Publications

 

H-Index: 35, Total Citations: 4863

 

 

 

 

2014 ,2013, , 2012 , 2011, 2010, 2009, 2008, 2007, 2006, 2005, 2004, 2003, 2002, 2001, 2000-1995, 1994-1985

 

 

 

 

 

 

 

 

 

     

     

     

     

    2017

    1. Reduced graphene oxide and MoP composite as highly efficient and durable electrocatalyst for hydrogen evolution in both acidic and alkaline media. K. Ojha, M. Sharma, H. Kolev and A. K. Ganguli. Catal. Sci. Tech. 2017, DOI: 10.1039/C6CY02406H.

     

    2. Interfacial Charge Transfer in Photoelectrochemical Processes. S. Kumar, K. Ojha and A. K. Ganguli. Adv. Mater. Interfaces, 2017, DOI: 10.1002/admi.201600981.

     

    3. Dominant {100} facet selectivity for enhanced photocatalytic activity of NaNbO3 in NaNbO3/CdS core/shell heterostructures. S. Kumar, R. Parthasarathy, A. P. Singh, B. Wickman, M. Thirumal and A. K. Ganguli. Catal. Sci. Tech. 2017, 7, 481.

     

    4. FeCoNi Alloy as Noble Metal-Free Electrocatalyst for Oxygen Evolution Reaction (OER). S. Saha, and A. K. Ganguli. Chemistry Select, 2017.

     

    5. Anti-drift nano-stickers made of graphene oxide for targeted pesticide delivery and crop pest control. S. Sharma, S. Singh, A. K. Ganguli, P.S. Vijayakumar. carbon, doi.org/10.1016/j.carbon.2017.01.075.

     

    6. Biomass derived graphene-like activated and non-activated porous carbon for advanced supercapacitors. K. Ojha, B. Kumar and A. K. Ganguli. J. Chem. Sci. 2017.

     

    7. Microfluidic reactors for the morphology controlled synthesis and photocatalytic study of ZnO nanostructures. A. Baruah, A. Jindal, C. Acharya, B. Prakash, S. Basu and A. K. Ganguli. J. Micromech. Microeng. 2017, 27, 035013.

     

    8. Efficient Electrocatalytic Hydrogen Evolution from MoS2 functionalized Mo2N nanostructures. K. Ojha;  S. Saha;  S. Banerjee and  A. K. Ganguli.  ACS Appl. Mater. Interfaces, 2017, DOI: 10.1021/acsami.6b10717.

     

    9. Exciton Separation in CdS Supraparticles upon Conjugation with Graphene Sheet. K. Ojha; T. Debnath; P. Maity; M. Makkar; S. Nejati; K. Ramanujachary; P. K. Chowdhury; H. N. Ghosh; A. K. Ganguli. J. Phys. Chem. C, 2017, 121, 6581.

     

    10. Unusual Mixed Valence of Eu in Two Materials - EuSr2Bi2S4F4 and Eu2SrBi2S4F4: Mö ssbauer and X-ray Photoemission Spectroscopy Investigations. Z. Haque; G. S. Thakur, R. Parthasarathy; B. Gerke; T. Block; L. Heleta; R. Pö ttgen; A. G. Joshi; G. K. Selvan; S. Arumugam; L. C. Gupta and A. K. Ganguli. Inorg. Chem. 2017, 56, 3182.

     

    11. Nano-structured hybrid Molybdenum Carbides / Nitrides generated in-situ for HER Applications. R. Kumar, R. Rai, S. Gautam, A. D. Sarkar, N. Tiwari, S. N. Jha, D. Bhattacharyya, A. K Ganguli and V. Bagchi. J. Mater. Chem. A, 2017, Just Accepted Manuscript. DOI: 10.1039/C7TA01815K.

     

    12. Ni3Co/G alloy as an earth-abundant robust and stable electrocatalyst for hydrogen evolution reaction (HER). S. Saha, K. Ojha, M. Sharma and A. K Ganguli. New J. Chem., 2017.

     

    13. Facile Charge Transport in FeNx/Mo2N/CNTs nanocomposites for efficient hydrogen evolution reactions. K. Ojha, S. Banerjee and A. K Ganguli. J. Chem. Sci., 2017.

     

    14. Dramatic Variation of the Multiferroic Properties in Sr Doped Ca1-xSrxMn7O12. P. Jain, J. Saha, L. C. Gupta, S. Patnaik, A. K Ganguli and R. Chatterjee. AIP Advances, 2017, 7, 055832.

     

    15. Enhanced photocatalytic activity g-C3N4-TiO2 nanocomposites for degradation of Rhodamine B dye. M. Sharma, S. Vaidya and A. K. Ganguli. J. Photochem. Photobiol. A: Chemistry, 2017, 335, 287.

     

    16. Investigation of the growth mechanism of the formation of ZnO nanorods by thermal decomposition of zinc acetate and their thermal emission properties. Sunaina, M. Sreekanth, S. Ghosh, S. K. Mehta, A. K Ganguli and M. Jha. CrystEngComm, 2017, 19, 2264.

     

    17. High anisotropic thermoelectric effect in palladium phosphide sulphide. P. Kaur, S. Chakraverty, A. K Ganguli and Chandan Bera. physica status solidi (b), 2017.

     

    18. Structural, magnetic and dielectric properties of a new double perovskite Pr2CoTiO6. N. Das, R. Singh, A. Das, L. C. Gupta, A. K. GanguliJ. Solid State Chem.  2017, 253, 355.

     

    19. Magnetism and site exchange in CuFeAs and CuFeSb: A microscopic and theoretical investigation, S. Kamusella, Hans-Henning Klauss, G. S. Thakur, Z. Haque, L. C. Gupta, A. K. Ganguli, I. Kraft, U. Burkhardt, H. Rosner, H. Luetkens, J. W. Lynn, Y. Zhao, Phys. Rev. B, 2017, 95, 094415.

     

    20. Magnetic structures of rare earth intermetallic compounds RCuAs2 (R = Pr, Nd, Tb, Dy, Ho, and Yb). Y. Zhao, J. W. Lynn, G. S. Thakur, Z. Haque, L. C. Gupta and A. K. GanguliJ. Phys. Chem. Solids.  2017, 111, 1.

     

    21. Bridged Rebar Graphene functionalized aptasensor for pathogenic E. coli O78:K80:H11detection. H. Kaur, M. Shorie,  M. Sharma, A. K. Ganguli and P. Sabherwal. Biosensors and Bioelectronics.  2017, 98, 486.

     

    22. The mechanism of nanoparticle-mediated enhanced energy transfer during high-intensity focused ultrasound sonication, C. Bera, S. B. Devarakonda, V. Kumar, A. K. Ganguli, R. K. Banerjee, Phys. Chem. Chem. Phys. 2017, 19 ,19075.

     

    23. Hydrotrope Induced Structural Modifications in CTAB/Butanol/Water/Isooctane Reverse Micellar System. V. Sethi, J. Mishra,  A. Bhattacharyya, D. Sen and A. K. Ganguli. Phys. Chem. Chem. Phys. 2017, Accepted, DOI: 10.1039/C7CP03191B. 

     

    2016

     

    1. Coexistence of superconductivity and ferromagnetism in Sr0. 5Ce0. 5FBiS2-xSex (x= 0.5 and 1.0), a non-U material with Tc< TFM. G. S. Thakur, G. Fuchs, K. Nenkov, Z. Haque, L. C. Gupta and A. K. Ganguli. Sci. Rep. 2016.

     

    2. Fabrication of TiO2/CdS/Ag2S Nano-Heterostructured Photoanode for Enhancing Photoelectrochemical and Photocatalytic Activity under Visible Light. S. Kumar, A. P Singh, N. Yadav, M. Thirumal, B. R. Mehta, and A. K. Ganguli. Chemistry Select, 2016, 1, 4891.

     

    3. In Situ Solid-State Synthesis of a AgNi/g-C3N4 Nanocomposite for Enhanced Photoelectrocatalytic and Photocatalytic Activity. N. Bhandary, A. P. Singh, S. Kumar, P. P. Ingole, G. S. Thakur, A. K. Ganguli, and S. Basu. ChemSusChem, 2016, 9, 2816.

     

    4.On the Stability of Surfactant-Stabilised Few-Layer Black Phosphorus in Aqueous Media. J. R. Brent, A. K. Ganguli, V. Kumar, D. J. Lewis, P. D. McNaughter, P. O’Briena, P. Sabherwal, and A. A. Tedstoned , RSC Advances, 2016 6, 86955.

     

    5. Nanostructured Aptamer-Functionalized Black Phosphorus Sensing Platform for Label-Free Detection of Myoglobin, a Cardiovascular Disease Biomarker. V. Kumar, J. R. Brent, M. Shorie, H. Kaur, G. Chadha, A. G. Thomas, E. A. Lewis, A. P. Rooney, L. Nguyen, X. L. Zhong, M. G. Burke, S. J. Haigh, A. S. Walton, P. D. McNaughter, A. A. Tedstone, N. Savjani, C. A. Muryn, P. O'Brien, A. K. Ganguli, D. J. Lewis and P. Sabherwal, ACS Appl. Mater. Interfaces, 2016, 8, 22860.

