Publications

    Web Link (Google Scholar)


      1. Stabilization of ferromagnetism via structural modulations in Cr-doped CaRuO3 : A neutron
        diffraction and Raman spectroscopy study
        Pooja, K.S. Chikara, Aprajita, S. N. Sarangi, D. Samal, S. Saha, A.K. Bera, S.M. Yusuf, C. Sow
        Physical Review B 110 (18), 184425 (2024).

      2. Effect of Mg and rare earth ions co-doping on the structural and optical properties of ZnO nanorods
        U. K. Panigrahi, D. Das, S. K. Satpathy, S.a Panigrahi, P.K. Satapathy, S. Hussain, S.N. Sarangi, P. Mallick
        Journal of Materials Science: Materials in Electronics, 35, 1-13 (2024).

      3. Observation of Second-Order Phase Transition in Canted Antiferromagnet a-Cu2V2O7 Using Magnetocaloric Effect
        A.N. ESR, S.N. Sarangi, D. Samal, B.C. Behera
        ACS Appl. Electron. Mater. 6, 5, 3089 (2024).

      4. Fe2-xCuxSnS4: Synthesis, Structure and Magnetic Properties of a Series of Disordered Spinels
        P. Agasti, S. Panda, A. Mishra, S.N. Sarangi, D. Samal, N. Mohapatra, S. L. Samal
        Journal of Solid State Chemistry, 124707, (2024).

      5. Evolution of ferrimagnetism against Griffiths singularity in calcium ruthenate
        P. Kesarwani, S.N. Sarangi , D. Samal, C. Sow
        Journal of Physics: Condensed Matter 36 (26), 265603 (2024).

      6. Magnetic coupling at the interface between ultrathin tetragonal CuO and La0.7Sr0.3MnO3
        D. Palai, R. Kumar, M. Tahir, P. Gupta, S. N. Sarangi , S. Bedanta, G. Tripathy, S. Mukhopadhyay, Z. Hossain, D. Samal
        Physical Review B 109 (14), 144423 (2024).

      7. Magnetic anisotropy and magnetocaloric effect in thin films
        A. Ghosh, R. Roy, R.C. Sahoo, S. N. Sarangi, M. Ghosh, D. Mazumdar,
        D. Samal, P. S. Anil Kumar, Z. Hossain, S. Kanungo, C. Sow.
        Physical Review B 108 (21), 214423 2023.

      8. Electronic Transport and Fermi Surface Topology of Zintl phase Dirac Semimetal SrZn2Ge 22
        M. K. Hooda, A. Chakraborty, S. Roy, A. Agarwal, P. Mandal, S. N. Sarangi,
        D. Samal, V. P. S. Awana, Z Hossain.
        arXiv preprint arXiv:2310.10621, 2023.

      9. Crystal structure and magnetic properties of the spin- frustrated two-leg ladder compounds
        P. Biswal, S. Guchhait, S. Ghosh, S. N. Sarangi, D. Samal, D. Swain, M. Kumar, R. Nath.
        Physical Review B 108 (13), 134420, 2023.

      10. Investigating the effect of H+-ion irradiation on layered a-MoO3 flakes by defect engineering
        R. Kumar, V. Mishra, T. Dixit, S. N. Sarangi , D. Samal, M. Miryala, P. K. Nayak,M. S. Rao.
        Applied Physics Letters 123 (15) 2023.

      11. Room Temperature Synthesis of Structure - Morphology Tuned
        Copper Doped ZnO Nanorods and their Exciting Photo-physics
        S.N.Sarangi , R. K. Sahoo, A.K. Manna, P. Dash, S. K. Choudhury, S. Varma
        Journal of Materials Science: Materials in Electronics - 34:1610 (2023).

      12. Crystal structure and magnetic properties of spin - 1/2 frustrated two-leg
        ladder compounds (C4H14N2)Cu2X6 (X = Cl and Br)
        P. Biswal, S. Guchhait, S. Ghosh, S. N. Sarangi, D. Samal, D. Swain, M. Kumar, R. Nath.
        arXiv preprint arXiv:2306.15205 (2023).

