Publications of Professor A. K. Shukla
1. Solution–combustion synthesized nanocrystalline Li4Ti5O12 as high-rate performance
Li-ion battery anode, A. S. Prakash, P. Manikandan, K. Ramesha, M. Sathya, . M.
Tarascon and A. K. Shukla (To be submitted).
2. Fuel cells for automotive applications, P. Sridhar, S. Pitchumani and A. K. Shukla, A.
S. Ramadhas (Ed.), Taylor & Francis (To be submitted).
3. A high-performance DMFC with Pt-Ru nanoparticles and polymer composite of poly
(3,4-ethylenedioxythiophene)-polystyrene sulphonic acid,
K. K. Tintula, S.
Pitchumani, P. Sridhar and A. K. Shukla (To be submitted).
4. Surface-treated carbon nanotubes as catalyst support for PEFC electrodes, S.
Mohanpriya et. al. (To be submitted).
5. A PEFC with Pt-TiO2/C as the oxygen reduction catalyst, G. Selvarani, P. Sridhar, S.
Pitchumani,, S. Maheswari and A. K. Shukla (To be submitted).
6. Self-supprted 300 W PEFC system, A Manokaran, A. Jalajakshi, A. K. Sahu, P.
Sridha, S. Pitchumani and A. K. Shukla (To be submitted).
7. Anodic oxidation of hydrogen in PEFCs with varying platinum loadings, G.
Selvarani, Bincy John,
P. Sridhar, S. Pitchumani and A. K. Shukla, ECS
Transactions (Submitted).
8. Electrochemical oxidation of borohydride on nanosized rhodium, iridium and rhodiumiridium bimetallic particles with implications to direct borohydride fuel cells, V. Kiran,
K. Kalyansundaram, Ravikumar, S. Krishnamurthy, S. Sampath and A. K. Shukla, J.
Electrochem. Soc. (Submitted).
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9. Novel oraganic-inorganic-composite polymer-electrolyte-membranes for DMFCs, A.
K. Sahu, S. D. Bhat, S. Pitchumani, P. Sridhar, N. Chandrakumar and A. K. Shukla, J.
Membr. Sci. (Submitted).
10. Polymer electrolyte fuel cells with PEDOT/PSSA-supported electrodes, K. K. Tintula,
S. Pitchumani, P. Sridhar and A. K. Shukla, Bull. Mater Sci. (Submitted).
11. Carbon-supported Pt/TiO2 as a methanol-tolerant oxygen reduction catalyst for DMFCs,
G. Selvarani, P. Sridhar, S. Pitchumani and A. K. Shukla, J. Electrochem. Soc. (In
press).
12. A new mixed-matrix membrane for DMFCs, S. Mohanapriya, S. D. Bhat, A. K. Sahu,
S. Pitchumani, P. Sridhar and A. K. Shukla, Energy Environ. Sci. (In press).
13. Polyvinyl alcohol hydro-gel membrane as electrolyte for direct borohydride fuel cells,
N. A. Choudhury, S. K. Prashant, S. Pitchumani, P. Sridhar and A. K. Shukla, J. Chem.
Sci. (In press).
14. Electrochemical capacitors with cross-linked poly(vinyl alcohol)hydrogel electrolyte
membranes with varying perchloric acid dopant concentration, N. A. Choudhury, S.
Sampath and A. K. Shukla, J. Chem. Sci. (In press).
15. Secondary Batteries: Nickel Batteries: Iron Electrodes, A. K. Shukla and B.
Hariprakash, Encyclopedia of Electrochemical Power Sources, J. Garche (Ed.),
Elsevier, 2009 (In press).
16. Secondary Batteries: Nickel Batteries: Nickel Electrodes, A. K. Shukla and B.
Hariprakash, Encyclopedia of Electrochemical Power Sources, J. Garche (Ed.),
Elsevier, 2009 (In press).
17. Secondary Batteries: Nickel Batteries: Cadmium Electrodes, A. K. Shukla and B.
Hariprakash, Encyclopedia of Electrochemical Power Sources, J. Garche (Ed.),
Elsevier, 2009 (In press).
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18. Secondary Batteries: Nickel Batteries: Nickel-Iron Battery, A. K. Shukla and B.
Hariprakash, Encyclopedia of Electrochemical Power Sources, J. Garche (Ed.),
Elsevier, 2009 (In press).
19. Basic: Elements: Chemistry and Electrochemistry of Iron, A. K. Shukla and B.
Hariprakash, Encyclopedia of Electrochemical Power Sources, J. Garche (Ed.),
Elsevier, 2009 (In press).
20. Secondary Batteries: Nickel Batteries: Nickel-Cadmium Battery, A. K. Shukla, S.
Venugopalan and B. Hariprakash, Encyclopedia of Electrochemical Power Sources, J.
Garche (Ed.), Elsevier, 2009 (In press).
21. Secondary Batteries: Nickel Batteries: Nickel-Metal Hydride Battery, A. K. Shukla, S.
Venugopalan and B. Hariprakash Encyclopedia of Electrochemical Power Sources, J.
Garche (Ed.), Elsevier, 2009 (In press).
22. Rapid synthetic routes to prepare LiNi
1/3Mn1/3Co1/3O2
as a high voltage, high capacity
Li-ion battery cathode material, M. Sathiya, A. S. Prakash, K. Ramesha and A. K.
Shukla, Mater. Res. Bull., 44 (2009) 1990.
23. Nafion and modified-Nafion membranes as electrolytes for polymer electrolyte fuel
cells: an overview, A. K. Sahu, S. Pitchumani, P. Sridhar and A. K. Shukla, Bull.
Mater. Sci., 32 (2009) 285.
24. A superior lithium-ion battery cathode with HT-LiCoO2 synthesized by nitrate
decomposition method, Sathiya Mariyappan, A. S. Prakash, K. Ramesha and A. K.
Shukla, Materials, 2 (2009)190..
25. A composite membrane of mordenite-PVA/PSSA for DMFCs, S. D. Bhat, A. K. Sahu,
G. Kristie, S. Pitchumani, P. Sridhar, C. Chandrakumar and A. K. Shukla, J. Membr.
Sci., 340 (2009) 73-83.
26. Novel self-supported natural and synthetic membranes for air humidification, S. D.
Bhat, A. Manokaran, A. K. Sahu, S. Pitchumani, P. Sridhar, and A. K. Shukla, J. Appl.
Polymer Sci., 113 (2009) 2605.
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27. A self-supported direct borohydride-hydrogenperoxide fuel cell system, S. K. Prashant.
S. Pitchumani, K. Palanivelu, P. Sridhar and A. K. Shukla, Energies, 2 (2009) 190.
28. Lead-acid batteries for partial-state-of-charge applications, B Hariprakash, S. A.
Gaffoor and A. K. Shukla, J. Power Sources, 191 (2009) 149.
29. Co-assembly of a Nafion-mesoporous zirconium phosphate composite membrane for
PEM fuel cells, A. K. Sahu, S. Pitchumani, P. Sridhar and A. K. Shukla, Fuel Cells, 9
(2009) 139.
30. A methanol-tolerant carbon-supported Pt-Au alloy catalyst for DMFCs: a DFT-assisted
experimental study, G. Selvarani, S. V. Selvaganesh, S. Krishnamurthy, P. Sridhar, S.
Pitchumani and A. K. Shukla, J. Phys. Chem. C, 113 (2009) 7461.
31. A simplified mathematical model for effect of freezing on the low-temperature
performance of the lead-acid battery, K. S. Gandhi, A. K. Shukla, S. K. Martha and S.
