Dr. Ram Gopal
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Dr. Ram Gopal

Professor
Department of Physics, University of Allahabad, India

Highest Degree
D.Phil in Physics from University of Allahabad, India

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Area of Interest:

Physics
100%
Laser Induced Fluorescence
62%
Nano Science and Technology
90%
Material Science
75%
Spectroscopic Methods
55%

Research Publications in Numbers

Books
0
Chapters
1
Articles
67
Abstracts
2

Selected Publications

  1. Singh, S.C., R.K. Swarnkar and R. Gopal, 2010. Zn/ZnO core/shell nanoparticles synthesized by laser ablation in aqueous environment: Optical and structural characterizations. Bull. Mater. Sci., 33: 21-26.
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  2. Singh, S.C., R.K. Swarnkar and R. Gopal, 2009. Synthesis of Titanium and its oxide nanomaterial by laser ablation in aqueous media. J. Nanosci. Nanotech., 9: 1-5.
  3. Singh, S.C., R.K. Swarnkar and R. Gopal, 2008. Synthesis of cadmium and its oxide nanomaterials by pulsed laser ablation in aqueous media. Mater. Res. Soc., 1074: I10-74.
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  4. Singh, S.C. and R. Gopal, 2008. Synthesis of colloidal ZnO nanoparticles by pulsed laser ablation in aqueous media. Phys. E, 40: 724-730.
    CrossRef  |  
  5. Singh, S.C. and R. Gopal, 2008. Laser irradiance and wavelength-dependent compositional evolution of inorganic ZnO and ZnOOH/organic SDS nanocomposite material. J. Phys. Chem. C, 112: 2812-2819.
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  6. Ojha, K.S. and R. Gopal, 2008. Laser produced spectra of Si2 molecule in the region of 540-1010 nm. Spectro Chimica Acta A, 71: 1003-1006.
    CrossRef  |  
  7. Mishra, K.B. and R. Gopal, 2008. Detection of nickel-induced stress using laser-induced fluorescence signatures from leaves of wheat seedlings. Int. J. Remote Sensing, 29: 157-173.
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  8. Maurya, R., S.M. Prasad and R. Gopal, 2008. LIF technique offers the potential for the detection of cadmium-induced alteration in photosynthetic activity of Zea mays L. J. Photochem. Photoiol. C: Photochem. Rev., 9: 29-35.
    CrossRef  |  
  9. Maurya, R. and R. Gopal, 2008. Laser-induced fluorescence ratios of Cajanus cajan L. under the stress of cadmium and its correlation with pigment content and pigment ratios. Applied Spectroscopy, 62: 433-438.
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  10. Singh, S.C. and R. Gopal, 2007. Zinc nanoparticles in solution by laser ablation technique. Bull. Mat. Sci., 30: 291-293.
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  11. Singh, S.C., K.S. Ojha and R. Gopal, 2006. Laser-induced breakdown spectra of Zn2 molecule in violet region. Pramana, 67: 519-527.
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  12. Ojha, K.S. and R. Gopal, 2006. Laser produced spectrum of SiN molecule. Ind. J. Phys., 80: 819-822.
  13. Mishra K.B. and R. Gopal, 2005. Laser induced fluorescence spectra of leaves of wheat seedlings growing under cadmium stress. Gen. Applied Plant Physiol., 31: 181-196.
  14. Mishra, K.B. and R. Gopal, 2004. Laser induced spectra fluorescence spectra of wheat seedlings growing under insecticide stress. Proceedings of the 13th International Congress on Photosynthesis, Aug. 29-Sept. 3, Montreal, Canada, pp: 1057-1061.
  15. Gopal, R. and K.B. Mishra, 2004. Laser induced fluorescence study of vegetation. Bull. Laser Spectroscopy Soc. India, 13: 39-54.
  16. Gopal, R., K.B. Mishra, M. Zeeshan, S.M. Prasad and M.M Joshi, 2002. Laser-induced chlorophyll fluorescence spectra of mung plants growing under nickel stress. Curr. Sci., 83: 880-884.
    Direct Link  |  
  17. Gopal, R. and M.M. Joshi, 2000. Laser produced spectra of Al2 molecule. Asian J. Phys., 9: 895-898.