Full List of Publications
h-Index 22

Journal
1. Basu, S.,``A study on effect of wetting on mechanism of coalescence in a model coalescer'', J. colloid
and Interface Sci., 159 68-76 (1993)

2. Basu, S., Nandakumar, K., and J. H. Masliyah,``A study on oil displacement on model surfaces'', J. colloid Interface Sci., 182 82-94 (1996)

3. Basu, S., Kumar, R., and K. S. Gandhi, ``Detachment of a coalesced phase blob from a circular obstacle
in a Hele Shaw cell'', Chem. Engg. Sci., 52 2849-2855 (1997)

4. Basu, S., Nandakumar, K., and J. H. Masliyah,``On bitumen liberation from oil sands" Can. J. Chem. Engg., 75 476-479 (1997)

5. Basu, S., Nandakumar, K., and J. H. Masliyah,``A model for detachment of a partially wetting drop from a solid surface by a shear flow'' J. colloid Interface Sci., 190 253-257 (1997)

6. Basu, S., Kumar, R., and K. S. Gandhi,``Flow of liquid/liquid dispersions in a Hele Shaw cell'', J. Chem. Engg. Japan, 30 852-866 (1997)

7. Basu, S., Nandakumar, K., and J. H. Masliyah,`` Effect of NaCl and MIBC/Kerosene on bitumen displacement by water on a glass surface:'' Colloids Surfaces A: Physicochem. Engg. Aspects 136 71-80 (1998)

8. Basu, S., Nandakumar, K., and J. H. Masliyah,``Effect of hydrophobic and hydrophilic fines on bitumen displacement by water on a Glass surface:'' Ind. Engng. Chem. Res., 37 959-969 (1998)

9. Basu, S., Nandakumar, K., and J. H. Masliyah,``A visual study of high grade oil sand disintegration process'', J. colloid Interface Sci., 205 201-203 (1998)

10. Basu, S., Nandakumar, K., and J. H. Masliyah,``A study on daughter droplet formation in
bitumen/water/glass contact line displacement due to instability” Fuel 70 837-841 (2000)

11. Basu, S. “Wall effect in laminar flow of non-Newtonian fluid through packed bed” Chem. Eng. J. 81 (1-3) 323-329 (2001)

12. Malpani, P. R., and S. Basu, "Separation of Methyl Orange and Methylene Blue Dye from Water using colloidal gas aphron" Sep. Sci. Tech. 36 (13), 2997-3013 (2001)

13. Pandit, P. and S. Basu, “Separation of organic dyes from water by liquid-liquid extraction using reverse micelles” J. colloid Interface Sci 245 208-214 (2002)

14. Basu, S., Luthra, J, and Nigam, K. D. P., “Spreading of agrochemical on leaf and seed surfaces in the presence of surfactants” J. Environ Sci. Health - Part B: Pesticide, Food contaminants, and Agricultural Waste 37 (4) 331-344 (2002)

15. Basu, S., Nandakumar, K., and J. H. Masliyah,``Effect of Ca+2 ions and Montomorillonite clay on bitumen displacement by water'', Fuel 83(1) 17-22 (2004)

16. Pandit, P. and Basu, S., “Removal of organic dyes from water by solvent extraction using reverse micelles”, Environ. Sci. Technol 38 2435-2442 (2004)

17. Verma, A., and S. Basu “Feasibility study of a simple unitized regenerative fuel cell” J. Power Sources 135 62-65 (2004)

18. Basu, S., Kandhari, A., Negi A. S., “Creaming behavior of amyl alcohol-in-water emulsion” J. Disp. Sci. Technol. 25 (6) 823-827 (2004)

19. Pandit, P., and Basu, S., “Dye and solvent recovery in solvent extraction using reverse micelles for the removal of ionic dye” Ind. Eng. Chem Res. 43 7861-7864 (2004)

20. Gupta, J. K., and S. Basu “Simultaneous aggregation and sedimentation of silica particles in the presence Of surfactants” Colloids Surfaces A: Physicochem. Engg. Aspects 255 139-143 (2005)

21. A. Verma, A. K. Jha and S. Basu “Evaluation of an alkaline fuel cell for multi- fuel system” ASME J Fuel Cell Science & Technology, 2, 234-237 (2005)