     

    6. Visible Light Driven Photoelectrochemical and Photocatalytic Performance of NaNbO3/Ag2S Core/Shell Heterostructure.S. Kumar, A. Singh, C. Bera, M. Thirumal, B. R. Mehta, A. K. Ganguli, ChemSusChem, 2016, 9, 1850.

     

    7. Evidence of a pseudogap driven by competing orders of multi-band origin in the ferromagnetic superconductor Sr0.5Ce0.5FBiS2. M. Aslam, A. Paul, G. S. Thakur, S. Gayen, R. Kumar, A. Singh, S. Das, A. K. Ganguli, U. V. Waghmare and G. Sheet, J. Phys.: Condens. Matter 2016, 28, 195701.

     

    8. Towards managing nanotechnology-related water pollution in India. A. Kumar, S. Baranidharan, A. K. Mittal and A. K. Ganguli, Current Science, 2016, 110, 1401.

     

    9.  Superconductivity in La1-xSmxO0.5F0.5BiS2 (x = 0.2, 0.8) under hydrostatic pressure. G. KalaiSelvan, Gohil. S. Thakur, K. Manikandan, A. Banerjee, Zeba Haque, L. C. Gupta, A. K. Ganguli and S. Arumugam, J. Phys. D Appl. Phys. 2016, 49, 275002.

     

    10.  High spin polarization and the origin of unique ferromagnetic ground state in CuFeSb. A. Sirohi, C. K. Singh, G. S. thakur, P. Saha, S. Gayen, A. Gaurav, S. Jyotsna, Z. Haque, L. C. Gupta, M. Kabir, A. K. Ganguli and G. Sheet, Appl. Phys. Lett. 2016, 108, 242411.

     

    11.  Probing the Crystal Structure, Composition-Dependent Absolute Energy Levels, and Electrocatalytic Properties of Silver Indium Sulfide Nanostructures. P. Saji, A. K. Ganguli, M. A. Bhat and P. P. Ingole, ChemPhysChem, 2016, 17, 1080.

     

    12.  Composites of graphene-Mo2C rods: highly active and stable electrocatalyst for hydrogen evolution reaction. K. Ojha, S. Saha, H. Kolev, B. Kumar and A. K. Ganguli, Electrochimica Acta, 2016, 193, 268.

     

    13.  Comparative Study of TiO2/CuS Core/Shell and Composite Nanostructures for Efficient Visible-Light Photocatalysis. S. Khanchandani, S. Kumar and A. K. Ganguli, ACS Sustain. Chem. Eng. 2016, 4, 1487.

     

    14. Controlling morphology and efficiency of nanostructured Mo2N electrocatalyst for hydrogen evolution reaction. K. Ojha, S. Saha, B. Kumar, K. S. Hazra and A. K. Ganguli, ChemCatChem 2016, 8, 1218.

     

    2015

    1.  Cu-Co-Ni alloys: An efficient and durable electrocatalyst in acidic media. S. Saha, K. V. Ramanujachary, S. E. Loflandand A. K. Ganguli, Materials Research Express, 2016, 3, 016501.

     

    2. Ternary alloy nanocatalysts for hydrogen evolution reaction. S. Saha, K. V. Ramanujachary, S. Vaidya, S. E. Loflandand A. K. Ganguli, Bull. Mater. Sci. 2016, 39, 433.

     

    3.  Design of Cu based nanocomposites as multifunctional catalysts. B. Kumar, G. K. Rao, S. Saha and A. K. Ganguli, Chem Phys Chem. 2016, 17, 155.

     

    4. Oxide-based nanostructures for photocatalytic and electrocatalytic applications. A. Ganguly, O Anjaneyulu, K Ojha and A. K. Ganguli, Cryst. Eng. Commun. 2015, 17, 8978-9001.

     

    5. Ag3PO4 nanoparticle decorated on SiO2 spheres for efficient visible light photocatalysis. Manu Sharma, Kasinath Ojha, Aparna Ganguly and  A. K. Ganguli, New J. Chem., 2015, 39, 9242.

     

    6. Upper critical field, critical current density and activation energy of the new La1-xSmxO0.5F0.5BiS2 (x = 0.2, 0.8) superconductors. G. KalaiSelvan, Gohil. S. Thakur, K. Manikandan, Y. Uwatoko, Zeba Haque, L. C. Gupta,  A. K. Ganguli and S. Arumugam, J. Phys. Soc. Jpn. 2015, 84, 124701.

     

    7. Pressure enhanced superconductivity at 10 K in La doped EuBiS2F. Gohil S. Thakur, RajveerJha, Zeba Haque, V.P.S. Awana, L. C. Gupta and A. K. Ganguli, Supercond. Sci. Technol., 2015, 28, 115010.

     

    8. Structural and magnetic properties of a new and ordered quaternary alloy MnNiCuSb (SG: F-43m). Zeba Haque,Gohil S Thakur, Somnath Ghara, L. C. Gupta, A. Sundaresan and A. K. Ganguli, J. Magn. Magn. Mater., 2016, 397, 315.

     

    9. Unconventional Superconductivity at Mesoscopic Point-contacts on the 3-Dimensional Dirac Semi-metal Cd3As2. Leena Aggarwal, Abhishek Gaurav, Gohil S. Thakur, Zeba Haque, A. K. Ganguli and Gautam Sheet, Nature Materials, 2016, 15, 32-37.

     

    10. Controlling the Microstructure of Reverse Micelles and their Templating Effect on Shaping Nanostructures. Soma Sharma, Nitin Yadav, Pramit K. Chowdhury and A. K. Ganguli,  J. Phys. Chem. B, 2015, 119, 11295-11306.

     

    11. Graphene-CNT nanohybridaptasensor for label free detection of cardiac biomarker myoglobin. V. Kumar, M. Shorie, A. K. Ganguli and P. Sabherwal, Biosensors and Bioelectronics, 2015, 72, 56-60.

     

    12. Monoclinically distorted perovskites, A2ZnTiO6 (A= Pr, Gd): Rietveld refinement, and dielectric studies. Nibedita Das, Masood. A. Nath, Gohil S. Thakur, M. thirumal and A. K. Ganguli, J. Solid State Chem., 2015, 229, 97-102.

     

    13. Enhancement of photocatalytic efficiency using heterostructured SiO2-Ta2O5 thin films, Arabinda Baruah, Menaka Jha, Santosh Kumar and A. K. Ganguli, Materials Research Express, 2015, 2, 1-11.

     

    14. Synthesis and Properties of SmO0.5F0.5BiS2 and Enhancement in Tc in La1−ySmyO0.5F0.5BiS2, G. S. Thakur, G. K. Selvan, Z. Haque, L. C. Gupta, S. L. Samal, S. Arumugam, and A. K. Ganguli, Inorg. Chem. 2015, 54, 1076-1081.

     

    15. A facile one step synthesis of Cu/Cu2O nanocomposites: Enhanced hydrogen/oxygen evolution, B. Kumar, S. Saha, K. Ojha and A. K. Ganguli, Mater. Res. Bull., 2015, 64, 283.

     

    2014

    1.Structure, Magnetic Properties and Magnetocaloric effect in LaMnSbO0.8F0.2 Oxypnictide Material, M.Kanagaraj, G. S. Thakur, J. Prakash, S. E. Muthu, S. Arumugam and A. K. GanguliPhys. Status Solidi B, 2014, 1-5.

    2.Band Gap Engineering of ZnO using Core/Shell Morphology with Environmentally Benign Ag2S Sensitizer for Efficient Light Harvesting, S. Khanchandani, P. Srivastava, S. Kumar, S. Ghosh and A. K. GanguliInorg. Chem., 2014, 53, 8902.

    3.Enhanced visible light driven photocatalysis using Type II NaNbO3/CdS Core/Shell heterostructures, S. Kumar, S. Khanchandani, M. Thirumal and A. K. Ganguli, ACS Appl. Mater. Interfaces, 2014, 6, 13221.

    4.Nickle Cobaltite Nanostructures with enhanced supercapitance behaviour, Neha Garg, M. Basu and A. K. GanguliJ. Phys. Chem. C, 2014, 118, 17332.

    5.Microwave dielectric properties of lanthanum based complex perovskites, M. A. Nath, S. L. Samal, M. Thirumal and A. K. GanguliJ. Alloys & Compounds, 2014, 615, 18.

    6.Spherical to cylindrical transformation of reverse micelles and their templating effect on the growth of nanostructures, S. Sharma and A. K. GanguliJ. Phys. Chem. B, 2014, 118, 4122.

     7. A type-II semiconductor (ZnO/CuS Heterostructure) for visible light photocatalysis, M. Basu, N. Garg and A. K. GanguliJ. Mater. Chem. A, 2014, 2, 7517.