A. Gaffoor, J. Electrochem. Soc., 156 (2009) A238.
32. Hydrogel-electrolyte-based supercapacitors: an overview, N A Choudhury, S Sampath
and A K Shukla, Energy Environ. Sci., 2 (2009) 55.
33. Polymer electrolyte fuel cells employing electrodes with gas-diffusion layers
comprising mesoporous casbon derived from a sol-gel route, A. K. Sahu, K. G.
Nishant, G. Selvarani, P. Sridhar, S. Pitchumani and A. K. Shukla, Carbon, 47 (2009)
102.
34. PEFC electrode with enhanced three-phase contact and built-in supercapacitive
behavior, G. Selvarani, A. K. Sahu, G. V. M. Kiruthika, P. Sridhar, S. Pitchumani and
A. K. Shukla, J. Electrochem. Soc., 156 (2009) B118.
35. Pillars of modern electrochemistry, A. K. Shukla and T. Prem Kumar, Interface Fall
(2008) pp. 31-39.
36. Effect of varying ploy(styrene sulfonic acid) content in ploy(vinyl alcohol)Poly(styrene sulfonic acid) blend membrane and its ramification in hydrogrn-oxygen
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polymer electrolyte fuel cells, A K Sahu, G Selvarani, S D Bhat, S Pitcumani, P
Sridhar, A K Shukla, N Narayanan, A Banerjee and N Chandrakumar, J. Membr. Sci.,
319 (2008) 298.
37. PVA-PSSA membrane with interpenetrating networks and its methanol crossover
mitigating effect in DMFCs, A. K. Sahu, G. Selvarani, S. K. Prashant, S. Pitchumani, P
Sridhar, N. Narayanan, A. Banerjee, N. Chandrakumar and A. K. Shukla, J.
Electrochem. Soc., 155 (2008) B686.
38. Effect of difusssion-layer porosity on the performance of polymer electrolyte fuel cells,
G. Selvarani, A. K. Sahu, P. Sridhar, S. Pichumani and A. K. Shukla, J. Appl.
Electrochem., 38 (2008) 357.
39. A direct borohydride-hydrogen peroxide fuel cell employing Prussian Blue as mediated
electron-transfer hydrogen peroxide reduction catalyst, G. Selvarani, S. K. Prashant, A.
K. Sahu, P. Sridhar, S. Pitchumani and A. K. Shukla, J. Power Sources, 178 (2008) 86.
40. Materials for next-generation lithium batteries, A. K. Shukla and T. Premkumar, Curr.
Sci., 94 (2008) 314.
41. Comparative study of lead-acid batteries for photovoltaic stand-alone lighting systems,
B. Hariprakash, S. K. Martha, S. Ambalavanan, S. A. Gaffoor and A. K. Shukla, J.
Appl. Electrochem., 38 (2008) 77.
42. Gelatin hydrogel electrolytes and their application to electrochemical supercapacitors,
N. A. Choudhury, S. Sampath and A. K. Shukla, J. Electrochem. Soc., 155 (2008)
A74.
43. Relationship between ionic radius and pressure dependence of ionic conductivity in
water, Parveen Kumar, A. K. Shukla and S. Yashonath, Diffusion Fundamentals, 6
(2007) 8.1-8.14.
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44. Ameliorating effect of silica addition in the anode-catalyst layer of the membrane
electrode assemblies for Polymer Electrolyte Fuel Cells, A. K. Sahu, G. Selvarani, S.
Pitchumani, P. Sridhar and A. K. Shukla, J. Appl. Electrochem.,37(2007) 913.
45. Positive electrode materials for lithium-ion batteries: a review, P. Suresh, A. K. Shukla
and N. Munichadraiah, Photo/Electrochemistry & Photobiology in Environment,
Energy and Fuel, Research Signpost India, Eds. S. Kaneco, B. Vishwanathan and H.
Katsumata (2007).
46. A direct borohydride-hydrogen peroxide fuel cell with mitigated alkali crossover, R. K.
Raman and A. K. Shukla, Fuel Cells,7 (2007) 225.
47. A phenyl-sulfonic acid anchored carbon-supported platinum catalyst for polymer
electrolyte fuel cells, G. Selvarani, A. K. Sahu, N. A. Choudhury, P. Sridhar, S.
Pitchumani and A. K. Shukla, Electrochim. Acta, 52 (2007) 4871.
48. A sol-gel modified alternative Nafion-silica composite membrane for polymer
electrolyte fuel cells, A. K. Sahu, G. Selvarani, S. Pitchumani, P. Sridhar and A. K.
Shukla, J. Eletrochem. Soc., 154 (2007) B123.
49. Direct methanol fuel cells: Fundamentals, problems and prospects, K. Scott and A. K.
Shukla, Modern Aspects of Electrochemistry, 40 (2007) pp. 127-227.
50. Characterization of Zn- and Fe-substituted LiMnO2 as cathode materials in Li-ion cells,
P. Suresh, A. K. Shukla and N. Munichandraiah, J. Power Sources, 161 (2006) 1307.
51. Synthesis and characterisation of LiFeO2 and LiFe0.9Co0.1O2 as cathode materials for
Li-ion cells, P. Suresh, A. K. Shukla and N. Munichandraiah, J. Power Sources, 159
(2006) 395.
52. A 28W portable direct borohydride fuel-cell stack, R. K. Raman, S. K. Prashant and A.
K Shukla, J. Power Sources, 162 (2006) 1073.
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53. Essentials of Lead-Acid Batteries, D. Pavlov, Edited by B. Hariprakash, T. Prem
Kumar and A. K. Shukla, SAEST (2006).
54. Turning sunlight into electricity: Inorganic solar cells and beyond, A. K. Shukla,
Resonance July 2006, pp.42-50.
55. Cross-linked polymer hydrogel electrolytes for electrochemical capacitors, N. A.
Choudhury, A. K. Shukla, S. Sampath and S. Pitchumani, J. Electrochem. Soc., 153
(2006) A614.
56. Lead-acid cells with polyaniline-coated negative plates, S. K. Martha, B. Hariprakash,
S. A. Gaffoor and A. K. Shukla, J. Appl. Electrochem., 36 (2006) 711.
57. Tailoring a Pt-Ru catalyst for enhanced methanol electro-oxidation, R. K. Raman, A. K.
Shukla, A. Gayen, M. S. Hegde, K. R. Priolkar, P. R. Sarode and S. Emura, J.
Power
Sources, 157 (2006) 45.
58. A low-cost lead-acid battery with high specific-energy, S. K. Martha, B. Hariprakash,
S. A. Gaffoor, D. C. Trivedi and A. K. Shukla, J. Chem. Sci., 118 (2006) 93.
59. Advances and perspectives of polymer electrolyte membrane fuel cells, K. Scott and A.
K. Shukla, in Biofuels for Fuel Cells, Eds. P. Lens, P. Westermann. M. Haberbauer,
and A. Moreno, IWA Pub. London (2005) pp.287-309.
60. Advances in mixed-reactant fuel cells, A. K. Shukla, R. K. Raman and K. Scott, Fuel
Cells, 5 (2005) 436.
61. Electrochemical properties of LiMn1-xMxO2 (M = Ni, Al, Mg) cathode materials for
lithium-ion cells, P. Suresh, A. K. Shukla and N. Munichandraiah, J. Electrochem.
Soc., 152 (2005) A2272.
62. Electroreduction of hydrogen peroxide on iron tetra-methoxy phenyl porphyrin and
lead sulfate with application in direct borohydride fuel cells, R. K. Raman and A. K.
Shukla, J. Appl. Electrochem., 35 (2005) 1157.