22. Verma, A., A. K. Jha, S. Basu “Manganese oxide as a cathode catalyst in flowing alkaline electrolyte direct alcohol or sodium borohydride fuel cell” J. Power Sources 141 30-34 (2005)

23. Verma, A., and Basu, S., ‘Direct use of alcohols and sodium boro hydride as fuel in an alkaline fuel cell' J. Power Sources 145, 282-285 (2005)

24. A. Verma and S. Basu, ‘Power from hydrogen via fuel cell technology’ Chemical Weekly, July, 177-181 (2005)

25. Kumar, D., Gupta, S., S. Basu, ‘Prediction of surface tension of organic liquids using artificial neural network’, Ind. Chem. Engr., 47(4) 219-223 (2005)

26. Reddy, T. K., Basu, S., Nanotechnology: Catalyses, Adsorbents, and Social Concern, Productivity, 47(3), 204-210, (2006)

27. Basu, S., Development of direct alcohol fuel cell, Hydrogen and Fuel Cell Corporation Bulletin, 3, April-June, 8-12, (2006)

28. Basu, S., ‘Frontier Areas of Chemical Engineering Research in the Twenty-First Century’, Ind Chem Eng., 48(4), 273-277 (2006)

29. Reddy, K. T. and S. Basu, ‘Gas-to-Liquid technologies and India’s perspective’ Fuel Processing Technol., 88, 493-500 (2007)

30. Verma, A., Sharma, A., and S. Basu, ‘Electro-oxidation study of methanol and ethanol in alkaline medium in a fuel cell’ Ind. Chem Engr. 49(4) 330-340 (2007)

31. T Reddy Keshav, S. Basu, ‘Spreading of Liquid droplets on Proton Exchange Membrane of a Direct Alcohol Fuel Cell’, Chem. Eng Sci., 62, 7515-7522 (2007)

32. Basu, S., ‘Future direction of fuel cell science and technology’, J. Petrotech Soc., IV(1), 16-21, (2007)

33. Verma, A, and S. Basu, ‘Experimental Evaluation and Mathematical Modeling of A Direct Alkaline Fuel Cell’, J. Power Sources, 168(1), 200-210, (2007)

34. Verma A., and Basu, S., Direct Alkaline Fuel Cell for Multiple Liquid Fuels: Anode Electrode Studies, J. Power Sources, 174, 180-185 (2007)

35. Pramanik, H., and Basu, S., A Study on Process Parameters of Direct Ethanol Fuel Cell, Can J. Chem Eng., 85(5), 781-785 (2007)

36. Phirani, J., and S. Basu, ‘Analyses of fuel utilization in micro-fluidic fuel cell’ J Power Sources, 175, 261-265 (2008)

37. S. Basu and Shravan, ‘Preparation and characterization of petroleum sulfonate directly from crude’Petroleum Sci. Technol. 26 (13) 1559-1570 (2008)

38. Pramanik, H., Basu, S., Wragg, A.A., Studies on operating parameters and cyclic voltammetry of a direct ethanol fuel cell, J Appl. Electrochem., 38(9) 1321-1328 (2008)

39. Basu, S., A. Agarwal, H Pramanik, ‘Improvement in performance of a direct ethanol fuel cell: effect of sulfuric acid and Ni-mesh’ Electrochem. Comm. 10, 1254 - 1257 (2008)

40. Gupta, A. K. and S. Basu, Deformation of an oil droplet on solid substrate in simple shear flow, Chem. Eng. Sci., 63, 5496-5502 (2008)

41. Biswas, S, P Sambu, S. Basu, Influence of pore former and PTFE in performance of direct ethanol fuel cell'. Asia-Pac J Chem Eng. 4, 3-7 (2008)

42. Gaurav, D., A. Verma, D. Sharma and S. Basu, Development direct alcohol alkaline fuel cell stack, Fuel Cell, 10(4) 591-596 (2010)

43. Pramanik, H., S. Basu, ‘Modeling and experimental validation of overpotentials of a direct ethanol fuel cell’ Chem. Eng Process, 49(7) 635-642 (2010)