    8. Effect of Oxygen and Mn substitution on superconducting properties of FeSe0.5Te0.5, Gohil S Thakur, Zeba Haque, Prakriti Neha,  L C Gupta, S. Patnaik and A K GanguliZeitschrift für anorganische und allgemeine Chemie, ZAAC ,2014, 657

    9. A facile low temperature(350C) synthesis of Cu2O nanoparticles and its electrocatalytic and photocatalytic properties, B. Kumar, S. Saha, A. Ganguly and A. K. Ganguli,   RSC Adv., 2014, 4, 12043. 

    10 Synthesis and properties of CuFeAs: A new member in Cu2Sb family. G S thakur, Zeba,  L C Gupta, and A K Ganguli,  J. Phys. Soc. Jpn. 83, 054706 (2014) 

    11. Design of porous silica supported tantalum oxide hollow spheres showing enhanced photocatalytic activity, M. Sharma, D. Das, A. Baruah, A. Jain and A. K. GanguliLangmuir, 2014, 30, 3199.

    12. Graphene-based hybrid materials : synthetic approaches and properties, K. Ojha and A. K. Ganguli, Curr. Sci. , (in Print) (2014).

    13. Nanocrystalline silica from termite mounds, A. K. Ganguli, S. Kumar, A. Baruah and S Vaidya, Curr. Sci. , 106, 83 (2014).

     

     

     

     

     

 

2013

 

 

1. Efficient entrapment of dyes in hollow silica nanoparticles : Direct evidence using fluorescence spectroscopy, A. Baruah, S. Kumar, S. Vaidya and A. K. Ganguli, J. Fluorescence (in print) 2013.

2.Core shell nanostructures : Design and applications, S. Vaidya , A. Kar, A. Patra and A. K. Ganguli, Rev. Nanosci. & Nanotech.  (in print) , 2013.

3. Self-assembling behavior of Pt nanoparticles onto the surface of TiO2 and their resulting photocatalytic activity, M. Qamar and A. K. Ganguli, Bull. Mater. Sci. (in print) (2013).

4. Plasmon enhanced fluoro-immunoassay using egg yolk antibodies for ultra-sensitive detection of herbicide diuron, P. Sharma, M. Kukkar, A. K. Ganguli, A. Bhasin and C. Raman Suri, Analyst (in print) 2013.

5. Enhanced hydrogen/oxygen evolution and stability of nanocrystalline  (4-6 nm) copper particles, B. Kumar, S. Saha, M. Basu and A. K Ganguli, J. Mater. Chem. A, 1, 4728 (2013).

6. Enhanced visible-light photocatalytic performance and effective electron-hole separation in ZnO/In2S3 core/shell nanorod arrays, S. Khanchandani, S. Kundu, A. Patra and A.K. Ganguli, J. Phys. Chem. C., 117, 5558 (2013).

7. Low temperature electrode materials synthesized by citrate precursor method for solid oxide fuel cells. M. A Nath, S. Hameed, R. Chockalingam, S. Basu and A. K. Ganguli, Fuel Cells, 13, 270  (2013).

8. Study of Ni and Zn doped CeOFeAs: Effect on the structural transition and specific heat capacity, S. Singh, J. Prakash, A. Pal, S. Patnaik, V. P. S. Awana and A. K. GanguliPhysica C 490, 49  (2013).

9. Surface decoration through electrostatic interaction leading to enhanced reactivity : Low temperature synthesis of nanocrystalline chromium borides (CrB and CrB2), Menaka, and A.K.Ganguli, J. Solid State Chem., 200, 117 (2013).

10. Enhanced upper critical field, critical current density and thermal activation energy in new ytterbium doped CeFeAsO0.9F0.1 superconductor, M. Kanagaraj, G. S. Thakur, S. Arumugam and A. K. Ganguli, J. Appl. Phys. 113, 043924 (2013).

11. Template based synthesis of mesoporous silica material and its application in removal of fluorescent dyes, A. Ganguly, D. Das, A. Jindal, T. Ahmad and A. K. Ganguli, J. Nanosci. Nanotech., 12, 1, (2013).

12. Anisotropic silica mesostructures for DNA encapsulation, A. Ganguly, and A. K Ganguli, Bull. Mater. Sci. 36, 329 (2013).

13. The iron-age of superconductivity : Structural correlations and commonalities among the various structural families with ---Fe--Pn---slabs (Pn = P, As and Sb), A. K. Ganguli, Jai Prakash and G. S. Thakur, Chem Soc Rev., 42, 569 (2013).

14. Lanthanum hexaboride nanostructures with enhanced field emission properties, Menaka, R. Patra, S. Ghosh and A. K. Ganguli, Solid State Commun., 153, 35 (2013).

15. Improved optical properties in nanorystalline Ce:YGG garnets via normal and reverse strike co-precipitation, A. Verma, M. Nath,  N. Malhan and A. K. Ganguli, Mater. Letts 93, 21 ( 2013).

 

 

 

 

2012

 

 

1. Shell Thickness dependent Photocatalytic Properties of ZnO/CdS Core-Shell Nanorods, S. Khanchandani, S. Kundu, A. Patra and A. K. Ganguli, J. Phys. Chem. C,116, (2012)

2. Core shell nanostructures : Design and applications, S. Vaidya , A. Kar, A. Patra and A. K. Ganguli, Rev. Nanosci. & Nanotech. (in print) , 2012.

3. Effect of substrate and film thickness on growth , structure , mechanical and optical properties of chromium diboride thin films, S. Marka, Menaka, A. K. Ganguli and M. G. Krishna, Surface and coatings Technology, in print (2012).

4. Nanostructured dimagnesium manganese oxide : control of size, shape and their magnetic and electrocatalytic properties, N. Garg, Menaka, S. E. Lofland, K. V. Ramanujachary and A. K. Ganguli, J. Solid State Chem., 197, 392 (2012).

5. Protein denaturation in the presence of sub - picomolar gold nanoparticles: A fluorescence and CD study, K. Ojha, P. K. Chowdhury and A. K. Ganguli, Ind. J. Chem. A, Protein denaturation in the presence of sub - picomolar gold nanoparticles: A fluorescence and CD study, K. Ojha, P. K. Chowdhury and A. K. Ganguli, Ind. J. Chem. 51A, 1561 (2012).

6. Controlling the assembly of cobalt oxide (Co3O4) nanoparticles and their magnetic and electrocatalytic (OER) properties, S. Sharma, N. Garg, K. V. Ramanujachary, S. E. Lofland and A K Ganguli, Cryst. Growth Des.,12, 4202 (2012).

7. Formation of calcium oxalate nanoparticles in leaves: Significant role of water content and age of leaves, J. Ahmed, K. Ojha, S. Vaidya, J. Ganguli and A. K. Ganguli, Current Science 103, 293 (2012).

8. Nanostructured nickel manganese oxide : aligned nanostructures and their magnetic properties, Menaka, N. Garg , S. Kumar, D. Kumar, K. V. Ramanujachary, S. E. Lofland and A. K. Ganguli , J. Mater. Chem. 22, 18447 (2012).

9. Manipulating the anisotropy and field emission of lanthanum hexaboride nanorods by controlling the morphology of the nanostructured lanthanum hydroxide precursor, Menaka, Rajkumar Patra, Santanu Ghosh and A. K. Ganguli, RSC Advances 2, 7875 (2012)

10. Room temperature synthesis of mesoporous TiO2 nanostructures with high photocatalytic efficiency, D. Das, A. Shivhare, S . Saha and A. K. Ganguli, Mater. Res. Bull. 47, 3780 (2012).

11. Novel borothermal route for the synthesis of lanthanum cerium hexaborides and their field emission properties, Menaka, Rajkumar Patra, Santanu Ghosh and A. K. Ganguli, J. Solid State Chem.,194, 173, (2012).

12. Enhancement in superconducting transition temperature(Tc) and upper critical field(Hc2) in new Yb-doped Ce1-xYbxO0.9F0.1FeAs superconductors, G. S. Thakur, Jai Prakash, M. Kanagaraj, S. Arumugam and A. K. Ganguli, Physica C , Physica C ,71, 480 (2012).

13. Optical Properties of Ag@TiO2 and CdS@TiO2 core-shell nanostructures, S. Vaidya, A. Patra and A. K. Ganguli, Sci. Adv. Mater. 4,623 (2012).

14. Preparation, structure and characterization of nanocrystalline- Nd: Y3Ga5O12, A. Verma, N. Malhan and A. K. Ganguli, Mater. Letts, 81, 242 (2012).

15.Pressure effects on superconducting transition of Ytterbium doped Ce0.6Yb0.4FeAsO0.9F0.1" S. Arumugam, M. Kanagaraj, N.R. Tamil Selvan, S. Esakki Muthu, J. Prakash, G.S. Thakur, A. K. Ganguli, H.Yoshino, K. Murata, K. Matsubayashi and Y. Uwatoko, Phys. Stat. Sol.(RRL) 6, 220 (2012).

16. Vertically aligned cerium hexaboride nanorods with enhanced field emission properties, Menaka, R. Patra, S. Ghosh and A. K. Ganguli, J. Mater. Chem. 22, 6356 (2012).

