Environmental Engineering Reference
In-Depth Information
[54] Ahmad A, Senapati S, Khan MI, Kumar R, Ramani R, Srinivas V, Sastry M. Intracellular synthesis of gold nanoparticles by a novel
alkalotolerant actinomycete,
Rhodococcus
species. Nanotechnology 2003;14 (7):824.
[55] Bharde A, Kulkarni A, Rao M, Prabhune A, Sastry M. Bacterial enzyme mediated biosynthesis of gold nanoparticles. J Nanosci
Nanotechnol 2007;7 (12):4369-4377.
[56] Mukherjee P, Ahmad A, Mandal D, Senapati S, Sainkar SR, Khan MI, Ramani R, Parischa R, Ajaykumar PV, Alam M, Sastry M,
Kumar R. Bioreduction of Aucl
4-
ions by the fungus, Verticillium sp. and surface trapping of the gold nanoparticles formed. Angew
chem Int ed 2001;40 (19):3585-3588.
[57] Mukherjee P, Ahmad A, Mandal D, Senapati S, Sainkar SR, Khan MI, Parischa R, Ajaykumar PV, Alam M, Kumar R, Sastry M.
Fungus-mediated synthesis of silver nanoparticles and their immobilization in the mycelial matrix: a novel biological approach to
nanoparticle synthesis. Nano lett 2001;1 (10):515-519.
[58] Shankar SS, Ahmad A, Pasricha R, Sastry M. Bioreduction of chloroaurate ions by geranium leaves and its endophytic fungus yields
gold nanoparticles of different shapes. J Mater chem 2003;13 (7):1822-1826.
[59] Mukherjee P, Senapati S, Mandal D, Ahmad A, Khan MI, Kumar R, Sastry M. extracellular synthesis of gold nanoparticles by the
fungus
Fusarium oxysporum
. chemBiochem 2002;3 (5):461-463.
[60] Ahmad A, Mukherjee P, Senapati S, Mandal D, Khan MI, Kumar R, Sastry M. extracellular synthesis of silver nanoparticles using the
fungus
Fusarium oxysporum
. colloids Surface B 2003;28 (4):313-318.
[61] Senapati S, Ahmad A, Khan MI, Sastry M, Kumar R. extracellular biosynthesis of bimetallic Au-Ag alloy nanoparticles. Small 2005;1
(5):517-520.
[62] Nair B, Pradeep T. coalescence of nanoclusters and formation of submicron crystallites assisted by
Lactobacillus
strains. cryst Growth
Des 2002;2 (4):293-298.
[63] Manceau A, Nagy Kl, Marcus MA, lanson M, Geoffroy N, Jacquet T, Kirpichtchikova T. Formation of metallic copper nanoparticles
at the soil−root interface. environ Sci Technol 2008;42 (5):1766-1772.
[64] Shankar SS, Ahmad A, Pasricha R, Khan MI, Kumar R, Sastry M. Immobilization of biogenic gold nanoparticles in thermally
evaporated fatty acid and amine thin films. J colloid Interface Sci 2004;274 (1):69-75.
[65] Shankar SS, Rai A, Ankamwar B, Singh A, Ahmad A, Sastry M. Biological synthesis of triangular gold nanoprisms. Nat Mater 2004;3
(7):482-488.
[66] Shankar SS, Rai A, Ahmad A, Sastry M. Rapid synthesis of Au, Ag, and bimetallic Au core-Ag shell nanoparticles using Neem
(Azadirachta indica) leaf broth. J colloid Interface Sci 2004;275 (2):496-502.
[67] Singh A, Pasricha R, Sastry M. Ultra-low level optical detection of mercuric ions using biogenic gold nanotriangles. Analyst 2012;137
(13):3083-3090.
[68] Kim y, Johnson Rc, Hupp JT. Gold nanoparticle based sensing of “spectroscopically silent” heavy metal ions. Nano lett 2001;1
(4):165-167.
[69] Shukla R, Nune SK, chanda N, Katti K, Mekapothula S, Kulkarni RR, Welshons WV, Kannan R, Katti KV. Soybeans as a phytochem-
ical reservoir for the production and stabilization of biocompatible gold nanoparticles. Small 2008;4 (9):1425-1436.
[70] Katti K, chanda N, Shukla R, Zambre A, Suibramanian T, Kulkarni RR, Kannan R, Katti KV. Nanotechnology from cumin phyto-
chemicals: Generation of biocompatible gold nanoparticles. Int J Nanotechnol Biomed 2009;1 (1):B39-B52.
[71] Nune SK, chanda N, Shukla R, Katti K, Kulkarni RR, Thilakavathy S, Mekapothula S, Kannan R, Katti KV. Green nanotechnology
from tea: phytochemicals in tea as building blocks for production of biocompatible gold nanoparticles. J Mater chem 2009;19
(19):2912-2920.
[72] Viator JA, Gupta S, Goldschmidt BS, Bhattacharyya K, Kannan R, Shukla R, Dale PS, Boote e, Katti K. Gold nanoparticle medi-
ated detection of prostate cancer cells using photoacoustic flowmetry with optical reflectance. J Biomed Nanotechnol 2010;6
(2):187-191.
[73] chanda N, Shukla R, Zambre A, Mekapothula S, Kulkarni RR, Katti K, Bhattacharyya K, Fent GM, casteel SW, Boote eJ. An effec-
tive strategy for the synthesis of biocompatible gold nanoparticles using cinnamon phytochemicals for phantom cT imaging and
photoacoustic detection of cancerous cells. Pharm Res 2011;28 (2):279-291.
[74] Shukla R, chanda N, Zambre A, Upendran A, Katti K, Kulkarni RR, Nune SK, casteel SW, Smith cJ, Vimal J. laminin receptor
specific therapeutic gold nanoparticles (
198
AuNP-eGcG) show efficacy in treating prostate cancer. Proc Natl Acad Sci USA 2012;109
(31):12426-12431.
[75] Du l, Jiang H, liu X, Wang e. Biosynthesis of gold nanoparticles assisted by escherichia coli DH5α and its application on direct elec-
trochemistry of haemoglobin. electrochem commun 2007;9 (5):1165-1170.
[76] Wang y, He X, Wang K, Zhang X, Tan W. colloids Surf. Bull Am Meteorol Soc 2009;73 (1):75-79.
[77] Dhar S, Reddy eM, Shiras A, Pokharkar V, Prasad BlV. Natural gum reduced/stabilized gold nanoparticles for drug delivery formula-
tions. chem eur J 2008;14 (33):10244-10250.
[78] Sharma Nc, Sahi SV, Nath S, Parsons JG, Gardea- Torresde Jl, Pal T. Synthesis of plant-mediated gold nanoparticles and catalytic role
of biomatrix-embedded nanomaterials. environ Sci Technol 2007;41 (14):5137-5142.