44. D. Basu, S. Basu,’ A Study on Direct Glucose and Fructose Alkaline Fuel Cell, Electrochim Acta, 55, 5575-5579 (2010)

45. Chokalingam, R., Jain, S, S. Basu, ‘Conductivity of Gd-CeO2-(LiNa)2 CO3 Nano Composite Electrolytes for Low Temperature Solid Oxide Fuel Cells’ Integrated Ferroelectrics, 116, 23-34 (2010)

46. Awasthi, A., S. Basu, K. Scott, ‘Dynamic modeling and simulation of a proton exchange membrane electrolyzer for hydrogen production’ Intl J Hydrogen Energy, 36 (22) 14779-14786 (2011)

47. Basu, D., S. Basu, ‘Synthesis and Characterization of PtAu/C catalyst for Glucose Electro-oxidation for the application in direct glucose fuel cell’, Intl J Hydrogen Energy, 36 (22) 14923-14929 (2011)

48. Xu W., Tayal, J., S. Basu, K. Scott, ‘Nano-crystalline RuxSn1-xO2 powder catalysts for the oxygen evolution reaction in Proton Exchange Membrane Water Electrolyser (PEMWE)’ Intl J Hydrogen Energy 36 (22) 14796-14804 (2011)

49. Tayal, J., B. Rawat, S. Basu, Bi-metallic and tri-metallic Pt-Sn/C, Pt-Ir/C, Pt-Ir-Sn/C catalysts for electro-oxidation of ethanol in direct ethanol fuel cell’ Intl J. Hydrogen Energy 36 (22) 14884-14897 (2011)

50. D. Basu, S. Basu, Synthesis, Characterization and Application of Platinum Based Bi-metallic Catalysts in Direct Glucose Alkaline Fuel Cell’, Electrochim Acta, 56 6106-6113 (2011); Erratum in Electrochimica Acta 56 (2011) 7758

51. Chokalingam, R., S. Basu, ‘Impedance Spectroscopy studies of Gd-CeO2-(LiNa)CO3 nano-composites electrolyte for low temperature SOFC applications Intl J Hydrogen Energy, 36 (22) 14977-14983 (2011)

52. H. Pramanik, S. Basu, Cyclic Voltammetry of Oxygen Reduction Reaction Using Pt-based Electrocatalysts on a Nafion-bonded Carbon Electrode for Direct Ethanol Fuel Cell, Indian Chemical Engineer, 53(3), 124-135, (2011)

53. Wu X, Scott K, Basu S. Performance of a high temperature polymer electrolyte membrane water electrolyser. J Power Sources 196: 8918– 8924 (2011)

54. P. B. L. Chaurasia, P. Shekhar, S. Basu, N. Panja and K. Kendall, Investigations on power density from proton exchange membrane fuel cell for power generation from solar energy, Journal of Materials Science and Engineering with Advanced Technology, 5 (1), 17-37 (2012)

55. Tayal, J., Rawat, B., S. Basu, Effect of Addition of Rhenium to Pt-based Anode Catalysts in Electro-oxidation of Ethanol in Direct Ethanol PEM Fuel Cell, Intl J. Hydrogen Energy 37(5), 4597-4605 (2012)

56. Basu, D., S. Basu,‘Performance studies of Pd-Pt and Pt-Pd-Au catalyst for electro-oxidation of glucose in direct glucose fuel cell’, Intl J Hydrogen Energy, 37(5) 4678-4684 (2012)

57. A. K. Jain, S. Basu, ‘Flow past porous permeable sphere: hydrodynamics and heat transfer studies’, Ind. Engng. Chem. Res 51 2170-2178 (2012)

58. J. Goel, S. Basu, ‘Pt-Re-Sn as metal catalysts for electro-oxidation of ethanol in direct ethanol fuel cell’, Fuel Cells Science & Technology 2012 – A Grove Fuel Cell Event, Energy Procedia 28, 66-77, (2012)

59. Rajalakshmi C., A. K. Ganguli, S. Basu, Development of GDC-(LiNa)CO3 Nano-Composite Electrolytes For Low Temperature Solid Oxide Fuel Cells in Advances in Solid Oxide Fuel Cells VIII, Ed Michael Halbig and Sanjay Mathur, The American Ceramic Soc., 34-46, 2012