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63. Fuelling future cars, A. K. Shukla, J. Indian Inst. Sci., 85 (2005) 51.
64. Electro-oxidation of ascorbic acid on polyaniline and its implications to fuel cells, S. K.
Mondal, R. K. Raman, A. K. Shukla and N. Munichandraiah, J. Power Sources, 145
(2005) 16 .
65. Synthesis and characterisation of novel, high-capacity, layered LiMn0.9Ni0.05Fe0.05O2 as
a cathode material for lithium-ion cells, P. Suresh, A. K. Shukla an N. Munichandraiah,
Electrochem. Solid-state Lett., 8 (2005) A263.
66. Analysis of a c impedance of AgO-Zn cells: Effects of state-of-charge, temperature and
cycle life, P. Suresh, D.H. Nagaraju, A. K. Shukla and N. Munichandraiah,
Electrochim. Acta, 50 (2005) 3262.
67. High specific-energy lead-acid batteries through organic metals, S. K. Martha, B.
Hariprakash, S. A. Gaffoor, D. C. Trivedi and A. K. Shukla, Electrochem. Solid-state
Lett., 8 (2005) A353.
68. Assembly and performance of hybrid VRLA cells and batteries, S. K. Martha, B.
Hariprakash, S. A. Gaffoor, S. Ambalavanan and A. K. Shukla, J. Power Sources, 144
(2005) 560.
69. An alkaline direct borohydride fuel cell with hydrogen peroxide as oxidant, N. A.
Choudhury, R. K. Raman, S. Sampath and A. K. Shukla, J. Power Sources, 143(2005)
1.
70. Oxide-ion conductivity in CuxCe1-xO2-δ (0≤x≤1), K. R. Priolkar, A. Gayen, A. K.
Shukla and M. S. Hegde, Mater. Res. Bull., 40 (2005) 421.
71. Capacity stabilization of Li0.9Mn0.9Ni0.1O2 cathode material by employing ZnO coating,
P. Suresh, A. K. Shukla and N. Munichandraiah, Mater. Lett., 59 (2005) 953.
72. A sealed, starved electrolyte nickel-iron battery, B. Hariprakash, S. K. Martha, M. S.
Hegde and A. K. Shukla, J. Appl. Electrochem., 35 (2005) 27.
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73. Synthesis of LiCo1-xMnxO2 from a low-temperature route and its characterization as
cathode material in Li-ion cells, P. Suresh, A. K. Shukla, H. N. Vasan and N.
Munichandraiah, Solid State Ionics, 176 (2005) 281.
74. Polymer electrolyte membrane fuel cells: Principles and Advances, K. Scott and A. K.
Shukla, Revs. Environ. Sci. & Biotech., 3 (2004) 273.
75. A high out-put voltage direct borohydride fuel cell, R. K. Raman, N. A. Choudhury,
and A. K. Shukla, Electrochem. Solid-state Lett., 7(2004) A-488.
76. Biological fuel cells and their applications, A. K. Shukla, P. Suresh, S. Berchmans, and
A. Rajendran, Curr. Sci., 87 (2004) 455.
77. Improved lead-acid cells employing tin oxide coated Dynel fibres with positive activematerial, B. Hariprakash, S. K. Martha, S. A. Gaffoor and A. K. Shukla, J. Appl.
Electrochem., 34 (2004)1039.
78. On-line monitoring of sealed lead-acid batteries by galvanostatic non-destructive
technique, B. Hariprakash, S. K. Martha, Arthi Jaikumar and A. K. Shukla, J. Power
Sources, 137 (2004) 128.
79. A solid-polymer-electrolyte direct methanol fuel cell with a methanol-tolerant cathode
and its mathematical modeling, R. K. Raman, G. Murgia and A. K. Shukla, J. Appl.
Electrochem., 34 (2004)1029.
80. Carbon-supported Pt-Fe alloy as a methanol resistant oxygen-reduction catalyst for
direct methanol fuel cells, A. K. Shukla, R. K. Raman, N. A. Choudhury, K. R.
Priolkar, P. R. Sarode, S. Emura and R. Kumashiro, J. Electroanal. Chem. 563 (2004)
181.
81. A low-cost, high energy-density lead-acid battery, B. Hariprakash, A. U. Mane, S. K.
Martha, S. A. Shivashankar, S. A. Gaffoor and A. K. Shukla, Electrochem. Solid-State
Lett., 7 (2004) A66.
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82. A mixed-reactants solid-polymer-electrolyte direct methanol fuel cell, K. Scott, A. K.
Shukla, C. L. Jackson and W. R. A. Meuleman, J. Power Sources, 126 (2004) 67.
83. Rechargeable Li cells with dendrite-free electro-deposited lithium on aluminum as
negative electrode, P. Suresh, A. K. Shukla, S. A. Shivashankar and N.
Munichandraiah, J. Power Sources, 132 (2004) 166 .
84. Monitoring sealed automotive lead-acid batteries by sparse-impedance spectroscopy, B.
Hariprakash, S. K. Martha and A. K. Shukla, Proc. Indian Acad. Sci. (Chem. Sci.), 115
(2003) 465.
85. A semi-empirical model for the direct methanol fuel cell performance: Part I.
Development and verification, P. Argyropoulos, K. Scott, A. K. Shukla and C.
Jackson, J. Power Sources, 123 (2003) 190.
86. Smart batteries, A. K. Shukla and B. Hariprakash, Current Science, 85 (2003) 252.
87. Synthesis, structure and lithium-ion conductivity of Li2-2xMg2+x(MoO4)3 and
Li3MIII(MoO4)3 (MIII=Cr,Fe), L. Sabastian, Y. Piffard, A. K. Shukla, F. Taulelle and J.
Gopalakrishnan, J. Mater. Chem., 13 (2003) 1797.
88. Electrochemical capacitors employing sol-gel derived composite solid electrolytes, S.
Mitra, A. K. Shukla and S. Sampath, Electrochem. Solid-state Lett., 6 (2003) A149.
89. Methanol-resistant oxygen-reduction catalysts for direct methanol fuel cells, A. K.
Shukla and R. K. Raman, Ann. Revs. Mater. Res., 33 (2003) 155.
90. The promise of fuel cell-based automobiles, A. K. Shukla, C. L. Jackson and K. Scott,
Bull. Mater. Sci., 26 (2003) 207.
91. Effect of copper additive on Zr1-xTixNi1.2 Mn0.6V0.2Co0.05Cr0.05 (x = 0 – 0.3) alloy anode
for nickel-metal hydride battery, B. Hariprakash, S. K. Martha and A. K. Shukla, J.
Appl. Electrochem., 33 (2003) 497.
92. Galvanostatic non-destructive characterization of alkaline silver zinc cells of varying
capacities, B. Hariprakash, S. K. Martha and A. K Shukla, J. Power Sources, 117
(2003) 242.
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93. Performance characteristics of a gelled-electrolyte valve-regulated lead-acid battery, S.
K. Martha, B. Hariprakash, S. A. Gaffoor, and A. K. Shukla, Bull. Mater. Sci., 26
(2003) 465.
94. A numerical model of a liquid-feed solid-polymer-electrolyte direct methanol fuel cell
and its experimental validation, G. Murgia, L. Pisani, A. K. Shukla and K. Scott, J.
Electrochem. Soc., 150 (2003) A1231.
95. An improved-performance liquid-feed solid-polymer-electrolyte direct methanol fuel
cell operating at near-ambient conditions, A. K. Shukla, C. L. Jackson, K. Scott and R.
K. Raman, Electrochim. Acta, 47 (2002) 3401.
96. Synthesis of LiCo1-xNixO2 from a low-temperature solution combustion route and
characterization, P. Suresh, S. Rodrigues, A. K. Shukla S. A. Shivashankar and N.
