Journal articles (Google Scholar)

141. S. Sadhu, A. Dash, N. Esakkiraja, U. Bansal, R. Ravi, S. Bhattacharyya, S. Divinski, A. Paul, Response to the comments on "Practicing pseudo-binary diffusion couple method in ternary and multicomponent systems" Scripta Materialia 173 (2026) 117090.

140. S. Sadhu, S. Bhattacharyya, A. Paul, Extracting composition-dependent diffusion coefficients over a very large composition range in NiCoFeCrMn high entropy alloy following strategic design of diffusion couples and physics-informed neural network numerical method, Acta Materialia 302 (2026) 121649.

139. S. Sadhu, A. Dash, N. Esakkiraja, U. Bansal, A. Mondal, A. Chakraborty, M. Dutta, R. Ravi, S. Makineni, S. Bhattacharyya, S. Divinski, A. Paul, Practicing pseudo-binary diffusion couple method in ternary and multicomponent systems, Acta Materialia 294 (2025) 121127.

138. N. Esakkiraja, J. Berndt, S. Klemme, G. Wilde, A. Paul, S.V. Divinski, Combined measurements of composition-dependent tracer-, impurity-and intrinsic diffusion coefficients and atomic correlation factors from a binary diffusion couple, Acta Materialia 293 (2025) 121088

137. G. Mohan Muralikrishna, N. Esakkiraja, J. Kundin, F. Hisker, J. Berndt, S. Klemme, I. V Belova, G. E Murch, A. Paul, S.V. Divinski, The impact of non-equilibrium vacancies on mobilities and Kirkendall porosity formation in diffusion couples: Experiments and theory for the Cu–Fe–Ni system as a case study, Acta Materialia 292 (2025) 121035

136. A. Paul, Effect of molar volume of diffusing elements and cross terms of Onsager formalism (vacancy wind effect) on estimated diffusion coefficients in ternary and multicomponent solid solutions, Materialia 40 (2025) 102400

135. A. Paul, Role of vacancy wind effect or cross phenomenological constants of Onsager formalism considering actual (ideal or non-ideal) molar volume variation on diffusing elements in binary solid solutions, Acta Materialia 287 (2025) 120807 

134. Ujjval Bansal, Neelamegan Esakkiraja, Thangaraj Baskaran, Tanaji Paul, Ravi Raju, Praveen Kumar, Vikram Jayaram, Aloke Paul, Synergistic Effects of Pt and Y Addition in (Ni, Pt)Craly Bond Coat on Oxide Spallation Resistance and Growth of Interdiffusion Zone between Bond Coat and Ni-Based Single Crystal Superalloy, Corrosion Science 240 (2024) 112485 

133. S Sadhu, A Chakraborty, M. Dutta, SK Makineni, S Bhattacharya, A Paul, Introducing concepts of estimating tracer and intrinsic diffusion coefficients in a ternary system: a case study in the FCC Fe-Mn-Cr solid solution, Philosophical Magazine 104 (2024) 1-26

132. S Sadhu, A Chakraborty, SK Makineni, S Bhattacharya, A Paul, An Experimental Estimation Method of Diffusion Coefficients in Ternary and Multicomponent Systems from a Single Diffusion Profile, Acta Materialia 274 (2024) 120000.

131. N. Esakkiraja, A. Vishwakarma, S. K Makineni, V. Jayaram, T. Hickel, S.V. Divinski, A. Paul, Diffusion-controlled growth and microstructural evolution between Pt and Pd containing B2-NiAl bond coats and Ni-based single crystal superalloys, Acta Materialia 226 (2024) 119687.

130. MK Kandula, MP Singh, E Neelamegan, A Paul, K. Chattopadhyay, High-throughput pseudo-binary diffusion couple approach for alloy design in cobalt-based superalloys, Materials Characterization 210 (2024) 113842  

129. A. Riyahi Khorasan, J. Kundin, O. Lukianova, N. Esakkiraja, A. Paul, S.V. Divinski, I. Steinbach, Carbon Effect on Thermo-Kinetics of Co-Cr-Fe-Mn-Ni High Entropy Alloys: A Computational Study Validated by Interdiffusion Experiments, Acta Materialia 261 (2023) 119358 

128. A. Dash, S. Bhattacharyya, A. Paul, Estimation of diffusion coefficients in NiCoFeCrAl multi-principal element alloy following an inventive design strategy of diffusion couples, Acta Materialia 260 (2023) 119296.