17. Correlation between superconductivity and structural properties under high pressure of iron pnictide superconductor Ce0.6Y0.4FeAsO0.8F0.2 , S. Arumugam, M. Kanagaraj, R. S. Kumar, N.R. Tamil Selvan, S. Esakki Muthu, J. Prakash, G. S. Thakur, H.Yoshino, K.Murata, K. Matsubayashi, Y. Uwatoko, S. Sinogeikin, A. Cornelius, A. K. Ganguli and Y. Zhao, Appl. Phys Letts. 100, 052601 (2012).

18. Effect of antimony doping on the transport and magnetic properties of Ce(O/F)FeAs, J. Prakash, S. J Singh, G. S Thakur, S. Patnaik, A. K Ganguli, Supercond. Sci. Tech. 24, 125008 ( 2012).

19. Multifunctional nanocrystalline chromium boride thin films, M. Jha , S. Marka , M. G. Krishna, A.K. Ganguli, Mater. Letts., 73, 220(2012).

20.  Design of Nanostructures using microemulsions, S. Vaidya, A. Ganguly and A.K. Ganguli, Ind. J. Chem. A.  51A, 245  (2012).

21. Understanding the Growth Kinetics of Nanorods in Microemulsion: A Combined Fluorescence Correlation Spectroscopy, Dynamic Light Scattering and Electron Microscopy Study, S. Sharma, N. Pal, P. K. Chowdhury, S. Sen and A.K. Ganguli, J. Am. Chem. Soc., 134 (2012).

 

 

 

2011

 

 

1. Extended edge-shared FeX4 (X=As and Se) tetrahedral in ZrCuSiAs and ThCr2Si2 related structures showing superconducting properties, A. K. Ganguli and J. Prakash, Eur. J. Inorg. Chem. 26, 3868 (2011)

2. Enhanced electrocatalytic activity of copper – cobalt nanostructures, J. Ahmed, S. Saha, Govind, P. Trinh, A. M. Mugweru, K. V.Ramanujachary, Samuel E. Lofland and A. K Ganguli, J. Phys. Chem. C, 115, 14526 (2011).

3. A single source niobium precursor to obtain nanocrystalline borides and oxides( NbB2, NbO2 and Nb2O5), Menaka, K. V. Ramanujachary, S. E. Lofland and A. K. Ganguli, Dalton Trans. 40 , 7879 2011.

4. Pressure effect on crystal structure and superconductivity of La0.8Th0.2FeAsO, R. S.Kumar, D. Antonio, M.Kanagaraj, S. Arumugam, A. L. Cornelius,S. Sinogeikin, J.Prakash, G.S. Thakur, A.K. Ganguli,T. Hartmann, Y.Zhao, Physica Status Solidi (Rapid research letters) 5, 208 (2011).

5. Controlling the size and morphology of anisotropic nanostructures of nickel borate using microemulsions and their magnetic properties”, Menaka, S.Sharma, K. V. Ramanujachary, S. E. Lofland, Govind, A. K. Ganguli, J. Colloid Interface Sci., 360 393 (2011).

6. Growth and optical properties of chromium borate thin films, Menaka, S.D. Kshirsagar, M.G.Krishna, A. K.Ganguli, , Solid State Sciences. 13, 1334 ( 2011).

7. Superconducting and critical properties of PrOFe0.9Co0.1As: effect of doping, Shilpam Sharma, Jai Prakash, Gohil S. Thakur, A. T. Satya, A. Bharathi, A. K. Ganguli and C S Sundar, Supercond. Sci. & Tech., 24, 065020/1 -7, (2011).

8. Stabilization of Mn(IV) in nanostructured zinc manganese oxide and their facile transformation from nanospheres to nanorods, Menaka, S L Samal, , S. E. Lofland K. V. Ramanujachary, Govind and A. K. Ganguli, J. Mater. Chem., 21, 8566 (2011).

9. Iron based oxypnictides: structure and properties, J. Prakash and A. K Ganguli , Inorg. Chim. Acta , 372, 2, (2011).

10. Enhanced functionalization of Mn2O3@SiO2 core-shell nanostructures, S. Vaidya, P. Thaplyal and A K Ganguli , Nanoscale Res. Letts, 6, 169(2011).

11. Self – assembly of copper nanoparticles (cubes, rods and spherical nanostructures : Significant role of morphology on HER and OER efficiency , J. Ahmed, P. Tring, A. Mugweru and A K Ganguli, Solid State Sci.,13, 855 (2011).

12. Synthesis of core-shell nanostructures of Co3O4@SiO2 with uniform shell thickness(5-20 nm) and hollow shells, Sonalika et al, A. K. Ganguli, J. NanoSci. & Nanotech.,11, 3405 (2011).

13. Nanorods of transition metal oxalates: a versatile route to the oxide nanoparticles. T. Ahmad, T; A. Ganguly, J. Ahmed, A. K. Ganguli, O. A. A. Alhartomy, Arab. J. Chem. 4, 125 (2011).

14. Pressure induced structural transition and enhancement of superconductivity in Co doped CeFeAsO, R. S. Kumar, D. Antonio, M. Kanagaraj, S. Arumugam, J. Prakash, S. Sinogeiken, G. S. Thakur, A.K Ganguli, A. Cornelius and Y. Zhao, Appl. Phys. Lett. 98, 012511/1-012511 ( 2011).

15. Microemulsion-based synthesis of MgO nanoparticles(8-10 nm) and their catalytic properties , A. Ganguly, P. Tring, K. V. Ramanujachary, A. Mugweru, T. Ahmad and A. K. Ganguli, J. Colloid & Interface. Sci. 353, 137 (2011).

 

2010

 

1. Binary Fe–Co alloy nanoparticles showing significant enhancement in electro-catalytic activity compared to bulk alloys, J. Ahmed, B. Kumar,A. Mugweru, P. Trinh, K. Ramanujachary, S. Lofland, G. Gupta and A. K. Ganguli, J. Phys. Chem. C 114, 18779 (2010).

2. New Catianionic surfactants, phase stability and synthesis of ultrafine particles of cadmium sulphide, R. Khurana, M. Manolata Devi, S. Vaidya and A. K. Ganguli, J. Colloid & Interface. Sci., 352, 470 (2010).

3. Silica mesostructures: control of pore size and surface area using a surfactant templated hydrothermal process, A. Ganguly , T. Ahmad and A. K Ganguli, Langmuir, 26, 14901 (2010).

4. Effects of simultaneous carrier doping in the charge reservoir and conducting layers of superconducting CeO0.9F0.1Fe1-xCoxAs, S.J. Singh, J. Prakash, S. Patnaik and A. K. Ganguli, Physica C, 470, 1928 (2010).

5. New double perovskites, LaBaTaNi1-xCoxO6 : Structural, Dielectric and Magnetic studies, S. L. Samal, T. Magdaleno, K. V. Ramanujachary, S. E. Lofland and A. K. Ganguli, Solid State Sci., 12, 1382 (2010).

6. Temperature-dependent Raman study of CeFeAsO0.9F0.1 superconductor: Crystal field excitations, phonons and their coupling, P. Kumar, A. Kumar, S. Saha, D. V. S. Muthu, J. Prakash, U. V. Waghmare , A. K. Ganguli, and A. K. Sood J. Phys. Cond. Matt 22 255402 (2010)

7. CdS@TiO2 and ZnS@TiO2 core-shell nanocomposites: Synthesis and Optical Properties, S. Vaidya, A. Patra and A. K. Ganguli, Colloids & Surf. A 363, 130 (2010).

8. Effect of yttrium doping in La1-xYxO0.9F0.1FeAs: Hall and thermopower studies, S J Singh, Jaiprakash, S Patnaik and A K Ganguli, Physica C, 470, 515 (2010).

9. Silver nanoparticles : Large Scale Solvothermal Synthesis and Optical Properties, I A Wani, S. Khatoon, A. Ganguly, J. Ahmed, A. K Ganguli and T. Ahmad, Mater. Res. Bull. 45, 1033 ( 2010).

10. Anomalous Raman Scattering from Phonons and Electrons of Superconducting FeSe0.82 , Pradeep Kumar, Anil Kumar, Surajit Saha, D. V. S. Muthu, J. Prakash, S. Patnaik, U. V. Waghmare , A. K. Ganguli, and A. K. Sood, Solid State Commun. 150, 557 (2010).

11. Enhancement of Magnetic Ordering Temperature in iron substituted ytterbium manganate YbMn1-xFexO3, S. L. Samal, T. Magdaleno, K. V. Ramanujachary, S. E. Lofland and A. K. Ganguli, J. Solid State Chem., 183, 643, (2010).

12. New oxypnictide Superconductors : PrOFe1-xCoxAs, Jai Prakash, S J Singh, D. Das, S. Patnaik and A K Ganguli, J. Solid State Chem. 183, 338 (2010).