      13. Evidence of weak itinerant ferromagnetism and Griffiths like phase in MnFeGe
        H. K. Dara, D. Patra,G. P. Moharana, S. N. Sarangi and D. Samal.
        J. Phys.: Condens. Matter 35, 395802, (2023).

      14. Emergent quantum transport due to quenched magnetic impurity scattering by
        antiferromagnetic proximity in SrCuO2/SrIrO3
        S. Jana, T. Senapati, S.G. Bhat, S. N. Sarangi, K. Senapati, D. Samal.
        Physical Review B 107 (13), 134415 (2023).

      15. Magnetic Nanoparticles-Based Novel Sensors for Select Biomedical/Biological Science Applications
        B.C Behera, S.N. Sarangi, N.K. Sahoo, S.P. Dash, S.K. Tripathy.
        Biomaterials-Based Sensors: Recent Advances and Applications, 325-348 (2023).

      16. Effect of an inner-transition metal (Dy) intercalation on the structure and magnetic properties of 1T-TiSe2
        S. Naik, S. N. Sarangi , D. Samal, S. L. Samal.
        Journal of Solid State Chemistry,318,123782 (2023).

      17. Nanomaterials for Monitoring Glucose in Diabetes
        S. N. Sarangi.
        Austin Journal of Biosensors & Bioelectronics 8 (1), 1045 (2023).

      18. Magnetic phase transition and magneto-elastic coupling in Fe 1+ x Cr2-x Se 4 (x= 0.0-0.50)
        V. Singh, S. N. Sarangi , D. Samal, R. Nath.
        Materials Research Bulletin 155, 111941 (2022).

      19. Dependence of Cu Doping on Stucture, Morphology, Magnetic and Biomedical Properties of ZnO Nanostructures
        S. N. Sarangi , S. Acharya, S.K. Biswal, K.K. Nanda.
        Materials Today Communications, 103803 (2022).

      20. Band gap engineering in ZnO Nanostructures / Microstructures
        S. Acharya, S. N. Sarangi, S.K. Biswal.
        Indian Journal of Natural Sciences 13 (71), 41541-41549 (2022).

      21. Facile two step synthesis of chemiresistive sensor based on Gamma-Fe2O3
        with activated carbon composites for room temperature alcohol vapour detection
        L. Jena, S.N. Sarangi, D. Soren, P.K. Deheri, P. Pattojoshi.
        Applied Physics A 128 (2), 1-11 (2022)

      22. Magnetic Performance of Bi Architecture a-Fe2O3/NiFe2O4 Nanocomposite
        S. Jena, D.K. Mishra, S. N. Sarangi, P. Mallick
        Journal of Superconductivity and Novel Magnetism, 1-6 (2022).

      23. Room temperature multiferroicity with enhanced ferroelectric
        and ferromagnetic properties in Ba 0. 75Pb 0. 25Ti 1-xFe xO3
        R. Amin, K. Samantaray, S. Ayaz, S. N Sarangi, I. Bhaumik, S. Sen
        Journal of Alloys and Compounds,897, 162734(2022)

      24. Facile synthesis of Super-paramagnetic Au@alpha-Fe2O3 hybrid
        nanoparticle and its assembly on graphene substrate for visible light Photo-catalysis
        R.K. Sahoo, A.K. Manna, A. Das, A. Mitra, M. Mohapatra, S.N Sarangi, P. Garg, U. Deshpande, S. Varma
        Applied Surface Science,577, 151954 (2022)

      25. Manifestation of dissimilar types of magnetism in iron-and chromium-substituted Mn2SnS4
        T.S. Dash, S. Naik, S.N. Sarangi, D. Samal, C.S. Yadav, S.D. Kaushik,S. L. Samal
        Dalton Transactions 50 (43), 15711-15720(2021)