60. Rajalakshmi C., A. K. Ganguli, S. Basu Advances in Solid Oxide Fuel Cells VIII Mixed Conducting Praseodymium Cerium Gadolinium Oxide (PCGO) Nano-Composite Cathode for ITSOFC Applications in Advances in Solid Oxide Fuel Cells VIII, Ed Michael Halbig and Sanjay Mathur, The American Ceramic Soc., 47-62, 2012

61. Kaur, G., and S. Basu Performance studies of coppereiron/ceriaeyttria stabilized zirconia anode for electro-oxidation of butane in solid oxide fuel cells, J. Power Sources 241 783-790 (2013)

62. Tiwari, P., and S. Basu, Ni in?ltrated YSZ anode stabilization by inducing strong metal support interaction between nickel and titania in solid oxide fuel cell under accelerated testing, Intl J. Hydrogen Energy, 38 9494-9499 (2013)

63. Sanjeev Kumar N, V. C. Srivastava, S. Basu, Optimization and kinetics of furfural oxidation to furoic acid over alum impregnated activated alumina, Indian Chemical Engineer, 55(3) 153-164 (2013)

64. M. Nath, A. S. Hameed, Rajalaskmi C., S. Basu, A. K. Ganguli, ‘Low Temperature Electrode Materials Synthesized by Citrate Precursor Method for Solid Oxide Fuel Cells, Fuel Cells 13 (2), 270-278 (2013)

65. K Solanki, S. Sindhu, S. Basu, Microbial fuel cells for azo dye treatment with electricity generation: A Review, Bioresource Tech. 131 564-571 (2013)

66. D. Basu, S. Sood, S. Basu, ‘Comparison of Performance of Direct Glucose Alkaline and Anion Exchange Membrane Fuel Cells: Pt-Au/C and Pt-Bi/C Anode Catalysts’, Chem Eng J. 228 867–870 (2013)

67. A. Ghosh, S. Basu, A. Verma Graphene and Functionalized Graphene Supported Platinum Catalyst for PEMFC, Fuel Cell 13 (3) 355–363 (2013)

68. R. Pathak, S. Basu, Mathematical Modeling and Experimental Verification of Direct Glucose Anion Exchange Membrane Fuel Cell, Electrochim Acta 113 (15) 42-53 (2013)

69. Vinod Kumar Puthiyapura, Sivakumar Pasupathi, Suddhasatwa Basu, Xu Wu, Huaneng Su, N. Varagunapandiyan, Bruno Pollet, Keith Scott, RuxNb1-xO2catalyst for the oxygen evolution reactionin proton exchange membrane water electrolysers, Intl J. Hydrogen Energy 38 8605-8616 (2013)

70. Varagunapandiyan Natarajan, Suddhasatwa Basu and Keith Scott, Effect of treatment temperature on the performance of RuO2 anode electrocatalyst for high temperature proton exchange membrane water electrolysers, Intl J. Hydrogen Energy 38(36) 16623–16630 (2013)

71. D. Basu, S. Basu, Mathematical Modeling of Overpotentials of Direct Glucose Alkaline Fuel Cell and Experimental Validation, J Solid State Electrochemisrty, 17(11) 2927-2938 (2013)

72. Ravi Shankar, Meenal Asija, Nisha Singla, Suddhastwa Basu, Gabriele Kociok-Köhnc and Kieran C. Molloyc, Synthesis, characterization and selective de-esterification of diorganotinbis-(O methylphosphite)s, Dalton Trans. 42, 15591–15598 (2013)

73. R. Chokalingam and Suddhasatwa Basu, TbxCe0.95-XGd0.05O2-d (0.15 = x = 0.40) Cathode Materials Prepared through Solid State Route for Low Temperature SOFC. ECS Trans. 57(1): 1811-1820 (2013)

74. Gurpreet Kaur and Suddhasatwa Basu, Copper-Iron-Ceria Anode for Direct Utilization of Hydrocarbons in Solid Oxide Fuel Cells. ECS Trans. 57(1): 2961-2968 (2013)