Munichandraiah, J. Power Sources, 112 (2002) 665.
97. Temperature dependence of a c impedance in lithium-ion cells, P. Suresh, A. K. Shukla
and N. Munichandraiah, J. Appl. Electrochem., 32 (2002) 267.
98. Empirical model equations for direct methanol fuel cells, P. Argyropoulos, K. Scott, A.
K. Shukla and C. Jackson, Fuel Cells, 2(2002) 78.
99. Whither electric vehicles? A. K. Shukla, Curr. Sci., 82 (2002) 248.
100.
A solid-polymer electrolyte direct methanol fuel cell with a mixed reactant and air
anode, A. K. Shukla, C. L. Jackson, K. Scott and G. Murgia, J. Power sources, 111
(2002) 43.
101.
Electrochemical behavior of Al in non-aqueous electrolytes over a wide potential
range, P. Suresh, A. K. Shukla, S. A. Shivashankar and N. Munichandraiah, J. Power
Sources, 110 (2002) 11.
11
102.
The effect of light-weight supports on the specific discharge capacity of β-nickel
hydroxide, T. N. Ramesh, R. S. Jayashree, P. V. Kamath, S. Rodrigues and A. K.
Shukla, J. Power Sources, 104 (2002) 295.
103.
Effect of diffusion-layer morphology on the performance of Solid-polymer-
electrolyte direct methanol fuel cells, M. Neergat and A. K. Shukla, J. Power Sources,
104 (2002) 289.
104.
Platinum electrodeposition from H3Pt(SO3)2OH solutions, S. D. Thompson, L.R.
Jordan, A. K. Shukla and M. Forsyth, J. Electroanal. Chem., 515 (2002) 61.
105.
Catalytic partial-oxidation of methane on ceria-supported platinum catalyst, L.
Pino, V. Recupero, S. Beninati, A. K. Shukla, M. S. Hegde and P. Bera, Appl.. Catal.,
A 225 (2002) 63.
106.
AC Impedance behavior and state-of-charge dependence of Zr0.5Ti0.5V0.6Cr0.2Ni1.2
metal-hydride electrodes, S. Rodrigues, N. Munichandraiah and A. K. Shukla, Proc.
Indian Acad. Sci., 113(2001) 527.
107.
New lithium-ion conducting pervoskite oxides related to (Li, La)TiO3, L. Sebastian,
A. K. Shukla and J. Gopalakrishnan, Proc. Indian Acad. Sci., 113(2001)427.
108.
Electrochemical power sources-I: Rechargeable batteries, A. K. Shukla and S. K.
Martha, Resonance, 6 (2001) 52.
109.
Electrochemical power sources–II: Fuel cells and supercapacitors, A. K. Shukla,
Resonance, 6 (2001) 72.
110.
Cars beyond Otto’s internal combustion engines, A. K. Shukla, Resonance, 6
(2001) 49.
111.
A high-performance of phosphoric-acid fuel cell, M. Neergat and A. K. Shukla, J.
Power Sources, 102 (2001) 317.
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112.
A novel solution combustion synthesis of LiCoO2 and its characterization as
cathode material in lithium-ion cells, S. Rodrigues, N. Munichandraiah and A. K.
Shukla, J. Power Sources, 102 (2001) 322.
113.
Nickel-based rechargeable batteries, A. K. Shukla, S. Venugopalan and B.
Hariprakash, J. Power Sources, 100 (2001) 125.
114.
An XPS study on alloys of transition metals with platinized carbon and its bearing
on electroreduction of oxygen, A. K. Shukla, M. Neergat, P. Bera, V. Jayaram and A.
K. Shukla, J. Electroanal. Chem., 504 (2001) 111.
115.
Ceria-supported platinum as hydrogen-oxygen recombinant catalyst for sealed lead-
acid batteries, B. Hariprakash, P. Bera, S. K. Martha, S. A. Gaffoor, M. S. Hegde and
A. K. Shukla, Electrochem. Solid State Lett, 4 (2001) A23.
116.
Electrochemical capacitors with plasticised polymer-gel electrolytes, S. Mitra, A.K.
Shukla and S. Sampath, J. Power Sources, 101 (2001) 213.
117.
An appraisal of electric automobile power sources, A. K. Shukla, A. S. Aricò and
V. Antonucci, Renewable and Sustainable Energy Reviews, 5 (2001) 137.
118.
An XPS study on oxidation states of Pt and its alloys with Co and Cr and its
relevance to electroreduction of oxygen, A. S. Aricò, A. K. Shukla. V. Antonucci, H.
Kim, S. Park, M. Min, Appl. Surface Sci., 172 (2001) 33.
119.
Platinum-based alloys as oxygen-reduction catalysts for solid-polymer-electrolyte
direct methanol fuel cells, M. Neergat, A. K. Shukla and K. S. Gandhi, J. Appl.
Electrochem., 31 (2001) 373.
120.
Electrochemical supercapacitors: Energy storage beyond batteries, A. K Shukla, S.
Sampath and K. Vijayamohanan, Curr. Sci., 79 (2000) 1656.
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121.
Kinetics of hydrogen evolution reaction on Zr0.5Ti0.5V0.6Cr0.2Ni1.2 alloy in KOH
electrolyte, S. Rodrigues, N. Munichandraiah and A. K. Shukla, Bull. Mater. Sci., 23
(2000) 383.
122.
La0.9Sr0.1Ga0.8M0.2O3- (M=Mn,Co,Ni,Cu or Zn): transition metal-substituted
derivatives of lanthnum-strontium-gallium-magnesium (LSGM) perovskite oxide ion
conductor, L. Sebastian, A. K. Shukla and J. Gopalakrishnan, Bull. Mater. Sci., 23
(2000) 169.
123.
Diffusion layer parameters influencing optimal fuel cell performance, L. R. Jordan,
A.K. Shukla, T. Behrsing, N.R. Avery, B.C. Muddle and M. Forsyth, J. Power
Sources, 86 (2000) 250.
124.
AC impedance and state-of-charge analysis of alkaline zinc/manganese-di-oxide
primary cells, S. Rodrigues, N. Munichandraiah and A. K. Shukla, J. Appl.
Electrochem., 30 (2000) 371.
125.
A review of state-of-charge indication of batteries by a c impedance measurements,
S. Rodrigues, N. Munichandraiah and A. K. Shukla, J. Power Sources, 87 (2000) 12.
126.
Effect of diffusion-layer morphology on the performance of polymer electrolyte
fuel cells operating at atmospheric pressure, L. R. Jordan, A. K. Shukla, T. Behrsing,
M. Forsyth, N. R. Avery and B. C. Muddle, J. Appl. Electrochem., 30 (2000) 641.
127.
Effect of morphology on the performance of metal-hydride electrodes, K. M.
Shaju, V. Ganesh Kumar. R. Shalini, N. Munichandraiah and A. K. Shukla, J. Appl.
Electrochem., 30 (2000) 347.
128.
Future cars: the electric option, A. K. Shukla, N. R. Avery and B. C. Muddle, Curr.
Sci., 77 (1999) 1141.
14
129.
Performance and scaling of a 1.2V/1.5Ah nickel-metal hydride cell to a
6V/1.5Ah battery, K. M. Shaju, V. Ganesh Kumar, N. Munichandraiah and A. K.
Shukla, J. Solid State Electrochem.,3 (1999) 464.
130.
Rational design of solid materials: a case study of lithium ion conductor, J.
Gopalakrishnan, A. K. Shukla and V. Thangadurai, Curr. Sci., 76 (1999) 1473.