      26. Tailoring magnetism in spinel vanadate CoV2O4 epitaxial thin films
        B. C. Behera, G. Sabat, S. G. Bhat, S. N. Sarangi, B. R. Sekhar, D. Samal
        Journal of Physics: Condensed Matter, 33, 365801 (2021)

      27. Enhanced critical current density and flux pinning of
        anthracene doped magnesium diboride superconductor
        I. Ahmad, S. N Sarangi, P. M. Sarun
        Journal of Alloys and Compounds, 160999 (2021)

      28. Schottky junction devices by using bio-molecule DNA template-based one
        dimensional CdS-nanostructures
        S. N. Sarangi , B.C. Behera, N. K. Sahoo, S. K. Tripathy
        https://doi.org/10.1016/j.bios.2021.113402
        Biosensors and Bioelectronics,190, 113402, (2021)

      29. Nominal Effect of Mg Intercalation on the Superconducting Properties of 2H-NbSe2
        S. Naik, S. Kalaiarasan, R. C. Nath, S. N. Sarangi, A.K. Sahu,D. Samal, H. S. Biswal, and S. L. Samal
        DOI:https://dx.doi.org/10.1021/acs.inorgchem.0c03545
        Inorg. Chem. 60, 7, 4588 (2021)

      30. Positive exchange bias and inverted hysteresis loop in Y3Fe5O12/ Gd3Ga5O12
        R. Kumar, S. N Sarangi, D. Samal, Z. Hossain
        Physical Review B 103 (6), 064421 (2021)

      31. A comparative study on the magnetic properties of undoped and Li-doped Cu(OH)2-CuO
        B. C. Behera, S. N. Sarangi, D. Samal, S. K. Tripathy
        Journal of Magnetism and Magnetic Materials 513, 167263 (2020)

      32. Dielectric, electrical and magnetic characteristics of BST modified BLFO lead free ceramic
        B. Mohanty, S. Bhattacharjee, S. N. Sarangi, NC Nayak, RK Parida and B. N. Parida,
        Journal of Alloys and Compounds,863, 158060 (2020)

      33. Enhanced magnetic field dependent critical current density of MWCNT doped
        magnesium diboride superconductor I. Ahmad, J. S. Hansdah, S. N. Sarangi, P. M. Sarun
        Journal of Alloys and Compounds, 834, 155033, (2020)

      34. Ferromagnetic properties in CuO-nanocrystals embedded in PVDF matrix
        S. Dolai, R Dey, S. N. Sarangi, S. Hussain, R. Bhar, A. K. Pal
        Journal of Magnetism and Magnetic Materials, 495, 165903, (2020)

      35. Mixed-valent antimony-induced disorder in substituted antiferromagnetic Mn2SnS4
        T. S. Dash, S.D. Kaushik, S. N. Sarangi, D Samal, C. S. Yadav, S. L. Samal
        Dalton Transactions, 49 (19), 6425-6433, (2020)

      36. Bioapplication of Inorganic Nanomaterials
        S. N. Sarangi and S. Nozaki
        A Handbook: Bioinspired Systems and Methods (Volume Seven) 1st Edition Edited by Klaus D. Sattler
        Publisher:Taylor & Francis Group, CRC-Press, Pages 7-14, (2020)

      37. Prediction of Ferromagnetism in Zn 0.99 Cu 0.010 nanorods
        S. Acharya, S. N. Sarangi and S. K. Biswal
        Adalya Journal, 9, 329 - 334, (2020)

      38. Ferromagnetic properties in CuO-nanocrystals embedded in PVDF matrix
        S.Dolai, R.Deya, S. N. Sarangi, S.Hussain, R.Bhar, A. K.Pal
        Journal of Magnetism and Magnetic Materials, 495, 165903 (2020)

      39. Effect of Structure and Morphology on the UV Photo Detection of
        ZnO Nanostructures and Microstructures
        S. Acharya, S.K. Biswal, S. N. Sarangi
        Chemical Physics, 523, 99-105 (2019)