13. Role of chemical pressure in enhancing the transition temperature (Tc) and upper critical field (Hc2) in the Y –doped Ce-oxyfluoride superconductors, A.K. Ganguli, J. Prakash, S.J. Singh and S. Patnaik, Eur. Physical J. B, 73, 177 (2010).

14. A new low temperature methodology to obtain pure nanocrystalline nickel borate, Menaka, S. E. Lofland, K. V. Ramanujachary and A. K. Ganguli, J. Organometallic Chem., 695, 1002 (2010).

15.TiO2-based nanotubes modified with nickel: Synthesis, properties and improved photocatalytic activity, M. Qamar ,S. J. Kim and A.K. Ganguli, Nanotechnology 20, 455703/1-455703/8 (2010).

16. Superconductivity at 31.3 K in Yb-doped La(O/F)FeAs superconductors, ,J. Prakash, S. J. Singh, S. Patnaik and A. K. Ganguli, J. Chem. Sci.,122, 43, (2010).

17. Microemulsion-based synthesis of nanomaterials, A. K. Ganguli, A. Ganguly and S. Vaidya Chem. Soc. Rev., 39, 474(2010).

18. Core-shell nanostructures and nancomposites of Ag – TiO2 : Effect of capping agent and shell thickness on the optical properties, S. Vaidya, A. Patra and A. K. Ganguli, J. Nanoparticle Res. 12, 1033, (2010).

 

2009

 

1. Enhancement in transition temperature and critical current density in CeO0.8F0.2FeAs by yttrium doping, Jai Prakash, S J Singh, A. Banerjee, S Pattnaik and A K Ganguli, Appl. Phys. Letts. 95, 262507 (2009).

2. Magnetic and photocatalytic properties of nanocrystalline ZnMn2O4, Menaka, M. Qamar, K. V. Ramanujachary, S. E. Lofland and A. K. Ganguli, Bull. Mater. Sci. 32, 231 (2009).

3. Microemulsion-based synthesis of cobalt (fcc and hexagonal) and Co-Ni alloy nanoparticles, J. Ahmed, S. Sharma, K. V. Ramanujachary, S. E. Lofland and A. K. Ganguli, J. Colloid Interface Sci., 336, 814, ( 2009).

4. Highly uniform nano and mesostructures of silica obtained by reverse micellar and hydrothermal methods, A. Ganguly and A K Ganguli , J Cluster Sci, 20, 417 (2009).

5. Upper critical field, superconducting energy gaps, and Seebeck coefficient in La0.8Th0.2OFeAs J. Prakash, S. J. Singh, S. Patnaik and A. K. Ganguli, J. Phys. Cond Matt. 21, 175705, (2009).

6. Controlling the size, morphology and aspect ratio of nanostructures using reverse micelles: A case study of copper oxalate monohydrate,;, R. Ranjan;, S. Vaidya; P. Thaplyal,, Q. Azmi, J. Ahmed and A. K. Ganguli, Langmuir 25, 6469 (2009).

7. New Series of Ti-based Microwave Dielectric Oxides with Disordered Cubic Perovskite Structure S. L. Samal, James Raju, A K Ganguli, Jpn. J. Appl. Phys. Part 1, 48, 061401 (2009).

8. A Compositionally controlled semimetal to superconducting transition in NaF- doped LaOFeAs: Enhancement in Tc due to Na-doping” , J. Prakash, S. J. Singh, S. Patnaik and A K Ganguli, Physica C 469, 300 (2009).

9. Self-assembly of Copper succinate nanoparticles to form anisotropic mesostructures, A. Ganguly, T. Ahmad and A K Ganguli, Dalton Trans.,18, 3536 (2009).

10.Enhancement in superconducting transition temperature and upper critical field of LaO0.8F0.2FeAs with antimony doping, J. Prakash, S. Singh, , S. Patnaik and A. K. Ganguli, Supercon. Sci. & Tech. 22, 045017 (2009).

11. Controlled growth of nanocrystalline rods, hexagonal plates and spherical particles of the pure vaterite form of calcium carbonate, J. Ahmed, Menaka and A. K. Ganguli, Crystal Engg. Comm.,11, 927 (2009).

12. NiO@SiO2 core-shell nanostructures: varying shell thickness and magnetic properties, S. Vaidya, K V Ramanujachary, S E Lofland and A. K. Ganguli, Cryst. Growth & Des.9, 1666 (2009).

13. Superconductivity in CeO1-xFxFeAs with upper critical fields of 94T, J. Prakash, S. Singh, , S. Patnaik and A. K. Ganguli, Physica C, 469, 82 (2009).

14. Superconductivity at 11.3 K induced by Co-doping in CeOFeAs, J. Prakash, S. Singh, , S. Patnaik and A. K. Ganguli, Solid State Commun., 149, 181(2009).

15. Nanocrystalline niobates and tantalates: Rietveld studies, Raman Spectroscopy and dielectric properties, V. Shanker, S. L. Samal, G. K. Pradhan, C. Narayana and A. K. Ganguli, Solid State Sciences 11, 562 (2009).

 

2008

 

1. Role of carboxylate ion and metal oxidation state on the morphology and magnetic properties of nanostructured metal carboxylates and their decomposition products", A. Ganguly, R. Kundu, K. V. Ramanujachary, S. E. Lofland, D. Das, N. Y. Vasanthacharya T. Ahmad, and A. K. Ganguli,  J. Chem. Sci , 120, 521( 2008).

2. Potassium fluoride doped LaOFeAs multi-band superconductor:  Evidence of extremely high upper critical field , J. Prakash,  S. Singh, S. L. Samal, S. Patnaik and A. K. Ganguli, Europhys. Letts., 84, 57003 (2008).

3. Bimetallic Cu-Ni nanoparticles of varying composition (CuNi3, CuNi, Cu3Ni) J. Ahmed, K. V. Ramanujachary, S. E. Lofland, Govind, A. Furiato, S. M. Shivaprasad and A. K. Ganguli, Colloids & Surfaces A,  331, 206 (2008).

4. Nanospheres, nanocubes and nanorods of nickel oxalate: Control of shape and size by surfactant and solvent, S. Vaidya, P. Rastogi, S. Agarwal, S. Gupta, T. Ahmad, A. Antonelli, K. V.  Ramanujachary,  S. E. Lofland Jr. and A. K. Ganguli ,  J. Phys. Chem. C, 112, 12610(2008).

5. Controlled synthesis of nanomaterials using reverse micelles, S. Vaidya, Jahangeer Ahmad and A. K. Ganguli, Def. Sci. J., 58, 531 (2008).

6. Effect of disorder on the electrical and superconducting properties in Ln1.2Ba1.2Ca0.6Cu3O7-d (Ln = Pr, Nd, Sm and Eu and Ln1.2Ba1.2Ca0.6Cu3O7+d , S. L. Samal, S. E. Lofland, K. V. Ramanujachary ,N. Sarkar, S. Ghosh and A.K. Ganguli, Supercon. Sci. & Tech. 21, 085007 (2008).

7. Development of a microemulsion-based process for synthesis of cobalt (Co) and cobalt oxide (Co3O4) nanoparticles from sub-micron rods of cobalt oxalate , J. Ahmed, T. Ahmad, S. E. Lofland, K. V. Ramanujachary and A. K. Ganguli , J. Colloid Interface Sci., 321,434 (2008).

8. Microemulsion route to the synthesis of nanoparticles, A. K. Ganguli, T. Ahmad, S. Vaidya and J. Ahmed, Pure and Applied Chemistry , 80, 2451(2008).

9. Study on the solid solution of YMn1-xFexO3: Structural, Magnetic and Dielectric properties , S. L. Samal, S. E. Lofland, K. V. Ramanujachary, D. Das and A.K. Ganguli, J. Solid State Chem 181, 66 (2008).

10. SnO2 nanoparticles: Reverse micellar synthesis and gas sensing properties  J. Ahmed, S. Vaidya, T. Ahmad, P. Sujatha Devi , D. Das and A. K. Ganguli, Mater Res Bull.,  43, 264 (2008).

 

2007

 

1. Mimicking the biomineralization of  aragonite (calcium carbonate) using reverse- micelles under ambient conditions , A. K. Ganguli, J. Ahmed, S. Vaidya and T. Ahmad,. J. Nanosci. Nanotech. 7, 1760 (2007).

2. Nanorods of iron oxalate synthesized using the reverse-micellar route: A facile route for obtaining Fe2O3 and Fe3O4 nanoparticles, A. K. Ganguli and T. Ahmad, J. Nanosci. & NanoTech., 7, 2029 (2007).

3. Rare - Earth Metal-Rich Antimonides : Syntheses, Structures and Properties of Tm3Sb and Lu7Sb3 , S. Gupta, L. Chen, A. K. Ganguli, and J. D. Corbett, Inorg. Chem. 46, 2187 (2007).

4. Nanocrystalline oxalate / carbonate precursors of Ce and Zr and their decomposition  to nanoparticles of CeO2 and ZrO2, S. Vaidya, T. Ahmad, S. Agarwal and A. K. Ganguli, J. Amer. Ceram. Soc., 90, 863 (2007).