75. Pankaj Kr Tiwari and Suddhasatwa Basu, Performance of Ni-CeO2-YSZ and Ni-Nb2O5-YSZ Anodes for Solid Oxide Fuel Cell. ECS Trans. 57(1): 1545-1552 (2013)

76. Rajalekshmi Chockalingam, Ashok K Ganguli, Suddhasatwa Basu, Praseodymium gadolinium doped ceria as a cathode material for low temperature solid oxide fuel cells, J Power Sources 250, 80-89 (2014)

77. Pankaj Kr Tiwari and Suddhasatwa Basu, Performance studies of electrolyte supported solid oxide fuel cell with Ni-YSZ and Ni-TiO2-YSZ as anode, Journal of Solid State Electrochemistry 18(3) 805-812 (2014)

78. Goel J and Suddhasatwa Basu, Effect of support materials on the performance of direct ethanol fuel cell anode catalyst, Intl J. Hydrogen Energy accepted online 39, 15956-15966 (2014)

79. Gurpraeet Kaur, Suddhasatwa Basu, Study of Carbon Deposition Behavior on Cu-Co/CeO2-YSZ Anodes for Direct Butane Solid Oxide Fuel Cells, Fuel Cells, 14(6), 1006–1013 (2014)

80. Aseem Sharma and Suddhasatwa Basu, Study of Transient Behaviour of Solid Oxide Fuel Cell Anode Degradation Using Percolation Theory, Ind Eng Chem Res 53 (51), 19690–19694 (2014)

81. B. B. Patil and S. Basu, Synthesis and Characterization of PdO-NiO-SDC Nano-Powder by Glycine-Nitrate Combustion Synthesis for Anode of IT-SOFC, Energy Procedia, 54, 669-679 (2014)

82. S. Badwal, S. Giddey, A. Kulkarni, J. Goel, S. Basu, Direct Ethanol Fuel Cells for Transport and Stationary Applications – A Comprehensive Review, Applied Energy in press (online: doi:10.1016/j.apenergy.2015.02.002) (2015)

83. N. Kumari, N. Sinha, A. Haider, S. Basu, CO2 reduction to Methanol on CeO2 (110) Surface: a density functional theory study, Electrochimica Acta in press (online: http://dx.doi.org/10.1016/j.electacta.2015.01.153in press) (2015)

84. Gurpreet Kaur, Suddhasatwa Basu, Performance Studies of Copper-Iron/Ceria-Yttria Stabilized Zirconia Anode for Electro-oxidation of Methane in Solid Oxide Fuel Cells, Int J Energy Res, accepted (2015) DOI: 10.1002/er.3332. accepted (2015)

85. Anup Das, Suddhasatwa Basu, Anil Verma, Keith Scott, Characterization of Low Cost Ion Conducting Poly(AAc-co-DMAPMA) Membrane for Fuel Cell Application, Materials Sciences and Applications, 6, 234-241 (2015)

86. Goel J and Suddhasatwa Basu, Mathematical Modeling and Experimental Validation of Direct Ethanol Fuel Cell, Intl J. Hydrogen Energy in press (2015)

87. Garima Gag, Suddhasatwa Basu, Studies on Degradation of Copper Nano Particles in Cathode for CO2 Electrolysis to Organic Compounds, Electrochimica Acta in press (2015)

Conference Proceedings

88. Pandit, P. and Basu, S., “Removal of ionic dyes from water – A Novel Technique” 11th National
Conf. on Surfactant, Emulsion and Bio-colloids, NATCOSEB XI, UICT, Mumbai, Dec 11-
13, 2003

89. Verma, A., and Jha, A. K., S. Basu* ‘Evaluation of an Alkaline Fuel cell for multi-fuel system’,
Proceedings of 2nd Intl. Conf. on Fuel Cell Sci. Tech, & Eng (ASME), Rochester, New York, June
14-16, 2004

90. Verma, A., and Jha, A. K., S. Basu ‘Analyses of Multi-Fuel Alkaline Fuel cell’, Grove Fuel cell
Symposium – Fuel cells Science & Technology, Oct. 6-7, 2004 Munich

91. Basu S “Prediction of surface tension of organic liquids using Artificial Neural Networks” 12th National Conf. on Surfactant, Emulsion and Bio-colloids, NATCOSEB XII, Imphal, Nov 9-11, 2005 (Plenary Lecture)