127. U. Bansal, M. P. Singh, S. K. Sinha, D. K. Sahu, S. Mondol, S. K. Makineni, A. Paul, K. Chattopadhyay, Strength and stability through variable micro segregation behaviour of Ta and Zr solutes at intermetallic interfaces in Al-Cu alloys, Acta Materialia 259 (2023) 119254

126. A. Dash, S. Bhattacharyya, A. Paul, Concepts for estimating all types of diffusion coefficients of NiCoFeCr multi-principal element alloys using two dissimilar or a combination of ideal and non-ideal pseudo-ternary diffusion couples, Scripta Materialia 237 (2023) 115719

125. H Kumar, N Esakkiraja, A Dash, A Paul, S Bhattacharyya, Utilising physics-informed neural networks for optimisation of diffusion coefficients in pseudo-binary diffusion couples, Philosophical Magazine 103 (2023) 1717-1723

124. U. Bansal, A,K. Thakur, V.A. Baheti, S.B. Singh, A. Mondal, A.K. Halder, A. Chakraborty, K. Chattopadhyay, A. Paul, Diffusion-controlled growth mechanism of the phases and the microstructural evolution in the Ni-Zn system, Materials Characterization 202 (2023) 112982

123. A. Dash and A. Paul, Estimation of Diffusion Coefficients by Intersecting Different Types of Diffusion Paths in a Multi-Principal Element Alloy, Acta Materialia 244 (2023) 118547

122. U. Bansal, A. Srivastava, N. Esakkiraja, M. Tamilselvi, A. Paul, Effect of Pt on diffusion-controlled growth characteristics of interdiffusion zone between CM247LC superalloy and Ni(Pt)Al bond coat, Journal of Materials Science, 58 (2023) 1305-1314.

121. D. Gaertner, J. Kundin, N. Esakkiraja, J. Berndt, A. Durand, J. Kottke, S. Klemme, G. Laplanche, G. Eggeler, G. Wilde, A. Paul, I. Steinbach, S.V. Divinski, Tracer diffusion under a concentration gradient: A pathway for consistent development of mobility databases in multicomponent alloys, Journal of alloys and compounds  930 (2023) 167301

120. U. Bansal, M.P. Singh, S. Mondol, S.K. Sinha, S.K. Makineni, A. Paul, K. Chattopadhyay, The interplay of precipitation of ordered compounds and interfacial segregation in Al-Cu-Hf-Si alloys for high-temperature strength, Acta Materialia 240 (2022) 118355

119. A. Dash, A. Paul, Estimation of Tracer and Intrinsic Diffusion Coefficients from Body Diagonal Diffusion Couples in a Multi-Principal Element Alloy, Journal of Phase Equilibria and Diffusion 43 (2022) 792-802

118. A. Dash, A. Paul, S. Sen, Sergiy Divinski, Julia Kundin, Ingo Steinbach, Blazej Grabowski, Xi Zhang, Recent Advances in Understanding Diffusion in Multiprincipal Element Systems, Annual Review of Materials Research 52 (2022) 383-409

117.S. Mondol, U. Bansal, M. Pratap Singh, S. Dixit, A. Mandal, A. Paul, K. Chattopadhyay, Microstructure-strength correlations in Al-Si-Cu alloys micro-alloyed with Zr, Materialia 23 (2022) 101449 

116. H Kumar, A Dash, A Paul, S Bhattacharyya, A physics-informed neural network-based numerical inverse method for optimization of diffusion coefficients in NiCoFeCr multi principal element alloy, Scripta Materialia 214 (2022) 114639 

115. T. Baskaran, N. Esakkiraja, C. Samartha, P. Kumar, V. Jayaram, A. Paul, Effect of addition of Pt, Pd and Ir to β-NiAl-bond coat on oxidation resistance and growth of interdiffusion zone, Surface and Coatings Technology 426 (2021)127766

114. D. Gaertner , L. Belkacemi, V.A. Esin, F, Jomard, A. A. Fedotov, J. Schell, Y. V. Osinskaya, A. V. Pokoev, C. Duhamel, A. Paul, and S. V. Divinski, Techniques of tracer diffusion measurements in metals, alloys and compounds, Diffusion Foundations 29 (2021) 31-73

113. N. Esakkiraja, A. Dash, A. Mondal, K.C. Kumar, A. Paul, Correlation between estimated diffusion coefficients from different types of diffusion couples in multicomponent system, Materialia 16 (2021) 101046 (supplementary file)

112. GM Muralikrishna, B Tas, N Esakkiraja, V Esin, KC Kumar, IS Golovin, IV Belova, GE Murch, A Paul, SV Divinski, Composition dependence of tracer diffusion coefficients in Fe-Ga alloys: a case study by a tracer-interdiffusion couple method, Acta Materialia 203 (2021) 116446

111. N. Esakkiraja, A. Gupta, V. Jayaram, T. Hickel, S.V. Divinski, A. Paul, Diffusion, defects and understanding the growth of multicomponent interdiffusion zone between Pt-modified B2 NiAl bond coat and single crystal superalloy, Acta Materialia 195 (2020) 35-49.

