAIMI, M., LEGROURI, A., BARROUG A., DE ROY A. & BESSE, J.P. (2000) Preparation of a new stable hybrid material by chloride-2,4-dichlorophenoxyacetate ion exchange into the zinc–aluminium–chloride layered double hydroxide. Journal of Materials Chemistry, 10, 1007-1011.

39.   PAILLOT, R., KYDD, J. H., SINDLE, T., HANNANT, D., TOULEMONDE, C. E., AUDONNET, J. C., MINKE, J. M. & DALY, J. M. (2006) Antibody and IFN-gamma responses induced by a recombinant canarypox vaccine and challenge infection with equine influenza virus. Veterinary Immunology and Immunopathology, 112, 225-233.

40.   ELVIN, S. J., EYLES, J. E., HOWARD, K. A., RAVICHANDRAN, E., SOMAVARAPPU, S., ALPAR, H. O. & WILLIAMSON, E. D. (2006) Protection against bubonic and pneumonic plague with a single dose microencapsulated sub-unit vaccine. Vaccine, 24, 4433-4439.

41.   GIUDICE, E. L. & CAMPBELL, J. D. (2006) Needle-free vaccine delivery. Advanced Drug Delivery Reviews, 58, 68-89.

42.   GREENWOOD, D. L. V., DYNON, K., KALKANIDIS, M., XIANG, S., PLEBANSKI, M. & SCHEERLINCK, J. P. Y. (2008) Vaccination against foot-and-mouth disease virus using peptides conjugated to nano-beads. Vaccine, 26, 2706-2713.

43.   REN, Z. J., TIAN, C. J., ZHU, Q. S., ZHAO, M. Y., XIN, A. G., NIE, W. X., LING, S. R., ZHU, M. W., WU, J. Y., LAN, H. Y., CAO, Y. C. & BI, Y. Z. (2008b) Orally delivered foot-and-mouth disease virus capsid protomer vaccine displayed on T4 bacteriophage surface: 100% protection from potency challenge in mice. Vaccine, 26, 1471-1481.

44.   WU, J. M., TU, C. C., YU, X. L., ZHANG, M. L., ZHANG, N. Z., ZHAO, M. Y., NIE, W. X. & REN, Z. J. (2007) Bacteriophage T4 nanoparticle capsid surface SOC and HOC bipartite display with enhanced classical swine fever virus immunogenicity: A powerful immunological approach. Journal of Virological Methods, 139, 50-60.

45.   KUMAR, S. R., AHMED, V. P. I., PARAMESWARAN, V., SUDHAKARAN, R., BABU, V. S. & HAMEED, A. S. S. (2008) Potential use of chitosan nanoparticles for oral delivery of DNA vaccine in Asian sea bass (Lates calcarifer) to protect from Vibrio (Listonella) anguillarum. Fish & Shellfish Immunology, 25, 47-56.

46.   KANG, M. L., JIANG, H. L., KANG, S. G., GUO, D. D., LEE, D. Y., CHO, C. S. & YOO, H. S. (2007) Pluronic((R)) F127 enhances the effect as an adjuvant of chitosan microspheres in the intranasal delivery of Bordetella bronchiseptica antigens containing dermonecrotoxin. Vaccine, 25, 4602-4610.

47.   FENG, J. L., SHAN, M., DU, H. H., HAN, X. Y. & XU, Z. R. (2008a) In vitro adsorption of zearalenone by cetyltrimethyl ammonium bromide-modified montmorillonite nanocomposites. Microporous and Mesoporous Materials, 113, 99-105.

48.   DIXON, J. B., KANNEWISCHER, I., ARVIDE, M. G. T. & VELAZQUEZ, A. L. B. (2008) Aflatoxin sequestration in animal feeds by quality-labeled smectite clays: An introductory plan. Applied Clay Science, 40, 201-208.

49.   YUAN, G. D. & WU, L. H. (2007) Allophane nanoclay for the removal of phosphorus in water and wastewater. Science and Technology of Advanced Materials, 8, 60-62.