      40. Occurrence of Ferromagnetic Behavior in ZrO 2 by Ni Substitution Beyond x= 0.01
        S.Pattanaik, D. K Mishra, S. Martha, G. Padhy, S. K. Pradhan, R. Saktivel, S. N. Sarangi
        Journal of Superconductivity and Novel Magnetism,1-9,(2019)

      41. Magnetic properties of nanocrystalline nickel incorporated CuO thin films
        S. Dolai, S. N. Sarangi, S. Hussain, R. Bhar, A.K. Pal
        Journal of Magnetism and Magnetic Materials, 479, 59-66 (2019)

      42. DNA assisted synthesis of CdS nanowires: A nano-bioelectronic device
        S. N. Sarangi, B. C Behera, M. Hota, S. K. Tripathy
        AIP Conference Proceedings 2005 (1), 070006 (2018).

      43. Band gap engineering in SnO2 by Pb doping
        S. N. Sarangi, G. K. Pradhan, D. Samal
        Journal of Alloys and Compounds, 762, 16-20 (2018).

      44. Different Morphology of ZnO Nanostructures Using Hydrothermal
        and Electro-Deposition Technique.
        S. N. Sarangi, S. Acharya, S. K. Biswal
        Aspects Min Miner Sci., AMMS.000515,(2018)

      45. CdS nanowires formed by chemical synthesis using conjugated
        single-stranded DNA molecules
        S. N. Sarangi, S.N Sahu, S. Nozaki
        Physica E: Low-dimensional Systems and Nanostructures, 97, 64-68 (2018)

      46. Biotemplated Synthesis of CdSe Nanowires.
        S. N. Sarangi
        Nanomed Nanotechnol, 00014 (2018)

      47. ZnO-nanorods: A possible white LED phosphor
        S. N. Sarangi, Arun T., D. K. Ray, P. K. Sahoo, S. Nozaki, N. Sugiyama, and K. Uchida
        AIP Conference Proceedings 1832, 060022; doi: 10.1063/1.4980427 (2017)

      48. Synthesis of Cu doped ZnO nanorods for photosensitive UV detection application
        S. N. Sarangi, V. Siva, B. K. Padhi and P. K. Sahoo
        Advanced Materials Letters, 8(4), 524-530, (2017).

      49. Controllable Growth of ZnO nanorods via Electro-deposition Technique: Towards UV Photo-detection
        S. N. Sarangi
        Journal of Physics D: Applied Physics, 49, 355103-355111 (2016)

      50. ZnO Nanorod-Based Non-Enzymatic Optical Glucose Biosensor
        S. N. Sarangi, S. Nozaki, S.N.Sahu
        Journal of Biomedical Nanotechnology 11 (6), 988-996 (2015)

      51. Selective Growth of ZnONano-Porous Films by the Hydrothermal Technique
        S. N. Sarangi, D.K. Ray, A.K. Behera
        International Journal of ChemTech Research 7 (3), pp 1656-1660 (2014).

      52. A white light emitting diode made of ZnO nanorods and a blue LED,
        S. N. Sarangi, S. Nozaki, S.N. Sahu, N.Sugiyama and K. Uchida,
        J Material Sci Eng, 2:4 (2013)

      53. Hydrothermal Growth of Zinc Oxide Nanorods and Glucose-Sensor Application
        S. Nozaki, S. N. Sarangi, K. Uchida,S. N. Sahu,
        Soft NonoSc. Lett. 3, 23 (2013)

      54. Intense Ultraviolet Photoluminescence Observed at Room Temperature from NiO
        Nanoporous Thin Films Grown by the Hydrothermal Technique
        S. N. Sarangi, D. Zhang, P. K. Sahoo, K. Uchida, S. N. Sahu and S. Nozaki
        MRS Proceedings 1494, (2013).

      55. Selective growth of ZnO nanorods by the hydrothermaltechnique
        S. N. Sarangi, S. Nozaki, S. N. Sahu
        Adv. Nat. Sci.: Nanosci. Nanotechnol. 4, 015008, (2013).