110. A. Dash, N. Esakkiraja and A Paul, Solving the issues of multicomponent diffusion in an equiatomic NiCoFeCr medium entropy alloy, Acta Materialia 193 (2020) 163-171.

109. S V. Divinski, O. A. Lukianova, G. Wilde, A. Dash, N. Esakkiraja and A. Paul, High Entropy Alloys: Diffusion, Encyclopedia of Materials: Metals and Alloys, Elsevier, 2020.

108. N. Esakkiraja, K. Pandey, A. Dash and A. Paul, Pseudo-binary and pseudo-ternary diffusion couple methods for estimation of the diffusion coefficients in multicomponent systems and high entropy alloys, Philosophical Magazine 99 (2019) 2236-2264. 

107. S. Santra, S.K. Makineni, G. Shankar, K. Chattopadhyay, S,V. Divinski and A. Paul, Insight into the effect of Ti-addition on diffusion-controlled growth and texture of Nb3Sn intermetallic superconductor phase, Materialia 6 (2019) 100276.

106. V.A. Baheti and A. Paul, Development of different methods and their efficiencies for the estimation of diffusion coefficients following the diffusion couple technique, Acta Materialia 156 (2018) 420-431.

105. N. Esakkiraja, A. Paul, A novel concept of pseudo ternary diffusion couple for the estimation of diffusion coefficients in multicomponent systems, Scripta Materialia 147 (2018) 79-82. arXiv link

104. V.A. Baheti, S. Kashyap, P. Kumar, K. Chattopadhyay, A. Paul, Solid-state diffusion-controlled growth of the phases in the Au-Sn system, Philosophical Magazine A 98 (2018) 20-36.

103. S.V. Divinski, A. Pokev, N. Esakkiraja, A. Paul, A mystery of ’sluggish diffusion’ in high-entropy alloys: the truth or a myth, Diffusion Foundations 17 (2018) 69-104. arXiv Link

102. B. T. Kavakbasi, I. S. Golovin, A. Paul, S.V. Divinski, On the Analysis of Composition Profiles in Binary Single-Phase Diffusion Couples: Systems with a Strong Compositional Dependence of the Interdiffusion Coefficient, Defects and Diffusion Forum 383 (2018) 23-30. arXiv link

101. V.A. Baheti, S. Kashyap, P. Kumar, K. Chattopadhyay, A. Paul, Bifurcation of the Kirkendall marker plane and the role of Ni and other impurities on the growth of Kirkendall voids in the Cu-Sn system, Acta Materialia 131 (2017) 260-270.

100. A. Paul, Comments on Sluggish diffusion in Co–Cr–Fe–Mn–Ni high-entropy alloys, Scripta Materialia, 135 (2017) 153-157.

99. V.A. Baheti, S. Kashyap, P. Kumar, K. Chattopadhyay, A. Paul, Effect of Ni on growth kinetics, microstructural evolution and crystal structure in the Cu(Ni)–Sn system, Philosophical Magazine A 97 (2017) 1782 -1802. James Clerk Maxwell prize, 2017.

98. S. Santra and A. Paul, Role of Zr on growth kinetics and microstructural evolution of the superconductor V3Ga by the bronze technique, Philosophical Magazine Letters 97 (2017) 58-65.

97. A. Paul, Diffusion controlled growth and microstructural evolution of aluminide and silicide coatings on superalloys and steel. Diffusion Foundations 13 (2017) 167-195. arXiv link

96. V.A. Baheti, P. Kumar, A. Paul, Growth of Phases in the solid-state from room temperature to an elevated temperature in the Pd-Sn and Pt-Sn systems, Journal of Materials: Materials in Electronics 28 (2017) 18379–18386.

95. V.A. Baheti, P. Kumar, A. Paul,  Effect of Au, Pd and Pt in Cu on the growth of intermetallic compounds and the Kirkendall voids in the Cu-Sn system, Journal of Materials: Materials in Electronics 28 (2017) 17014–17019.

94. V.A. Baheti, S. Kashyap, P. Kumar, K. Chattopadhyay, A. Paul, Solid-state diffusion-controlled growth of the intermediate phases from room temperature to an elevated temperature in the Cu-Sn and the Ni-Sn systems, Journal of Alloys and Compounds 727 (2017) 832-840.