131.
AC Impedance and state-of-charge analysis of a sealed Lithium-ion Battery, Shalini
Rodrigues, N. Munichandraiah and A. K. Shukla, J Solid State Electrochem., 3 (1999)
397.
132.
Fabrication and Evaluation of 1Ah Silver-Metal Hydride Cells, Shalini Rodrigues,
N. Muichandraiah and A. K. Shukla, J. Appl. Electrochem.,29 (1999) 1285.
133.
New lithium-ion conductors based on the NASICON structure, V. Thangadurai, A.
K. Shukla and J. Gopalakrishnan, J. Mater. Chem., 9 (1999) 739.
134.
An x-ray photoelectron spectroscopic study on the effect of Ru and Sn additions to
platinised carbon, A. K. Shukla, A. S. Arico, K. M. El-Khatib, H. Kim, P.L. Antonucci
and V. Antonucci, Appl. Surface Sci., 137 (1999) 20.
135.
Effect of carbon-supported and unsupported Pt-Ru anodes on the performance of
solid-polymer-electrolyte direct methanol fuel cells, A. S. Arico, A. K. Shukla, K. M.
El-Khatib, P. Creti and V. Antonucci, J. Appl. Electrochem., 29 (1999) 671.
136.
Electrochemically impregnated aluminium stabilized - nickel hydroxide
electrodes, M. Dixit, R.S. Jayashree, P.V. Kamath, A.K. Shukla, V. Ganesh and N.
Munichandraiah, Electrochem. Solid State Lett. 2 (1999) 170.
15
137.
LaSr.65B1.3B’1.7O9 (B = Ti, Zr; B’= Nb, Ta): New lithium-ion conductors based on
the perovskite structure, V. Thangadurai, A. K. Shukla and J. Gopalakrishnan, Chem.
Mater., 11 (1999) 825.
138.
A 5 W liquid-feed solid polymer electrolyte direct methanol fuel cell with stainless
steel flow fields, A. K. Shukla, M. K. Ravikumar, M. Neergat and K. S. Gandhi, J.
Appl. Electrochem., 29 (1999) 129.
139.
La.9Sr.1Ga.8Mn.2O2.85 : a new oxide-ion conductor, V. Thangadurai, A.K. Shukla and
J. Gopalakrishnan, Chem.Commn., (1998) 2647.
140.
A commercial-grade 1.2V/ 6 Ah nickel- metal hydride cell, V. Ganesh Kumar, K
M. Shaju, N. Munichandraiah and A. K. Shukla, J. Power Sources, 76 (1998)106.
141.
Advances in Storage batteries, A.K. Shukla, N. Munichandraiah, S.N. Joshi and S.
Shukla, Trans. Indian Inst. Met., 51 (1998) 255.
142.
A cyclic voltammetric study on the kinetics and mechanism of electrodeposition of
manganese dioxide, S. Rodrigues, N. Munichandraiah and A. K. Shukla, J. Appl.
Electrochem., 28 (1998) 1235.
143.
Direct Methanol Fuel Cells for Vehicular Applications, A. K.Shukla, M. K.
Ravikumar and K. S. Gandhi, J. Solid State Electrochem., 2 (1998) 117.
144.
A method to monitor valve-regulated Lead-Acid cells, A. K. Shukla, V.
GaneshKumar, N. Munichandraiah and T.S. Srinath, J. Power Sources, 74 (1998) 234.
145.
A liquid-feed solid polymer electrolyte direct methanol fuel cell operating at near
ambient conditions, A. K. Shukla, P. A. Christensen, A. J. Dickinson and A. Hamnett,
J. Power Sources, 76 (1998) 54.
16
146.
The design and construction of high performance direct methanol fuel cells: Vapour
feed systems, M. P. Hogarth, P. A. Christensen, A. Hamnett and A. K. Shukla, J.
Power Sources, 69 (1997) 113.
147.
The design and construction of high performance direct methanol fuel cells: Liquid
feed systems, M. P. Hogarth, P. A. Christensen, A. Hamnett and A. K. Shukla, J.
Power Sources, 69 (1997) 125.
148.
Oxide-ion conduction in anion deficient double perovskites, Ba3BBO5.5 (B= Li, Na;
B = Mo, W, Tc), V. Thangadurai, A. K. Shukla and J. Gopalakrishnan, Solid State
Ionics, 104 (1997) 277.
149.
A rapid - combustion synthesis of LiCoO2 cathode material for lithium-ion cells, G.
Sivashankar, V. Ganesh kumar, N. Munichandraiah and A. K. Shukla, Int. J. Selfpropagating High-Temperature Synthesis, 6 (1997) 77.
150.
Electrode impedance parameters and Internal Resistance of a Sealed LiC/Li1- xCoO2
Lithium-ion Rechargeable Battery, V. Ganesh kumar, N.Munichandraiah and A. K.
Shukla, J. Appl. Electrochem., 27 (1997) 43.
151.
On the stability of Lithium during ageing of Li/PEO/LiClO4/Li cells, N.
Munichandraiah, A.K. Shukla, L.G. Scanlon and R.A. Marsh, J. Power Sources, 62
(1996) 201.
152.
Electrode Impedance parameter and Internal Resistance of a Nickel-Metal hydride
cell, V. Ganesh kumar, N. Munichandraiah and A.K. Shukla, J. Power Sources, 63
(1996) 203.
153.
An Electrochemically impregnated sintered nickel-positive electrode, Mridula
Dixit, P. Vishnukamath, V. Ganesh kumar, N. Munichandraiah, and A.K. Shukla,J.
Power Sources, 63 (1996) 167.
17
154.
Effect of methanol crossover in a liquid-feed polymer-electrolyte direct methanol
fuel cell, M. K. Ravikumar and A. K. Shukla, J. Electrochem. Soc., 143 (1996) 2601.
155.
A cyclic voltammetric study on the electrocatalysis of iron electrode reactions, M.
K. Ravikumar, T. S. Balasubramanian, A. K. Shukla and S. Venugopalan, J. Appl.
Electrochem., 26 (1996) 111.
156.
Oxide-ion conductivity of Calcia- and Yttria- stabilized zirconia prepared by fast
combustion route, A.K. Shukla, V. Sharma, N. Arul Das and K. C. Patil, Mater. Sci. &
Engg. B, 40 (1996) 153.
157.
Metal
phthalocyanines
as
electrocatalysts
for
redox
reactions, P.
Vassudevan, Neelam Pougat and A.K. Shukla, J. Appl. Organometallic Chem.,10
(1996) 591.
158.
A M1-xAlxO3-x (A = K or Na, M = Nb or Ta): New Anion-deficient Perovskite
oxides
Exihibiting
oxide ion conduction, V. Thangadurai, G. N. Subbanna, A. K.
Shukla and J. Gopalakrishnan, Chem. Mater. , 8 (1996)1302.
159.
Energy Storage and Retrieval: the secondary battery route, A.K. Shukla and P.
Vishnukamath, Resonance, 1 (1996) 61.
160.
Order-disorder and electronic transitions in Ag2+S single crystal by photoemission
spectroscopy, S. R. Barman, N. Shanthi, A. K. Shukla and D. D. Sarma, Phys. Rev., B
53 (1996) 3746.
161.
Oxide-ion electrolytes: Design and applications, A. K. Shukla and J.
Gopalakrishnan
Bull. Electrochem., 11 (1995) 109.
18
162.