50.   ZADAKA, D., MISHAEL, Y. G., POLUBESOVA, T., SERBAN, C. & NIR, S. (2007) Modified silicates and porous glass as adsorbents for removal of organic pollutants from water and comparison with activated carbons. Applied Clay Science, 36, 174-181.

51.   MCMURRAY, T. A., DUNLOP, P. S. M. & BYRNE, J. A. (2006) The photocatalytic degradation of atrazine on nanoparticulate TiO2 films. Journal of Photochemistry and Photobiology a-Chemistry, 182, 43-51.

52.   RICKERBY, D. & MORRISON, M. (2007) Prospects for environmental nanotechnologies.  Nanotechnology Perceptions,3,193–207.

53.   ZHENG, Y., CAO, T. P. & WANG, A. Q. (2008) Preparation, swelling, and slow-release characteristics of superabsorbent composite containing sodium humate. Industrial & Engineering Chemistry Research, 47, 1766-1773.

54.   LIANG, R. & LIU, M. (2007) Preparation of poly(acrylic acid-co-acrylamide)/kaolin and release kinetics of urea from it. Journal of Applied Polymer Science, 106, 3007-3015.

55.   Plant protection and growth stimulation by nanoscalar particle folial delivery, United States Patent Application 20060014645

56.   MOELLER, L. & WANG, K. (2008) Engineering with precision: Tools for the new generation of transgenic crops. Bioscience, 58, 391-401.

57.   TORNEY, F., TREWYN, B. G., LIN, V. S. Y. & WANG, K. (2007) Mesoporous silica nanoparticles deliver DNA and chemicals into plants. Nature Nanotechnology, 2, 295-300.

58.   ALEMDAR, A. & SAIN, M. (2008b) Isolation and characterization of nanofibers from agricultural residues - Wheat straw and soy hulls. Bioresource Technology, 99, 1664-1671.

59.   ZHAO, R. X., TORLEY, P. & HALLEY, P. J. (2008) Emerging biodegradable materials: starch- and protein-based bio-nanocomposites. Journal of Materials Science, 43, 3058-3071.

60.   FREY, M. W. (2008) Electrospinning cellulose and cellulose derivatives. Polymer Reviews, 48, 378-391.

61.   MURPHY, C. J. (2008) Sustainability as an emerging design criterion in nanoparticle synthesis and applications. Journal of Materials Chemistry, 18, 2173-2176.

62.   RAMEZANI, N., EHSANFAR, Z., SHAMSA, F., AMIN, G., SHAHVERDI, H. R., ESFAHANI, H. R. M., SHAMSAIE, A., BAZAZ, R. D. & SHAHVERDI, A. R. (2008) Screening of medicinal plant methanol extracts for the synthesis of gold nanoparticles by their reducing potential. Zeitschrift Fur Naturforschung Section B-a Journal of Chemical Sciences, 63, 903-908.

63.   BASAVARAJA, S., BALAJI, S. D., LAGASHETTY, A., RAJASAB, A. H. & VENKATARAMAN, A. (2008) Extracellular biosynthesis of silver nanoparticles using the fungus Fusarium semitectum. Materials Research Bulletin, 43, 1164-1170.

64.   MUKHERJEE, P., ROY, M., MANDAL, B. P., DEY, G. K., MUKHERJEE, P. K., GHATAK, J., TYAGI, A. K. & KALE, S. P. (2008) Green synthesis of highly stabilized nanocrystalline silver particles by a non-pathogenic and agriculturally important fungus T-asperellum. Nanotechnology, 19, 7.

65.   KROGER, N. (2007) Prescribing diatom morphology: toward genetic engineering of biological nanomaterials. Current Opinion in Chemical Biology, 11, 662-669.

66.   Geohumus is a patent-pending nanoparticulate that is super-adsorbent, and has undergone field-trials in desert areas (http://www.geohumus.com/).

67.   Drip flow herbicides using nanoclay particles (http://www.geoflow.com/)

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