      56. Substrate Effect of Hydrother mally Grown ZnO Nanorods and its Luminescence Properties
        S. K. Das, S. N. Sahoo, S. N. Sarangi, P. K. Sahoo
        Journal of Experimental Nanoscience, 8(3), 382 (2013).

      57. Influence of bowl shaped substrate holder on growth of polymeric DLC film
        in a microwave plasma CVD reactor
        S. Sahoo, S.K Pradhan, V. Bhavanasi, S.S. Pradhan, S. N. Sarangi, P.K. Barhai
        Bulletin of Materials Science 35 (7), 1117-1121, (2012).

      58. Epitaxial growth of colloidal hydrophilic lattice matched HgTe/CdTe core/shell nanocrystals for UV luminescence
        A. M. P. Hussain, S. N. Sarangi, and S. N. Sahu
        Mat. Chem. Phys, 137, 389-395 (2012).

      59. Effect of low energy He- ion irradiation on structural
        and magnetic properties of thin Pt/Cr/Co + multilayers
        J.K. Tripathi, M.O. Liedke, T. Strache, S. N. Sarangi, R. Grtozschel, A. Gupta, T. Som
        Nucl. Instr. Meth. Phys. Res. B, 272 96-99 (2012).

      60. Effect of nanocrystalline silver impregnation on mechanical properties of
        diamond-like-car bon films by nano-indentation
        R. Paul, A. Dey, A. K. Mukherjee, S. N. Sarangi and A. K. Pal
        Indian J Pure & Appl. Phys., 50, 252-259 (2012).

      61. Low temperature stabilized rutile phase TiO2 films grown by sputtering
        S.S. Pradhan, S.K.Pradhan, V.Bhavanasi, S.Sahoo, S. N. Sarangi , S.Anwar and P.K.Barhai
        Thin Solid Films, 520, 1809-1813 (2012).

      62. Au-nanocluster emission based glucose sensing
        A.M.P. Hussain, S.N. Sarangi , J.A. Kesarwani and S. N. Sahu
        Biosens. Bioelectron. 29, 60-65 (2011)

      63. In vitro biosynthesis and genotoxicity bioassay of silver
        nanaoparticles using plants
        K. K. Panda, V. Mohan M. Achary, R. Krishnaveni, B. K. Padhi, S. N. Sarangi , S. N. Sahu, B. B. Panda
        Toxicology in Vitro, 25, 1097-1105 (2011).

      64. Effect of Bimodal Size Distribution on Optical Properties of CdSe Nanocrystals,
        S.N.Sarangi , A. M. P. Hussain, and S. N. Sahu,
        Current Nanoscience, 7, 275 (2011) .

      65. Unusual ferromagnetism in high purity ZnO sintered ceramics,
        J. Das, S.K. Pradhan, D.K. Mishra, D.R. Sahu, S.Sarangi , S. Varma, B.B. Nayak, Jow-Lay Huang, B.K. Roul
        Materials Research Bulletin 46 (2011) 42-47.

      66. Evolution Of Surface Topography On GaAs(100) And GaAs(111) At Normal
        And Oblique Incidence Of Ar+ -Ions,
        V. Venugopal, P. Das, T. Basu, S. Garg, S. Majumder, S. N. Sarangi , S. R. Bhattacharyya, T. K. Chini, and T. Som
        AIP Conf. Proc. , 1276, 50-55 (2010).

      67. Influence of Implantation induced Ni-dopping on structural, optical,
        and morphological properties of nanocrystalline CdS thin films
        S. Chandramohan, T. Strache, S.N.Sarangi , R. Sathyamoorthy, and T. Som
        Mat. Sc. Engg. B 171, 16 (2010) .

      68. Effect of Fe-ion implantation doping on structural and optical
        properties of CdS thin films
        S. Chandramohan, A. Kanjilal,, S.N.Sarangi, S. Majumder, R. Sathyamoorthy, and T. Som
        Applied Physics A, 99: 837 (2010).

