|1||Nanometer-Scale Patterning of Alkali Halide Surfaces by Ion Bombardment
S. R.. Saeed, O.P. Sinha, F. Krork and M. Szymonski ,Applied Surface Science, 255, 2008, p.1766 (Impact Factor ~2.5)
|2||Recrystallization of ion-irradiated germanium due to intense electronic excitation rT. Som, J. Ghatak ,O. P. Sinha, R. Sivakumar and D. Kanjilal
Journal of Applied Physics 103, 2008 p.123532 (Impact Factor ~3.5)
|3||MeV Heavy Ion Induced Recrystallization of buried Si3N4 Layer: Role of Energy Loss, T.Som, O.P. Sinha, J. Ghatak, B. Satpati and D. Kanjilal
Journal of Applied Physics, 101, 2007, p.034912 (Impact Factor ~3.5)
|4||Surface Modification by Swift (~100 MeV) Si7+ and Au7+ Ions Irradiation in n-GaAs O.P. Sinha, V. Ganesana and P.C. Srivastava, Nucl. Instr. Methods in Phy. Res. B; 244, 2006, p.149(Impact Factor ~1.7)|
|5||Role of Electronic and Nuclear Energy Losses in Swift Heavy Ion Beam Induced epitaxial crystallization of buried Si3N4 layer, T. Som, B. Satpati, O.P. Sinha, D.K. Avasthia and D. Kanjilal, Nucl. Instr. Methods in Phy. Res. B; 245, 2006, p. 255(Impact Factor ~1.7)|
|6||MeV heavy ion beam induced epitaxial crystallization of buried Si3N4 layer
T. Som, B. Satpati, O.P. Sinha, N.C. Mishra and D. Kanjilal, Nucl. Instr. Methods in Phy. Res. B; 244, 2006, p.213(Impact Factor ~1.7)
|7||Swift heavy ion induced epitaxial crystallization of buried Si3N4 layer
T. Som, B. Satpati, O.P. Sinha and D. Kanjilal, Journal of Applied Physics 98, 2005, p. 013532 (Impact Factor ~3.5)
|8||Creating surface nanostructures in GaAs by MeV Au2+ ions
O.P. Sinha, V. Ganesan and T. Som
(Surface Coating and Technology) – Accepted (Impact Factor ~2.3),2010
|9||Nanometer-Scale Surface Modification of KBr(001) Single Crystal by Ar Ion Bombardment, S. R. Saeed, O.P. Sinha, F. Krok and M. Szymonski
(Surface Coating and Technology)- Accepted (Impact Factor ~2.3)2010
|10||Temperature dependent surface modification of InSb(001) crystal by low-energy ion bombardment, S. R. Saeed, O. P. Sinha, F. Krok, T. Zembok, R. Pedrys, and M. Szymonski, (Nucl. Instr. Methods in Phy. Res B)- Accepted(Impact Factor ~1.7),2010|
Application of poly (pyrrole-co-N-methyl pyrrole) to cholesterol biosensor, Karunendra Singh, T. Basu, P. R. Solanki and B. D. Malhotra, J. Material Science Lett. , 44,954, 4(2009)
|12||Recent advances in carbon nanotube based biosensors, T. Basu , P. R. Solanki and B. D. Malhotra , J. Biomed. Nanotechnol. 2010 (in press revesion)|
|13||Deepshikha and T. Basu A review on synthesis and characterization of nanostructured conducting polymer and its application in biosensors, , Analytical Letter, 2011 (in press)|
|14||Development of transducer matrices based upon nanostructured conducting polymer for application in biosensors, Deepshikha, T. Basu , Indian J. of Biology, 48,1053 (2010)|
|15||Modulation of the physicochemical properties of chitosan nanoparticles for optimum delivery of plasmid DNA through gill mucosa.
Vimal Sharma, Isha Mutreja, Susmita Mitra.
International Journal of Nanoscience, Accepted for publication, December 2008.
|16||Plasmid DNA loaded Calcium Phosphate nanoparticles: Highly Efficient Non-viral Vector for Gene Delivery. S.Bisht, G.Bhakta, S.Mitra, A.N.Maitra.
International Journal of Pharmaceutics, 288(1): 157-68, 2005.
|17||DNA encapsulated Magnesium and Manganous phosphate nanoparticles: potential non-viral vectors for gene deliv G.Bhakta, S.Mitra, A.N.Maitra.
Biomaterials, 26 (14): 2157-2163, 2005.
|18||Design and simuation of d- Latch and Multiplexer using V MOS, Robin Kumar & Arvind Kumar, ISBN 978-1-4244-7199-7 © 2010 IEEE|
|19||G.Singhal, R. Bhavesh, K. Kasariya, A. R. Sharma, R. P. Singh. Biosynthesis of silver nanoparticles using Ocimum sanctum leaf extract and screening its antimicrobial activity. J. Nanoparticle Research. (Accepted),2010|
|20||Biological synthesis of silver nano particles by using onion (Allium cepa) Extract and their antibacterial activities, Antariksh Saxena,R. M.Tripathi, and R.P.Singh., Digest journal of Nano materials and Biostructure 5, 427(2010)|
|21||Effect of acetosyringone and callus age on transformation for scutellum-derived callus of rice. R.M.Tripathi, H.S.Bisht, R.P.Singh.International Journal of Pharma and Biosciences, Vol-1, 163-171 (2010).|
|22||High antibacterial activity of silver nanoballs against E.Coli MTCC1302, S-typhimusium MTCC 1254, b.sUBTILISmtcc1133 and P.aeruginesa MTCC 2295 DJ14 B. R.M.Tripathi, Antariksh Saxena, Nidhi Gupta, Harsh Kapoor, R.P.Singh. Vol-5 323-330, 2010|
|23||Cross Linking Polymers (PVA & PEG) with TiO2 Nanoparticles for Humidity Sensing
Monika Joshi and R. P. Singh, Sensors & Transducers Journal, Vol. 110, Issue 11, November 2009, pp. 105-111.
|24||Studies of CNT and Polymer Based Gas Sensor, Monika Joshi and R. P Singh, Sensors & Transducers Journal, Vol. 122, Issue 11, November 2010, pp. 66-71.|
|25||Formation of GaAs nanostructures by MeV Au-ions
O.P. Sinha, V. Ganesan and T.Som
Radiaition Effects and Defects in Solids, Accepted 2011)
|Temperature and fluence dependent synthesis of GaAs nanostructures by swift Au-ions
O.P. Sinha, S. Verma, T.Som and D. Kanjilal
Radiaition Effects and Defects in Solids, Accepted ( 2011)
|27||Swift heavy ion induced modification in Frequency dependent C-V and I-V characteristics of Pd/n-GaAs Schottky barrier diode
O.P. Sinha and P.C. Srivastava
Radiaition Effects and Defects in Solids, Accepted (2011)