Methanol electrooxidation
on
ccarbon-supported
Pt-WO3-x electrodes
in
sulphuric acid electrolyte, A. K. Shukla, M. K. Ravikumar, A. S.Aricò, G. Candiano,
V. Antonucci, N. Giordano and A. Hamnett, J. Appl. Electrochem., 25 (1995) 528.
163.
A vapour feed direct methanol fuel cell with proton exchange membrane
electrolyte, A. K. Shukla, P. A. Christensen, A. Hamnett and M. P Hogarth, J. Power
Sources, 55 (1995) 87.
164.
On performance of the stabilized -Ni(OH)2 as positive electrodes in alkaline
storage batteries, V. Ganeshkumar, N. Munichandraiah, P. Vishnukamath and A. K.
Shukla, J. Power Sources, 56 (1995) 111.
165.
A Nickel-Iron Battery comprising roll-compacted iron electrodes, M. K.
Ravikuamr, T. S. Balasubramanian and A. K. Shukla, J. Power Sources, 56 (1995)
206.
166.
Structural and dielectric properties of Bi2W1-xCuxO6-2x (0<x< 0.7), V. Sharma, K. B.
R. Varma and A. K. Shukla, Bull. Mater. Sci., 18 (1995) 631.
167.
Performance of carbon-cloth-bound electrode containing electrodeposited platinum
catalyst towards electrooxidation of methanol in sulfuric acid electrolyte, M. P.
Hogarth, J. Munk, A. K. Shukla and A. Hamnett, J. Appl. Electrochem., 24 (1994)
85.
168.
Electro-oxidation of methanol in sulfuric acid electrolyte on platinized carbon
electrodes with several functional-group characteristics, A. K. Shukla, M. K.
Ravikumar, A. Roy, S. R. Barman, D. D. Sarma, A. S. Aricó, V. Antonucci, L. Pino
and N. Giordano, J. Electrochem. Soc., 141 (1994) 1517.
169.
Methanol Oxidation on Carbon-Supported Pt-Sn electrodes in Silicotungstic acid,
A. S. Aricò, H. Kim, A. K. Shukla, M. K. Ravikumar, V. Antonucci, N. Giordano,
Electrochim. Acta, 39 (1994) 691.
19
170.
Digital Simulation of galvanostatic current-potential data for gas-diffusion
electrodes and estimation of electrode-kinetic parameters, A. S. Arico, A. K. Shukla, V.
Antonucci and N. Giordano, J. Power Sources, 50 (1994) 177.
171.
Bi2W1-xCuxO6-2x (0.7  x  0.8): A New Oxide-ion Conductor, Vandana Sharma, A.
K. Shukla and J. Gopalakrishnan, J. Mater. Chem., 4(1994) 703.
172.
Proton conduction in layered-perovskite oxides, V. Thangadurai, A. K. Shukla and
J. Gopalakrishnan, Solid State Ionics, 73 (1994) 9.
173.
Stabilised  -Ni(OH)2 as electrode material for alkaline secondary storage cells,
P. V. Kamath, Mridula Dixit, L. Indira, A. K. Shukla, V. Ganesh Kumar and N.
Munichandraiah, J. Eelctrochem. Soc., 141 (1994) 2956.
174.
Nickel-Iron Storage Batteries, A. K. Shukla, M. K. Ravikumar, T. S.
Balasuramanium, J. Power Sources, 59 (1994) 29.
175.
Nafion-bonded carbon electrodes containing transition-metal phthalocyanines for
oxygen reduction in solid-polymer electrolyte fuel cells, N. Phought, P. Vasudevan,
Santosh and A. K. Shukla, J. Power Sources, 46 (1993) 61.
176.
Effect of metal-Sulfide additives on charge/discharge reactions of the alkaline
iron-electrode, T. S. Balasubramanian and A. K. Shukla, J. Power Sources, 41 (1993)
99.
177.
Methanol Oxidation on Carbon-supported Platinum-tin electrodes in sulfuric acid,
A. S. Aricò, V. Antonucci, N. Giordano, A. K. Shukla and M. K. Ravikumar, J. Power
Sources, 50 (1993) 295.
20
178.
Mechanism of the discharge of porous iron electrodes in alkaline medium, T. S.
Balasubramanian, K. Vijayamohanan and A. K. Shukla, J. Appl. Electrochem., 23
(1993) 947.
179.
Gradient solid-electrolytes for use with dissimilar gas electrodes, K. T. Jacob, S.
Mukhopadhyay and A. K. Shukla, Solid State Ionics, 62 (1993) 27.
180.
An X-ray photoelectron spectroscopic study on platinized carbon with varying
functional group characteristics, A.K. Shukla, A. Hamnett, A. Roy, S.R. Barman,
D.D. Sarma, V. Alderucci and N. Giordano, J. Electroanal. Chem., 352 (1993) 337.
181.
Battery and Fuel Cell Technologies: Developments and Projections, A. K. Shukla
and A. Hamnett, Bull. Electrochem., 9 (1993) 86.
182.
Effect of aliovalent-cation substitution on the oxygen-ion conductivity of Bi4V2O11,
Vandana Sharma, A.K. Shukla and J. Gopalakrishnan, Solid State Ionics, 51 (1992) 41.
183.
Tie-lines and activities in the system CoO-MgO-SiO2 at 1373 K, K.T. Jacob, S.
Mukhopadhyay and A.K. Shukla, J. Am. Ceram. Soc., 75 (1992) 3081.
184.
Composite Solid-Electrolytes: an update, A. K. Shukla and Vandana Sharma, in
Solid State Ionics: Materials and Applications, Eds. B.V.R. Chowdari, S. Chandra,
Shri Singh and P.C. Srivastava, World Scientific, Singapore (1992) p. 91.
185.
Effect of morphology and particle size on the ionic conductivity of composite solid
electrolytes: a new phenomenology, N. F. Uvarov, V. P. Isupov, Vandana Sharma and
A. K. Shukla, Solid State Ionics , 51 (1992) 41.
186.
Low temperature synthesis and characterization of Ag2S1-xTe
Vasan and A.K. Shukla, Bull. Mater. Sci., 15 (1992) 367.
21
x
(0 x  1), H.N.
187.
Characterization of Electrodes employing electron spectroscopy and cognate
techniques, A. K. Shukla, Bull. Electrochem., 8 (1992) 15.
188.
A Novel approach to estimate electrode kinetic parameters of gas-diffusion
Electrodes using inflection point in the steady state current-potential data, N.Sugamaran
and A.K. Shukla, J. Power Sources, 39 (1992) 249.
189.
Effect of counter cations on the electrocatalytic activity of oxide Pyrochlores: an
electrochemical and spectroscopic study, A. K. Shukla, A. M. Kannan, M. S. Hegde
and J. Gopalakrishnan, J. Power Sources, 35 (1991) 163.
190.
Rechargeable Iron/Air cells employing bifunctional oxygen electrodes of oxide
pyrochlores, A.M. Kannan and A.K. Shukla, J. Power Sources, 35 (1991) 113.
191.
Fuel Cell Technologies: Trends and Developments, Olle Lindström and A. K.
Shukla, Bull. Electrochem., 7 (1991) 485.
192.
A low-cost computer-aided electrochemical system to characterize battery
electrodes, K. R. Kannan, A. M. Kannan and A. K. Shukla, J. Power Sources, 32
(1990) 99.
193.
Hopping and Non-hopping Localized Ionic Motion, K. Funke, T. Kantim, T. Maue,
A.K. Shukla and D. Zurwellen, Solid State Ionics, 40/41 (1990) 275.
194.
A Lead-Iridium-Pyrochlore-Based Bifunctional Oxygen Electrode, A.M. Kannan,
A.K. Shukla and S. Sathyanarayana, J. Electroanal. Chem., 281(1990) 339.