      69. Micro-Raman and XPS studies of pure ZnO ceramics
        J. Das, S.K. Pradhan, D.R. Sahu,, D.K. Mishra, S.N. Sarangi, B.B. Nayak, S. Verma, B.K. Roul
        Physica B 405, 2492 (2010) .

      70. CdSe nanowires:Oligonuleotic nanoscale structural ordering
        S.N.Sarangi , S. Rath, K. Goswami, S. Nozaki and S. N. Sahu
        Physica E 42, 1670 (2010).

      71. Effect of substrate temperature on implantation doping of Co in CdS
        nanocrystalline thin films
        S. Chandramohan, A. Kanjilal, S. N. Sarangi , S. Majumder, R. Sathyamoorthy, C.-H. Hong and T. Som
        Nanoscale, 2, 1155, (2010).

      72. Current-voltage and Capacitance-voltage studies of nanocrystalline
        CdSe/Au Schottky junction interface
        S. N. Sarangi, P.K. Adhikari, D. Pandey and S. N. Sahu
        J. Nanoparticle Res. 12, 2277 (2010).

      73. Size quantization effect in highly stable UV emitting HgTe nanoparticles:
        Structure and optical properties
        A. M. P. Hussain, S. N. Sarangi, and S. N. Sahu
        J. Appl. Phys. 106, 94306 (2009), Appeared in Nature INDIA, November 2009 under
        Materials , Biotechnology and Physics.


      74. Strong UV absorption and emission from L-cysteine capped monodispersed gold nanoparticles
        S. N. Sarangi, A. M. P. Hussain, and S. N. Sahu
        Virtual J. of Biological Physics Research, 18, 5 (2009).
        Appeared in Nature INDIA, December 2009 under Physics, Biotechnology,
        Clinical medicine and Materials.


      75. Strong UV absorption and emission from L-cysteine capped monodispersed gold nanoparticles
        S. N. Sarangi, A. M. P. Hussain, and S. N. Sahu
        Appl. Phys. Lettr. 95, 073109 (2009).

      76. Implantation-assisted Co-doped CdS thin films: Structural,
        optical, and vibrational properties
        S. Chandramohan, A. Kanjilal, S. N. Sarangi, S. Majumder, R. Sathyamoorthy, and T. Som
        J. Appl. Phys., 106, 063506 (2009).

      77. Structural and optical properties of Mn-doped CdS thin films prepared by ion implantation
        S. Chandramohan, A. Kanjilal, J. K. Tripathi, S. N. Sarangi, R. Sathyamoorthy, and T. Som,
        J. Appl. Phys., 105, 123507 (2009).

      78. Metal contacts in nanocrystalline n-type GaN: Schottky diodes
        S.N. Das, S. Sarangi, S. N. Sahu, A. K. Pal,
        J Nanosci Nanotechnol. 9(4) 2532-9 (2009).

      79. Modifications in structural and optical properties of Mn-ion
        implanted CdS thin films
        S. Chandramohan, A. Kanjila, T. Strache, J.K. Tripathi, S.N. Sarangi, R. Sathyamoorthy, T. Som
        Applied Surface Science 256, 465 (2009).

      80. Co+ -ion implantation induced doping of nanocrystalline
        CdS thin films: structural, optical, and vibrational properties.
        Chandramohan, S.; Sarangi, S.N.; Majumder, S.; Som, T. Kanjilal, A. Sathyamoorthy, R.
        Nanoscience and Nanotechnology (S77) INIS, 41069054, 489 p; p. 50, (2009).

      81. Synthesis of multi-wall carbon nanotubes by simple pyrolysis
        P. Mahanandiaa, P.N. Vishwakarma, K.K. Nanda, V. Prasad, K. Barai, A.K. Mondal, S. Sarangi, G.K. Dey, S.V. Subramanyam
        Solid State Communications 145, 143 (2008).