92. A. Gupta and S. Basu, ‘Oil droplet deformation and detachment on solid substrate in shear field’ Can Soc Chem Eng Conf., Edmonton, Alberta, Canada, Oct 28- Oct 31, 2007

93. A. Verma, and S. Basu, ‘Development of direct alcohol alkaline fuel cell’ Can Soc Chem Eng Conf., Edmonton, Alberta, Canada, Oct 28- Oct 31, 2007

94. Basu, S, S. K. Biswas. ‘Preparation and Characterization of novel Pt-Re-Sn/C, Pt-R/C electrocatalysts for ethanol electrooxidation in Direct Ethanol Fuel cell’ International Symposium PFAM XVII Processing and Fabrication of Advanced Materials, Dec 15-17, 2008, New Delhi

95. C. Pande, S. K. Biswas, S. Basu, ‘Direct ethanol fuel cell: Preparation and Characterization of novel Pt-Re-Sn/C, Pt-Re/C anode electrocatalysts for ethanol electrooxidation’, 8th International Oil & Gas Conference and Exhibition Petrotech 2009, Jan 11-15, 2009, New Delhi

96. Basu, S, Dutta-Ray, P., Modelling of Vanadium Oxide Redox Flow Battery, 62nd meeting of Intl Soc. of Electrochemistry, Niigata, Japan, Sept 12-16, 2011

97. Vinod, P., S. Basu, K. Scott, An efficient bimetallic Ru(x)Nb(1-x)O2 electro catalyst at the anode side of Proton exchange membrane water electrolyzer (PEMWE) 62nd meeting of Intl Soc. of Electrochemistry, Niigata, Japan, Sept 12-16, 2011

98. S. Basu, Direct Hydrocarbon Fuel Cell Technology Synthesis and Characterization of SDC Nano-Powder by Glycine - Nitrate Combustion Synthesis for Its Potential Application as an electrolyte in IT-SOFC 6th Asian Conference on Electrochemical Power Sources (ACEPS-6), Chennai, Jan 6-8, 2012

99. Saeed, F., S. Basu, ‘Studying the Corrosion Behavior of Nanograde Pt-Ru/C Catalyst Used In Direct Ethanol Proton Exchange Membrane Fuel Cells, ELAC 2013, Fifth ISEAC Triennial International Conference on Advances and Recent Trends in Electrochemistry, Ed S. K. Agarwal, ISEAC 161-166, 2013

100. Suddhasatwa Basu, Development of Direct Hydrocarbon Fuel Cells, Indo-US Workshop on Electrocatalytic Materials for Fuel and Biofuel Cells (Indo-US CEM-2013), BHU Varanasi, Feb 26-28, 2013

101. Basu, S., Role of catalyst support in ethanol oxidation in direct ethanol fuel cell, International Conference on Electrochemical Materials and Technologies for Clean Sustainable Energy, July 5-9, 2013, Guangzhou China.

102. Suddhasatwa Basu and R. Chockalingam, TbxCe0.95-XGd0.05O2-d (0.15 = x = 0.40) Cathode Materials Prepared Through Solid State Route for Low Temperature SOFC-XIII Okinawa, October 6-11, 2013

103. Suddhasatwa Basu, Development of high temperature proton exchange membrane water electrolyser for production of pure hydrogen and oxygen, 2nd International Hydrogen and Fuel Cell Conference Goa, Dec 1-3, 2013

104. Rahul Pal and S. Basu, Electrochemically synthesized cu-mn/polyaniline composite as catalyst for oxygen reduction reaction in PEM fuel cell, ISEAC Discussion Meet, Amritsar, Feb 20-25, 2014

105. Shivani Choudhury and S. Basu, Chemically Functionalized Graphene Supported Platinum Electrocatalyst for Oxygen Reduction Reaction for Fuel Cell Application, ISEAC Discussion Meet, Amritsar, Feb 20-25, 2014

106. Varagunapandiyan K. and Suddhasatwa Basu, Investigations on high temperature proton exchange membrane water electrolyser using composite membranes International Conference on Hydrogen Production (ICH2P-2014), Fukuoka, Japan, Feb 2-5, 2014

Patent