5. Oxo and oxoperoxo molybdenum (VI) complexes with aryl hydroxamates : Synthesis, structure and catalytic uses in highly efficient, selective and ecologically benign peroxidic epoxidation of olefins, S. K. Maiti, K. M. Abdul Malik, S. Gupta, S. Chakraborty, A. K. Ganguli, A. K. Mukherjee and R. Bhattacharya, Inorg. Chem. 45, 9843 (2007).

6. Optimizing the hydrodynamic radii and polydispersity of reverse micelles in the Triton X-100 – water - cyclohexane system using dynamic light scattering and other studies, P. Kaushik, S. Vaidya, T. Ahmad and A. K. Ganguli, Colloids and surfaces A, 293, 162 ( 2007).

 

2006

 

1. Mg5.23Sm0.7Sb4 : An Ordered Superstructure Derived from the Mg3Sb2 Structure Type , S. Gupta, A. K. Ganguli, and J.  D. Corbett, Inorg. Chem. 45, 8175  (2006).

2. Reverse micellar synthesis and properties of nanocrystalline GMR materials ( LaMnO3, La0.67Sr0.33MnO3 and La0.67Ca0.33MnO3) : Ramifications of size considerations, T. Ahmad, K. V. Ramanujachary, S. E. Lofland, and A. K. Ganguli , J. Chem. Sci.,118,  513 , 2006.

3. Nanocrystalline zirconates of the type Ba1-xPbxZrO3 (0 £ x £ 1) synthesized using an alkoxide-free reverse micellar route: Structural transition and dielectric constant maximum at  x = 0.5, T. Ahmad and A. K. Ganguli, J. Amer. Ceram. Soc.., 89, 3140, (2006).

4. Synthesis, characterization and dielectric properties of nanocrystalline strontium zirconate prepared through a modified reverse micellar route, T. Ahmad and A. K Ganguli, Mater. Letts., 60 , 3660 , 2006.

5. Preferential occupation of alkaline-earth metal sites in a seemingly disordered solid solution of Ca11-xSrxSb10: Single crystal structures of Ca8.63(5)Sr2.37Sb10 and Ca3.66(7)Sr7.34Sb10 , S. Gupta and  A. K. Ganguli, J. Solid State Chem., 179, 1924 (2006).

6. Synthesis, Structure and Properties of a New Zintl Phase: SrLiSb, S. Gupta and A. K. Ganguli, J. Solid State Chem., 179, 1318 (2006).

7. New perovskite oxides of the type (Ln1/3Ba1/3Ca1/3)(Zn1/3Ti2/3)O3-d : Rietveld analysis and dielectric properties, P. Jha and A. K. Ganguli, Mater. Chem. Phys., 97, 337 (2006).

8. Magnetic and electrochemical properties of nickel oxide nanoparticles obtained by the reverse – micellar route,  T.  Ahmad, K.  V. Ramanujachary, S. E. Lofland  and A.  K. Ganguli, Solid State Sciences., 8, 425 (2006).

9. Reverse micellar route to nanocrystalline titanates (SrTiO3, Sr2TiO4 and PbTiO3) : Structural aspects  and dielectric properties, T. Ahmad and A. K. Ganguli, J. Amer. Ceram. Soc. 89, 1326 (2006).

10. Sintered compacts of nano and micron – sized BaTiO3 : Dramatic influence on the     microstructure and dielectric properties, V. Shanker, T. Ahmad, H. Ip and A. K. Ganguli, J. Mater. Res., 21, 816 (2006).

11. Zinc oxalate nanorods : A convenient precursor to uniform nanoparticles of ZnO, T. Ahmad, S. Vaidya, N. Sarkar, S. Ghosh and A. K. Ganguli, Nanotechnology , 17, 1236 (2006).

12. A new tetragonal structure type for A2Ca10Sb9  ( A = Li, Mg) . Electronic variability around a Zintl phase, A. K. Ganguli, S. Gupta and J. D. Corbett, Inorg. Chem. 45, 196, ( 2006).

 

2005

 

1. Structural evidence of incipient bond stretching isomerism in Ca2SrSn5  by variable temperature X-ray crystallographic analysis, S. Gupta and A. K. Ganguli, Inorg. Chem., 44, 7443 ( 2005)

2. Nanorods of copper and nickel oxalates synthesized by a reverse micellar route, T. Ahmad, K. V. Ramanujachary, S. E. Lofland and A. K. Ganguli, J. Nanoscience and Nanotechnology, 5, 1840 (2005).

3. Inherent Instabilities of Some W5Si3-Type Binary Phases with Larger Active Metal Atoms.  Six Examples in the Ba–Pb, Ca–Sn–Mg,Cu,Zn, and La–Ga–Al,Zn Systems A.  K. Ganguli,  S. Gupta, J-T. Zhao, E. A. Leon-Escamilla and J. D. Corbett,  J. Solid State Chem., 178, 2965 ( 2005).

4. Nanostructured barium titanate prepared through a modified reverse micellar route : Structural distortion and dielectric properties , T. Ahmad, G. Kavitha, C. Narayana and A. K. Ganguli, J. Mater. Res. 20, 1415 ( 2005).

5. (La2/5Ba2/5Ca1/5)(Mn(2/5)-xNixTi3/5)O3 : Rietveld studies, dielectric and magnetic   properties of new perovskite – related oxides ,  P. Jha, S. L. Samal, K. V. Ramanujachary, S. E. Lofland and A.  K. Ganguli, Bull. Mater. Sci., 28, 571 (2005).

6. Investigation of cation – deficient quaternary thiospinels: Single crystal study of Ag1.4Cr1.47Sn2.53S8 , G. Garg, S. Gupta, K. V. Ramanujachary , S. E. Lofland and A. K. Ganguli, J. Alloys and Compounds, 390, 46 ( 2005).

7. Canted antiferromagnetism in CuO nanoparticles synthesized by the reverse micellar route, T. Ahmad, R. Chopra, K. V. Ramanujachary, S. E. Lofland and A. K. Ganguli, Solid State Sciences., 7, 891( 2005) .

 

2004

 

1. Investigation of  Ba2-xSrxTiO4 :  Structural aspects and dielectric properties, V. Shanker, T. Ahmad and A. K. Ganguli, Bull. Mater. Sci., 27, 421 (2004).

2. Reverse micellar route to manganese oxalate nanorods : single source precursor to various manganese oxide nanoparticles, T. Ahmad, S. E. Lofland, K. V. Ramanujachary and A. K. Ganguli, J. Mater. Chem., 14, 3406 (2004).

3. Synthesis of nanometer-sized particles of Ba2TiO4  prepared through a modified reverse - micellar route : Structural characterization and Dielectric properties, T. Ahmad and A. K. Ganguli, J. Mater Res , 19, 2905 (2004).

4. La0.4Ba0.4Ca0.2Mn0.4Ti0.6O3: A new oxide having a high dielectric constant also exhibiting antiferromagnetic interactions, P. Jha, S. Rai, K. V. Ramanujachary, S. E. Lofland and A. K. Ganguli,  J. Solid State Chem., 177, 2881, ( 2004).

5. Complex rare-earth titanates with the perovskite structure: Rietveld studies and dielectric properties,  P. Jha and A. K. Ganguli , Solid State Sciences 6/7, 663 ( 2004).

6. Nd2Ba2CaCu2-xZnxTi3O14: A family of oxides having a perovskite - related structure with tunable dielectric properties, P. Jha and A. K. Ganguli, Mater. Res. Bull. 39, 971 ( 2004).

 

2003

 

1. Crystal structure, electrical and electrochemical properties  of the quaternary thiospinel : Ag2FeSn3S8, G. Garg,  S. Gupta, T. Maddanimath,  F. Gascoin and A. K. Ganguli, Solid State Ionics, 164, 205 (2003).

2. Comparative study of the dielectric properties of MgNb2O6 prepared by the molten          salt and solid state routes, V. Shanker and A. K. Ganguli, Bull. Mater. Sci, 26, 741      (2003).

3. New perovskite – related oxides having high dielectric constant: Ln2Ba2CaZn2Ti3O14 (Ln= La and Pr),, P. Jha and A. K. Ganguli, Proc. Ind. Acad. Sci, 115, 431  2003.

4. Nd2Ba2CaZn2Ti3O14 4 : A new high dielectric constant oxide having a disordered (cubic) perovskite structure, P. Jha, S. Bobev, G. N. Subbanna and A. K. Ganguli, Chem. Mater. 15, 2229 (2003).

5. Synthesis and dielectric properties of nano-size lead zirconium titanates (PZT) materials by the polymeric citrate precursor route, P.  Jha,  P.  R.    Arya and A.  K. Ganguli , Mater. Chem. Phys., 82, 355 (2003).

6. Crystal structure, Magnetic and electrochemical properties  of the quaternary thiospinel : Ag2MnSn3S8, G. Garg, K. V. Ramanujachary, S. E. Lofland, M. Lobanov, M. Greenblatt, T. Maddanimath, K. Vijayamohanan and A. K. Ganguli, J. Solid State Chem., 174, 229 (2003).