      82. High temperature grown transition metal oxide thin films: Tuning
        physical properties by MeV N+-ion bombardment
        R. Sivakumar, C. Sanjeeviraja, M. Jayachandran, R. Gopalakrishnan, S.N. Sarangi, D. Paramanik and T. Som
        J. Phys. D: Appl. Phys. 41, 125304 (2008).

      83. XPS studies of DNA cation-interacted self- assembled HgTe quantum dots
        formed under electrodeposition and their resultant biomolecular recognition application
        S Rath, S N Sarangi and S N Sahu
        Nanotechnology 19 (2008) 115606.

      84. Biomolecular recognition in DNA tagged CdSe nanowires
        S. N. Sarangi, K. Goswami and S. N. Sahu
        Biosens. Bioelectron. 22 (2007) 3086.

      85. Biocatalytic growth of semiconductor nano-wires
        S. Rath, S. N. Sarangi and S. N. Sahu,
        J. Appl. Phys, 101 (2007) 074306.

      86. MeV N+ -ion irradiation effects on a- MoO3 thin films
        R. Sivakumar, C. Sanjeeviraja, M. Jayachandran, R. Gopalakrishnan, S. N. Sarangi, D. Paramanik, and T. Som
        J. App. Phys, 101, 034913 (2007).

      87. Modification of tungsten oxide thin films by MeV N+ -ion beam irradiation
        R. Sivakumar, C. Sanjeeviraja, M. Jayachandran,R. Gopalakrishnan, S.N. Sarangi, D. Paramanik, and T. Som
        J. Phys.: Condens. Matter 19, 186204 (2007)

      88. HgS nanoparticles : Structure and optical properties
        B.K.Patel, S.Rath, S.N.Sarangi and S.N.Sahu
        Appl. Phys. A, 86 447 (2007) .

      89. Structure and morphological studies of CdSe nanocrystals
        S. N. Sarangi and S. N. Sahu
        Int. J. Nanoscience, 5, 109-117 (2006).

      90. Synthesis of LECBD grown cluster assembled SeO2 thin films
        S.Rath, K.Das, S.N.Sarangi, A.K.Dash, S.K.Roy and S.N.Sahu
        Appl.Surf.Sci, 253, 2138 (2006).

      91. Microstrain analysis of proton irradiated PET microfiber
        B. Mallick, T. Patel, R.C. Behera, S. N. Sarangi, S. N. Sahu, and R. K.Choudhury
        NIM B Vol 248/2 pp 305-310 (2006).

      92. Observation of semiconductor to insulator transition in
        Sb/Sb2O3 clusters synthesized by low-energy cluster beam deposition with different conditions
        J. Nayak, S.N. Sarangi, A.K. Dash, S.N. Sahu
        Vacuum 81, 366 (2006).

      93. Unique Properties of Nanostructured Semiconductors: Control of
        Size by Capping and Self-assembly by DNA
        S.N.Sahu, S. Rath, J.Nayak, A.K.Mahapatra and S.N.Sarangi,
        Nano-Scale Materials: From Science to Technology eds. S.N.Sahu, R.K. Choudhury and P. Jena
        Nova Science Publisher Inc. N.Y, ISBN: 1-59454-910-9 pp. 55-62 (2006)

      94. HgTe Nanoparticles and HgTe- ssDNA Nanostars: Novel Properties
        due to Size Quantization Effect
        S.Rath, S.N.Sarangi, S.N. Sahu and S. Nozaki
        Nano-Scale Materials: From Science to Technology, eds. S.N.Sahu, R.K. Choudhury and P. Jena;
        Nova Science Publisher Inc. N.Y, ISBN: 1-59454-910-9pp. 291 -295 (2006)

      95. Synthesis and Optical Properties of DNA Tagged CdSe
        S.N. Sarangi, J.Nayak, S. Rath and S.N.Sahu
        Nano-Scale Materials: From Science to Technology, eds. S.N.Sahu, R.K. Choudhury and P. Jena
        Nova Science Publisher Inc. N.Y ISBN: 1-59454-910-9, pp. 313-319 (2006).