195.
The formation mechanism of porous alkalinei iron electrodes, K. Vijayamohanan,
A. K. Shukla and S. Sathyanarayana, J. Power Sources, 32 (1990) 329.
22
196.
The role of Sulfide Additives on the performance of Alkaline-Iron Electrodes, K.
Vijayamohanan, A.K. Shukla and S. Sathyanarayana, J. Electroanal. Chem., 289
(1990) 55.
197.
Rechargeable alkaline iron electrodes: A technical up-date, K. Vijayamohanan, T.
S. Balasubramanian and A. K. Shukla, J. Power Sources, 34 (1990) 269.
198.
Open-circuit, potential-time transients of alkaline-iron electrodes at various states-
of-charge, K. Vijayamohanan, A.K. Shukla and S. Sathyanarayana, Electrochim. Acta,
36 (1990) 369.
199.
Kinetics of Electrode Reactions on porous, alkaline-iron electrodes, K.
Vijayamohanan, A. K. Shukla, and S. Sathyanarayana, J. Electroanal. Chem., 295
(1990) 59.
200.
A nafion-bound platinized-carbon electrode for oxygen reduction in solid- polymer
electrolyte cells, A. K. Shukla, P. Stevens, A. Hamnett
and
J.B. Goodenough, J.
Appl. Electrochem., 19 (1989) 383.
201.
Efficient oxygen reduction in alkaline solution with platinum phthalocyanine on
Carbon, A. K. Shukla, C. Palitiero, R. Manoharan, A. Hamnett and J. B. Goodenough,
J. Appl. Electrochem., 19 (1989) 105.
202.
Intra-alloy electron transfer and electrode performance: A spectroscopic and
electrochemical study, J. B. Goodenough, R. Manoharan, A. K. Shukla and K. V.
Ramesh, Chem. Materials, 1 (1989) 391.
203.
Cooperative localized hopping in -AgI, A. K. Shukla and K. Funke, Eur. Phys.
Lett., 10 (1989) 471.
23
204.
Electroreduction of oxygen on some novel cobalt phthalocyanine complexes, P.
Vasudevan, Neelam Mann, Santosh, A. M. Kannan and A. K. Shukla, J. Power
Sources, 28 (1989) 317.
205.
Oxide-based bifunctional oxygen electrode for rechargeable metal-air batteries, A.
M. Kannan, A. K. Shukla and S. Sathyanarayana, J. Power Source, 25 (1989) 141.
206.
Efficient cathodes for SPE fuel cells, P. Stevens, A.K. Shukla and A. Hamnett,
Chem. E. Symp. Series,112 (1989) 141.
207.
Fractional-factorial optimization of porous-carbon fuel-cell electrodes, A. M.
Kannan, A. K. Shukla and A. Hamnett, J. Appl. Electrochem., 18 (1988) 149.
208.
Ehancement of ionic conductivity by dispersed oxide inclusions: Influence of oxide
isoelectric point and cation size, A. K. Shukla, R. Manoharan and, J. B. Goodenough,
Solid State Ionics, 26 (1988) 5.
209.
Solid electrolytes: Application and design, J.B. Goodenough and A.K. Shukla,
Solid State Ionic Devices, world Scientific Publishing Company, Singapore (1988) pp
573-604.
210.
Open Circuit Potential Decay of Fe/Fe(OH)2, OH- Electrodes at Different Initial
State-of-Charge, K. Vijayamohanan, A. K. Shukla and S. Sathyanarayana, J. Power
Sources, 21 (1987) 53.
211.
Kinetic Decomposition of Nickel orthosilicates in Oxygen Potential Gradients, K.
T. Jacob and A. K. Shukla, J. Mater. Res., 2 (1987) 338.
212.
Carbon-based electrodes carrying platinum group bimetal catalysts for oxygen
reduction in fuel cells in the acidic and alkaline electrolytes, K. V. Ramesh and A. K.
Shukla, J. Power Sources, 19 (1987) 279.
24
213.
Preparation and characterization of carbon-based fuel cell electrodes with platinum
group bimetal catalysts, K. V. Kamesh, P. R. Sarode, S. vasudevan and A. K. Shukla, J.
Electroanal. Chem., 223 (1987) 91.
214.
Oxygen potentials for the oxidation of rare earth oxysulphides to oxysulphates,
K. T. Jacob, R. Akila and A. K. Shukla, J. Solid State Chem., 69 (1987) 109.
215.
Standard free energies of formation of rare earth sesquisulphides, R. Akila, K.T.
Jacob and A.K. Shukla, J.Mater. Sci., 22 (1987) 2087.
216.
Gibbs energies of formation of rare earth oxysulphides, R. Akila, K.T. Jacob and
A.K. Shukla, Met. Trans., 188 (1987) 163.
217.
Transport-driven decomposition of multicomponent solids in chemical potential
gradients, A. K. Shukla and K. T. Jacob, Rev. Solid State Sci., 1 (1987) 35.
218.
Ion transport in composite electrolytes, A. K. Shukla, Izvestija SO AN SSSR, Ser.
Khim. Nauk, 1 (1987) 35.
219.
Concept of thermodynamic capacity, R. Akila, A. K. Shukla and K. T. Jacob, Bull.
Mater. Sci., 8 (1986) 453.
220.
Fuel cells: Problems and prospects, A.K. Shukla, K.V. Ramesh and A.M. Kannan,
Proc. Indian Acad. Sci., 97 (1986) 513.
221.
Gibbs energy of formation of nickel orthosilicate, Ni2SiO4, K. T. Jacob, G. M. Kale,
R. Akila and A. K. Shukla, High Temp. Mater. Processes, 7 (1986) 141.
25
222.
Enhanced ionic conductivity in dispersed solid electrolyte CaF2-Al2O3 and CaF2-
CeO2, N. Vaidehi, R. Akila, A. K. Shukla and K. T. Jacob, Mater. Res. Bull., 21 (1986)
909.
223.
A statistically optimized iron electrode for alkaline batteries, K. Vijayamohanan, A.
K. Shukla and S. Sathyanarayana, Indian J. Tech., 24 (1986) 30.
224.
Air electrodes in alkali and acid solutions, R. Manoharan, J. B. Goodenough, A.
Hamnett, K. R. Jamieson, C. A. Palitiero and A. K. Shukla, Electrochem. Engg. I.
Chem. E. Symposium Series No. 98 (1986).
225.
Ionic conduction in dispersed solid electrolytes, A. K. Shukla, N. Vaidehi and K. T.
Jacob, Proc. Indian Acad. Sci., 96 (1986) 533.
226.
Oxides supported carbon air electrodes for alkaline solution devices, R. Manoharan
and A. K. Shukla, Electrochim. Acta, 30 (1985) 205.
227.
High-efficiency alkaline air cathode with metal chelates, A. K. Shukla, R.
Manoharan, J. B. Goodenough, A. Hamnett and C. Palitiero, J. Appl. Electrochem., 15
(1985) 774.
228.
Preparation and characterization
of platinized carbon hydrogen anodes for alkali
and acid fuel cells, A. K. Shukla, K. V. Ramesh, R. Manoharan, P. R. Sarode and S.
Vasudevan,. Ber. Bunsenges Phys. Chem., 89 (1985) 1261.
229.
Oxygen reducing electrodes for acid-air fuel cells, K. V. Ramesh and A. K. Shukla,
J. Power Sources, 15 (1985) 201.
230.
MnO2 catalyzed carbon electrodes for dioxygen reduction in concentrated alkali, R.
Manoharan and A. K. Shukla, Bull. Mater. Sci., 6 (1984) 259.