7. Polymeric citrate precursor route to the synthesis of nano – sized barium lead titanates, P.  R.    Arya, P.  Jha, G. N. Subbanna and A.  K. Ganguli , Mater. Res. Bull., 38, 617 (2003).

8. Synthesis, characterization and dielectric properties of nanometer – sized barium          strontium titanates prepared by the polymeric citrate precursor method, P.  R.                Arya, P.  Jha and A.  K. Ganguli , J. Mater. Chem., 13 , 415 ( 2003).

9. Polymeric citrate precursor route to the synthesis of the high dielectric constant material, CaCu3Ti4O12,  P.  Jha, P. Arora and A.  K. Ganguli, Mater. Letts., 57, 2443 (2003).

 

2002

 

1. Ba3ZnTa2-xNbxO9 and Ba3MgTa2-xNbxO9 ( 0 £ x £ 1) : Synthesis, Structure and dielectric properties, M. Thirumal, I. N. Jawahar, K. P. Surendiran, P. Mohanan and A. K. Ganguli , Mater. Res. Bull., 37, 2321 (2002).

2. Synthesis and dielectric properties of Ba3ZnNb2O9 and Sr3ZnNb2O9 solid solution, M. Thirumal and A. K. Ganguli, Bull. Mater. Sci., 25, 259 ( 2002).

3. Synthesis and microwave dielectric properties of Sr3Zn1-xMgxNb2O9,  M. Thirumal, I. N. Jawahar, K. P. Surendiran, P. Mohanan and A. K. Ganguli, Mater. Res. Bull., 37, 185(  2002 ).

4. Single-crystal structures of two cation - deficient thiospinels : Cu7.38Mn4Sn12S32 and Cu7.07Ni4Sn12S32, G. Garg, S. Bobev and A. K. Ganguli, Solid State Ionics, 146, 195 (2002).

5.A new form of MgTa2O6 obtained by the molten salt method, S. Nangia, M. Thirumal, A. K. Ganguli and P L Gai, Microsc. Microanal. 8, 1414 (2002).

 

2001

 

1. Phase analysis and dielectric properties of oxides obtained in the MgO - (1-x)Nb2O5 - (x)Ta2O5 system, M. Thirumal and A. K. Ganguli, Proc. Ind. Acad. Sci(Chem. Sci.) , 113, 603, (2001).

2. A new silicon -doped cation - deficient thiospinel, Cu5.52 Si1.04 1.44Fe4Sn12S32 : crystal structure, Mossbauer studies and electrical properties, G. Garg, S. Bobev, A. Roy J. Ghose, D. Das and A. K. Ganguli, J. Solid State Chem., 161, 327(2001).

3. Single-crystal structure and Mossbauer studies of a new cation-deficient thiospinel : Cu5.47Fe2.9Sn13.3S32 ,  G. Garg, S. Bobev, A. Roy, J. Ghose, D. Das  and A. K. Ganguli, Mater. Res. Bull., 36, 2429 (2001).

4. Synthesis and dielectric properties of magnesium niobate - magnesium tantalate solid solutions, M. Thirumal and A. K. Ganguli , Mater. Res. Bull., 36, 2421 (2001).

5. Single crystal structure and electrical properties of Cu8Ni4Sn12S32 , G. Garg, S. Bobev and A. K. Ganguli, J. Alloys and Compounds 327, 113 (2001).

6. New double perovskites having low dielectric loss : LaBaZnTaO6, LaSrZnNbO6 and Ba2Zn0.5Ti0.5TaO6, A. K. Ganguli, V. Grover and M. Thirumal, Mater. Res. Bull., 36, 1967 (2001).

7. Molten salt synthesis of complex perovskite - related dielectric oxides, M. Thirumal, P. Jain and A. K. Ganguli, Mater. Chem. Phys.,70, 7 (2001).

 

2000-1995

 

1. Ba3ZnTa2-xNbxO9 and Ba3MgTa2-xNbxO9 ; Synthesis, structural and dielectric properties, M. Thirumal, G. Senthil Murugan, K. B. R. Varma and A. K. Ganguli, Mater. Res. Bull., 35, 2423 (2000).

2. Influence of strontium on the cubic to ordered hexagonal phase transformation in barium magnesium niobate, M. Thirumal and A. K. Ganguli, Bull. Mater. Sci., 23, 495(2000).

3. Phase analysis and dielectric properties of ceramics in the PbO-MgO-ZnO-Nb2O5 system : a comparative study of materials obtained by the ceramic and molten salt synthesis routes, M. Thirumal and A. K. Ganguli, Bull. Mater. Sci., 23, 101(2000).

4. Concerning the Ca2-xMgxTt Systems, Tt = Sn, Pb, A. K. Ganguli, A. M. Guloy and J. D. Corbett, J. Solid State Chem., 152, 474(2000).

5. Mixed Cations for the Stabilization of New Features. Ca6.2Mg3.8Sn7, a phase with planar zigzag chains of interlinked square-planar Tin units, A. K. Ganguli, J. D. Corbett and Martin Kockerling, J. Amer. Chem. Soc., 120 , 1223(1998).

6. Magnetic properties of rare earth nickelates of the Ln2BaCuO5

      family, R. Gundakaram, N. Y. Vasanthacharya, A. K. Ganguli and C.  N. R. Rao, Eur. J.             Solid    State & Inorg. Chem., 33, 41(1996).  

7. Thermal expansion studies of substituted CTP derivatives, A.K. Ganguli and K. P. Jayadevan, Bull. Mater. Sci., 18, 883(1995).

8. Electronic and Magnetic properties of Y2BaCuO5 derivatives, A. K. Ganguli, N. Y. Vasanthacharya and C. N. R. Rao, Eur. J. Solid State & Inorg. Chem., 32, 509(1995).

9. Structural aspects of superconducting cuprates, C.N.R. Rao and A.K. Ganguli, Acta Crystallogr.B51, 604(1995).

10. Transformation of the oxygen‑deficient 123 cuprates LnBa2Cu3O7‑d (Ln = Nd, Gd, Dy, Er : 0.3 <  d < 0.4) to a 124‑type structure on low‑temperature annealing, K.M. Bhat, Ravichandra Gundakaram,  G.N. Subbanna and A.K. Ganguli, Solid State             Commun., 95, 629(1995).

11. Structure‑Property relations in superconducting cuprates, C.N.R. Rao and A.K. Ganguli, Chem.Soc.Rev. (Royal Soc.) London, 24, 1 (1995).

12. Preparation and dielectric properties of Ba3Zn1‑xCdxTa2O9,  A.K. Ganguli, K.P. Jayadevan, G.N. Subbanna and K.B.R. Varma, Solid State Commun., 94, 13 (1995).

 

1994-1985

 

1. Structural and superconducting aspects of Nd1‑xCaxBa2Cu3O7‑d , M. Vlasov and A.K. Ganguli,  Mod.Phys.Lett. B8, 1815(1994).         

2. Investigations in the Ba‑In‑(Al/Cu)‑O System, A.K. Ganguli and T.N.Guru Row,  Mater.Res.Bull. 29, 1333 (1994).

3. Ca31Sn20 and related compounds: Novel Zintl phases contain­ing dimers and pentamers of tin or lead, A.K. Ganguli, A.M. Guloy, E.A. Leon‑Escamilla and J.D. Corbett, Inorg.Chem. 32, 4349 (1993)

4. Three novel Zintl phases in the Mg ‑ La ‑ Sb system based on     intergrowth of LaSb and Mg3Sb2 slabs,  A.K. Ganguli, Y.U. Kwon and J.D. Corbett, Inorg. Chem. 32, 4354 (1993).

5. Structure,  bonding  and properties  of   CaZn1‑xCdxSn  and CaSn0.5Ge1.5,  A.K.  Ganguli  and J.D. Corbett, J. Solid  State Chem. 107, 480 (1993).

6. High pressure synthesis of new plumbates of bismuth and thallium, M.A. Subramanian, A.K. Ganguli and A.W. Sleight, Mater. Res. Bull., 27, 799(1992).

7. Manipulation of Ba‑O layers inducing orthorhombic ‑ tetragonal phase transition in YBa2‑xSrxCu3O6.7, A.K. Ganguli and M.A. Subramanian, Mater. Res. Bull., 26, 869(1991).

8. Synthesis and characterization of (Tl0.5Pb0.5)Sr3‑xNdxCu2O7,        A.K. Ganguli and M.A. Subramanian, Mater. Res. Bull., 26,              449(1991).

9. Superconductivity in Tl1‑xCdxBaLaCuO5, M.A. Subramanian and  A.K. Ganguli, Mater. Res. Bull., 26, 97(1991).

10. Synthesis and characterization of perovskite ‑ type  BaTl0.5Sb0.5O3 and BaTl0.5+xSb0.5‑xO3‑x, M.A. Subramanian,    A.K.      Ganguli, K.L. Willmer and J.E. Greedan, J. Solid State  Chem., 95, 447(1991).