      96. Synthesis and characterization of Sb/Sb2O3
        cluster assembled nanostructured thin films
        J. Nayak, S.N.Sarangi, S.Rath and S.N.Sahu,
        Nanoscale Materials: From Science to Technology eds. S.N.Sahu, R.K. Choudhury and P. Jena;
        Nova Science Publisher Inc. N.Y ISBN: 1-59454-910-9 pp. 437-443 (2006).

      97. Surface characterization and photoemission studies of HgTe
        nanocrystalline thin films
        S. Rath, D. Paramanik, S. N. Sarangi, S. Verma and S. N. Sahu
        Phys. Rev. B, 72 205410 (2005).

      98. Raman spectra of filled carbon nanotubes
        S. M. Bose, S. N. Behera, S. N. Sarangi, P. Entel,
        Physica B 351, 129-136 (2004).

      99. CdSe nanocrystalline thin films: composition, structure and optical properties
        S. N. Sarangi and S. N. Sahu
        Physica E 23, 159-167 (2004).

      100. Nanophase cubic mercury sulphide: A transition from semimetal to semiconductor
        B.K.Patel, S.C.Sahu, S. N. Sarangi, J.Nayak, S.Rath and S.N.Sahu
        Science and Technology of Nanostructured Materials'', eds. B.K.Rao, S.M.Bose, M.P.Das and S.N.Sahu;
        Nova Science Publisher Inc. N.Y, WOS:000177182600020 P.233 (2001).

      101. Raman Spectroscopy of CdS nanocrystalline semiconductors
        K. K. Nanda, S. N. Sarangi, S. N. Sahu, S. K. Deb and S. N. Behera
        Physica B, 262, 31 (1999).

      102. Visible light emission from CdS Nanocrystals
        K.K.Nanda, S. N. Sarangi and S.N.Sahu
        J. Phys. D. Appl. Physics 32, 2306 (1999).

      103. Optical properties of CdS nanocrystalline films prepared by a precipitation technique
        K. K. Nanda, S. N. Sarangi, S. Mohanty and S. N. Sahu
        Thin Solid Films 321, 21-26 (1998).

      104. Measurement of surface roughness by Atomic Force Microscopy and
        Rutherford Backscattering Spectrometry of CdS nanocrystalline films
        K. K. Nanda, S. N. Sarangi and S. N. Sahu
        Appl. Surf. Sci. 133, 293-296 (1998).

      105. Size dependent properties and light emission from nanocrystalline semiconductors
        S. N. Sahu, S. N. Sarangi, D. Sahoo, B. Patel, S. Mohanty and K. K. Nanda,
        Novel materials design and properties edited by B. K. Rao and S. N. Behera
        (Nova Publishers, New York, p235-245 (1998).

      106. CdS nanocrystalline films: Composition, surface, crystalline size,
        structural and optical absorption studiesn
        K. K. Nanda, S. N. Sarangi and S. N. Sahu
        Nanostr. Mater. 10, 1401 (1998).

      107. CdS Nanocrystallites: An efficient light emitter
        K. K. Nanda, S. N. Sarangi and S. N. Sahu,
        Curr. Sci 72, 110-111 (1997).

      108. Electrical properties of 1N4007 silicon Diode
        K. K. Nanda and S. N. Sarangi ,
        Rev. Sci. Instrum. 68, 2904 (1997).


      109. Quantum Size Effect and Light Emission from
        II-VI nanocrystalline semiconductors
        S. N. Sahu, S. N. Sarangi and K. K. Nanda
        PHYSICS OF SEMICONDUCTOR NANOSTRUCTURES edited by K. P. Jain,
        Narosa Publishers, India, Page- 202 (1997).

      110. Optical Properties of CdS Nanocrystalline semiconductors
        K. K. Nanda, S. N. Sarangi and S. N. Sahu
        PHYSICS OF SEMICONDUCTOR NOSTRUCTURES edited by K. P. Jain,
        Narosa Publishers, India, Page- 217 (1997).