26
231.
High-performance platinized carbon electrodes for oxygen reduction in power
sources with alkaline electrolytes, R. Manoharan, D. D. Sarma and A. K. Shukla, J.
Power Sources, 13 (1984) 273.
232.
XPS and auger studies of Ag2+S, A. K. Shukla, D. D. Sarma and G. Sankar, Proc.
Indian Acad. Sci., 92 (1983) 43.
233.
Oxygen reducing porous carbon electrodes for electrochemical power sources with
alkaline electrolytes, R. Manoharan and A. K. Shukla, J. Power Sources, 10 (1983) 333.
234.
Electrochemical ways of tapping Solar Energies: An Appraisal, A. K. Shukla, R.
Manoharan and K. V. Ramesh, Proc. Indian Acad. Sci., 5 (1983) 267.
235.
Transformations in Ag2+Se, A. K. Shukla, P. Sen and D. D. Sarma, Ber.
Bunsenges. Phys. Chem., 68 (1982) 43.
236.
A single crystal study of the defect chemistry and transport properties of silver
selenides, Ag2+Se, A. K. Shukla, H. N. Vasan and C. N. R. Rao, Proc. Royal Soc.
(London), A376 (1981) 619.
237.
Thermopower of Ag2+S across the transition, H. N. Vasan and A. K. Shukla, Bull.
Mater. Sci., 3 (1981) 399.
238.
Electrical transport properties of - silver sulphide, A. K. Shukla and H.
Schmalzried, Z. Physik. Chem. NF, 118 (1979) 59.
239.
Anderson transition in La1-xSrxO3, A. K. Shukla and A. Gupta, Indian J. Phys., 53A
(1979) 299.
240.
Electrical transport properties of La1-xSrxFeO3, A. K. Shukla and P. K. Basu, Bull.
Mater. Sci. 1 (1979) 63.
27
241.
Energies of migration of monovalent ions in NaCl: An Experimental and
theoretical study, M. Beniere, F. Beniere, C. R. A. Catlow, A. K. Shukla and
C. N. R. Rao, J. Phys. Chem. Solids, 8 (1977) 521.
242.
Effect of structure on the heats of formation of solid solutions of CsCl with other
alkali halides, A. K. Shukla, J. C. Ahluwalia and C. N. R. Rao, JCS Faraday I, 72
(1976) 1288.
243.
Heats of formation of solid solutions of CsCl with CsBr, A. K. Shukla, J. C.
Ahluwalia and C. N. R. Rao, JCS Faraday I, 72 (1976) 1288.
244.
Ion movement in cesium, thallium and cuprous halides, A. K. Shukla, S.
Chattopadhyay and C. N. R. Rao, Crystal Lattice Defects, 6 (1976) 191.
245.
Energies of trivalent cation impurity - cation vacancy complexes, A. K. Shukla and
M. K. Uppal, Z. Naturforsch., 31a (1976) 219.
246.
Anderson localization and electron transport properties of disorder materials, C. N.
R. Rao and A. K. Shukla, Indian J. Phys. (Commemoration Volume), pp93 (1976).
247.
Formation and migration of vacancies in rubidium halides, A. K. Shukla and C. N.
R. Rao, JCS Faraday II, 70 (1974) 1628.
248.
Intrinsic and extrinsic defect pairs in cesium halides, A. K. Shukla, S. Ramdas and
C. N. R. Rao, JCS Faraday II, 69 (1973) 207.
249.
Association of divalent anion impurity - anion vacancy pairs in KCl, P. K.
Swaminathan, A. K. Shukla and C. N. R. Rao, Chem. Phys. Letters, 23 (1973) 318.
250.
Mechanism of ion movement in AgCl and AgBr, A. K. Shukla, S. Ramdas and C.
N. R. Rao, J. Solid State Chem., 8 (1973) 120.
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251.
Mechanism of ion movement in Alkali halides, S. Ramdas, A. K. Shukla and C. N.
R. Rao, Phys. Rev., B8 (1973) 120.
252.
Association energies of intrinsic and extrinsic defect pairs in KCl, S. Ramadas, A.
K. Shukla and C. N. R. Rao, Chem. Phys. Letters, 16 (1972) 14.
253.
Formation energies of schottky and frenkel defects in thallium halides, A. K.
Shukla, S. Ramdas and C. N. R. Rao, J. Phys. Chem. Solids, 34 (1972) 761.
254.
Configurational interaction and distribution of defect pairs in ionic solids, A. K.
Shukla, S. Ramdas and C. N. R. Rao, J. Indian Chem. Soc., 49 (1972) 17.
Technical Patents of Professor A. K. Shukla
1. A process for the preparation of carbon electrodes for oxygen reduction, A. K.
Shukla and R. Manoharan, Indian Patent 159227.
2. A platinum catalyzed carbon electrode for efficient reduction of oxygen in
alkaline fuel/air fuel cells, A. K. Shukla and R. Manoharan, Indian Patent (1984).
3. Platinized carbon as high performance hydrogen electrode for alkaline hydrogenair fuel cells, A. K. Shukla and K.V. Ramesh, Indian Patent (1984).
4. Electrodes for reducing oxygen, J. B. Goodenough, A. K. Shukla, C. Palitiero, K.
R. Jamieson, A. Hamnett and R. Manoharan, British Patent 8422546.
5. Carbon-based bimetallic hydrogen anode for acid and alkali fuel-air fuel Cell, A.
K. Shukla and K. V. Ramesh, Indian Patent (1985).
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6. Roll-compacted iron electrodes for nickel-iron secondary cells, A. K. Shukla and
T. S. Balasubramanium, Indian Patent (1994).
7. A novel hydrogen-oxygen recombinant catalyst for sealed storage batteries, B.
Hariprakash, P. Bera, K. C. Patil, M. S. Hegde. A. K. Shukla and S. A. Gaffoor,
Indian Patent (2000).
8. Rapid coating process and its application to lead-acid batteries, S. A.
Shivashankar, A. K. Shukla, A. U. Mane, B. Hariprakash and S. A. Gaffoor, US
Patent 2004/0151982 A1 (Also published as WO 2004068612).
9.
A Hybrid (AGM-Gel) VRLA battery with recombinant catalyst, S. K. Martha, B.
Hariprakash, A. K. Shukla and S. A. Gaffoor, Indian Patent Granted May 30,
2004 (228/CHE/2004).
10. Grid for Lead-Acid Battery with Electroconductive Polymer Coating, A. K.
Shukla, S. K. Martha, B. Hariprakash, S. A. Gaffoor and D. C. Trivedi,
International Publication Number WO 2006/070405 A1.
11. A process for preparation of sol-gel modified alternative Nafion-silica composite
membrane useful for polymer electrolyte fuel cell, A. K. Sahu, G. Selvarni, S.
Pitchumani, P. Sridhar and A. K. Shukla, US Patent Application Number
11/940203.
12. Proton conducting polymer electrolyte membrane useful in polymer electrolyte
fuel cells, A. K. Shukla, S. Pitchumani, P. Sridhar, A. K. Sahu, G. Selvarani and
S. K. Prashant, International Patent WO 2009/027993 A1.
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13. New types of self-supported polymeric hybrid membranes for air humidification
in polymer elelctrolyte fuel cell stacks, A. K. Shukla, S. Pitchumani, P. Sridhar, S.
D. Bhat, A. Manokaran and A. K. Sahu, Indian Patent Application no.
0526Del2008 .
14. A 40 Watt direct borohydride fuel cell stack for submersible and space
applications, A K Shukla, S Pitchumani, P Sradhar and S K Prashant, Indian
Patent Filed.
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