11. A stabilized tetragonal phase of La2O3 in the La ‑ Pd ‑ O  system, T.N. Guru Row, A.K. Ganguli, N. Rangavittal, R. Seshadri and C.N.R. Rao, J. Solid State Chem., 95,  224(1991).

12. Synthesis and characterization of orthorhombic TlSr2CuO5,        A.K. Ganguli and M.A. Subramanian, J. Solid State Chem., 93,  250 (1991).

13. Oxides of the type TlSr2Cu1‑xMxO5 (M=Fe,Co) having the 121  structure, A.K. Ganguli, M.A. Subramanian and G. H. Kwei, J. Solid State Chem., 91, 397(1991).

14. Tl2Ba2‑xSrxCuO6 : A system exhibiting a compositionally  controlled superconductor ‑ metal transition, A.K. Ganguli  and M.A. Subramanian, J. Solid State Chem., 90, 382(1991).

15. 123, 247 and 124 cuprate superconductors : Investigations of thermodynamic stabilities, defect structures and inter­       growths, C.N.R. Rao, G.N. Subbanna, R. Nagarajan, A.K. Ganguli, L. Ganapathi, R. Vijayaraghavan, S.V. Bhat and A.R.            Raju, J. Solid State Chem., 88, 163(1990).

16. Neutron diffraction study of superconducting cuprates of the  TlCa1‑xLnxSr2Cu2O7‑y (Ln = rare ‑ earth) series, R. Vijaya­raghavan, A.K. Ganguli, C.N.R. Rao, H. Rajagopal and A.  Sequeira, Eur. J. Solid State & Inorg. Chem., 28, 653(1991).

17. The nature and stability of the 60K superconducting phase in  the YBa2Cu3O7‑y system, C.N.R. Rao, R. Nagarajan, A.K.  Ganguli, G.N. Subbanna and S.V. Bhat, Phys Rev. B42,  6765(1990).

18. Layered thallium cuprates not containing Ca, Ba  or rare‑  earth : A new 1223 type of superconductor in the  (TlPb)Srn+1CunO2n+3 series, V. Manivannan, A.K. Ganguli and  C.N.R. Rao, Solid State Commun., 74, 87(1990).

19. A new family of Tl cuprate superconductors not containing Ca  or Ba : TlSrn+1‑xLnxCunO2n+3, A.K. Ganguli, V. Manivannan,         A.K. Sood and C.N.R. Rao, Appl. Phys. Lett., 55, 2664(1989).

20. Elusive superconductivity in polycrystalline samples of  layered lanthanum nickelates, A.K. Ganguli, R. Nagarajan,  N.Y. Vasanthacharya and C.N.R. Rao, Solid State Commun., 72,  195(1989).

21. Investigations of novel cuprates of the TlCa1‑xLnxSr2Cu2O7‑y        (Ln = rare ‑ earth) series    showing electron and hole super­           conductivity depending on composition, R. Vijayaraghavan,  A.K. Ganguli, N.Y. Vasanthacharya, M.K. RajuMon, G.U. Kulkarni, G. Sankar, D.D. Sarma, A.K. Sood, N. Chandrabhas &  C.N.R. Rao, Supercond. Sci. & Tech., 2, 195(1989).

22. Superconducting 1122 type layered cuprates of the formula  TlCa1‑xLnxSr2Cu2Oy( Ln=Y or rare ‑ earth, C.N.R. Rao, A.K.              Ganguli and R. Vijayaraghavan, Phys. Rev. B40, 2565(1989).

23. Superconductivity in Bi‑Ca‑Sr‑Cu‑O(2122) and Tl‑Ca‑Y‑Ba‑Cu‑ O(1122) systems : Effect of substitution of Ca by Y, A.K.    Ganguli, R. Nagarajan, K.S. Nanjundaswamy and C.N.R. Rao, Mater. Res. Bull., 24, 103(1989).

24. Superconductivity in layered nickelates, C.N.R. Rao, A. K. Ganguli and R. Nagarajan, Pramana‑J. Phys., 32, L77(1989).

25. Novel 1122 Tl cuprate superconductors : TlCa1‑xYxBa2Cu2O7,  Tl1‑xPbxCaSr2Cu2Oy and TlCa0.5Ln0.5Sr2Cu2Oy, A.K. Ganguli,  R. Vijayaraghavan and C.N.R. Rao, Phase Trans., 19, 2213 (1989).

26. A neutron diffraction study of the superconductor  Tl0.5Pb0.5CaSr2Cu2Oy, A.K. Ganguli, K.S. Nanjundaswamy,  C.N.R. Rao, A. Sequeira and H. Rajagopal, Mater. Res. Bull.  24, 883 (1989).

27. An investigation of the PrBa2Cu3O7 system, A.K. Ganguli,  C.N.R. Rao, H. Rajagopal and A. Sequeira, Z. Phys. B74,  215(1989).

27. Tl1‑xPbxCaSr2Cu2O7 : Another 1122 high‑Tc superconductor, A.K. Ganguli,  K.S.  Nanjundaswamy and C.N.R. Rao, Physica C, 156,       788(1988).

28. Superconductivity in the Tl ‑ Ba ‑ Ca ‑ Cu ‑ O system :  Material Characterization and mechanism, A.K. Ganguli, K.S.  Nanjundaswamy, G.N. Subbanna, M.K. RajuMon, D.D. Sarma &  C.N.R. Rao, Mod. Phys. Lett., B2, 1169(1988).

29. TlCaBa2Cu2O7 : The 1122(90K) superconductor in the new

      Tl(CaBa)n+1CunO2n+3 series,  A .K. Ganguli, G.N. Subbanna        and C.N.R. Rao, Physica C,       156, 116(1988).

30. Preparation, structure, microwave absorption and other  properties of the high‑Tc superconductor Tl2Ca2Ba2Cu3O10,  A.K.            Ganguli, K.S. Nanjundaswamy, G.N.Subbanna, A.M. Umarji,  S.V. Bhat and C.N.R. Rao, Solid State Commun., 39, 67(1988).

31. Superconductivity in the 100 ‑ 120K range in the Tl ‑ Ca ‑  Ba ‑ Cu ‑ O system, A.K. Ganguli, G.N. Subbanna, A.M.             Umarji, S.V. Bhat & C.N.R. Rao, Pramana‑J.Phys. 30,  L483(1988).

32. A comparative study of superconducting LaBa2Cu3O7 and          La3+xBa3‑xCu6O14+y, L. Ganapathi, A.K. Ganguli, R.A. Mohan       Ram and C.N.R. Rao, J. Solid State Chem., 73, 593(1988).

33. A study of the chemical stability of the high Tc supercon­ductor, YBa2Cu3O7‑x, A.K. Ganguli and N.Y. Vasanthacharya,  Bull. Mater. Sci., 10, 241(1988).

34. Relationship between high ‑ Tc superconductivity and struc­ture :           A study of La3Ba3Cu6O14 and YBa2Cu3O7 systems, A.K.        Ganguli, L. Ganapathi, K.Sreedhar, R.A. Mohan Ram, P. Gan­guly and C.N.R. Rao, Pramana‑.Phys., 23, L335(1987).

35. Approaches to the synthesis of high ‑ Tc superconducting           oxides in the La‑Ba‑Cu‑O and Y‑Ba‑Cu‑O system, V. Bhat, A.K.        Ganguli, K.S. Nanjundaswamy, R.A. Mohan Ram, J. Gopalakrish­nan and C.N.R. Rao, Phase Trans., 10, 87 (1987).

36. Low temperature synthesis of novel layered alkali metal ‑  MoO3 bronzes & hexagonal bronzes of the type KyW1‑xMoxO3,  A.K.            Ganguli, L. Ganapathi, J. Gopalakrishnan and C.N.R. Rao,   J. Solid State Chem., 74, 288(1988).

37. Magnetic properties  of Ca2Fe2‑xMnxO5, A.K. Ganguli and J. Gopalakrishnan, Proc. Ind. Acad. Sci.(Chem. Sci.), 97, 627 (1987).

38. Novel metal oxides prepared by ingenious  synthetic  routes, C.N.R. Rao, J. Gopalakrishnan, K. Vidyasagar, A.K. Ganguli,  A. Ramanan and L. Ganapathi, J. Mater. Res., 1, 280 (1986).

 

. : Personal Activities

 

Zeba Haque received "Outstanding Student Award" in

Winter School-2013 on Frontiers in Materials Science

 

The Poster entitled "Magnetocaloric effect in ZrCuSiAs type oxypnictide polycrystalline material"

S. Arumugam, M. Kanagaraj, Gohil S. Thakur, J. Prakash, S. Esakki Muthu
and Ashok K. Ganguli has been presented in the International

Conference on Advances in New materials, ICAN 2014 on

20-21.06.2014 organised by

Department of Inorganic Chemistry

University of Madras.

 

 

 

Vaishali Sethi visited Indian Beamline, Photon Factory, KEK, Japan, for conducting Synchroton SAXS Measurements (26-29, Nov. 2014)