93. S Santra, SK Makineni, S Suwas, K Chattopadhyay, A Paul, Role of Ti on growth, morphology and microtexture evolution of A15-based V3Ga superconductor by bronze technique, Materials & Design 110 (2016) 404-413.

92. P. Kiruthika, S.K. Makineni, C. Srivastava, K. Chattopadhyay, A. Paul, Growth mechanism of the interdiffusion zone between platinum modified bond coats and single crystal superalloys, Acta Materialia 105 (2016) 438-448. Erratum.

91. S. Santra and A. Paul, Effect of Ga content in Cu(Ga) on the growth of V3Ga following bronze technique, Intermetallics 70 (2016) 1-6.

90. V.A. Baheti, S. Islam, P. Kumar, R. Ravi, R. Narayanan, D. Hongqun, V. Vuorinen, T. Laurila, A. Paul, Effect of Ni content on the diffusion-controlled growth of the product phases in the Cu (Ni)–Sn system, Philosophical Magazine A 96 (2016) 15-30.

89. S. Santra, S. Suwas and A. Paul,  Effect of Nb-orientation and deformation on the growth of Nb3Sn intermetallic superconductor by bronze technique, Philosophical Magazine Letters 95 (2015) 504-510.

88. T. Laurila and A. Paul, Understanding the growth of interfacial reaction product layers between Dissimilar Materials, Critical Reviews in Solid State and Materials Sciences 41 (2016) 73-105.

87. T. Paul and A. Paul, Interdiffusion in the Ni-Zr system, Journal of Phase Equilibria and Diffusion 36 (2015) 381-389.

86. S. Santra and A. Paul, Role of molar volume on estimated diffusion coefficients, Metallurgical and Materials Transactions 46 (2015) 3887-3899.

85. S. Santra and A. Paul, Estimation of intrinsic diffusion coefficients in a pseudo-binary diffusion couple, Scripta Materialia 103 (2015) 18-21.

84. P. Kiruthika and A. Paul, A pseudo-binary interdiffusion study in the β-Ni(Pt)Al phase, Philosophical Magazine Letters 95 (2015) 138-144.

83. V.A. Baheti, S. Santra, S. Roy, K. Perumalsamy, S. Prasad, R. Ravi and A. Paul, Phase evolutions, growth kineics and diffusion parameters in Co-Ni-Ta system, Journal of alloys and Compounds 622 (2015) 1033-1040.

82. S. Roy and A. Paul, Reactive diffusion in the Re-Si system, Journal of Phase Equilibria and Diffusion 35 (2014) 631-635.

81. S. Santra and A. Paul, Interdiffusion of components via different modes during the growth of V3Ga, Philosophical Magazine Letters 94 (2014) 487-94.

80. S. Santra, S. Islam, R. Ravi, V. Vuorinen, T. Laurila and A. Paul, Phase evolutions in AuCu/Sn system by solid state reactive diffusion, Journal of Electronic Materials 43 (2014) 3357-71.

79. B. Mishra, P. Kiruthika and A. Paul, Interdiffusion in the Cu-Pt system, Journal of Materials Science: Materials and Electronics 25 (2014) 1778.

78. S. Roy, S. Prasad and A. Paul, An overview of the interdiffusion studies in Mo-Si and W-Si systems, Defects and Diffusion Forum: Advanced Diffusion Processes and Phenomena 354 (2014) 79-84.

77. S. Roy, S. Prasad, S. Divinski and A. Paul, Diffusion pattern in MSi2 and M5Si3 silicides in group VB (M = V, Nb, Ta) and VIB (M = Mo, W) refractory metal-silicon systems, Philosophical Magazine A 94 (2014) 1508-1528.

76. S. Roy and A. Paul, Growth of hafnium and zirconium silicides by reactive diffusion, Materials Chemistry and Physics 143 (2014) 1309-1314.

75. P. Kiruthika and A. Paul, Growth of phases and diffusion of the species in the W-Pt system, Journal of Phase Equilibria and Diffusion 35 (2014) 36-42.

74. S. Roy, S. Divinski and A. Paul, Reactive diffusion in the Ti-Si system and the significance of the parabolic growth constant, Philosophical Magazine 94 (2014) 683-699.

73. S. Santra, H. Dong, T. Laurila, A. Paul, Role of different factors affecting interdiffusion in Cu(Ga) and Cu(Si) solid solutions, Proceedings of the Royal Society A 470 (2014) 20130464.

72. A. Paul, Discussion of the development of the concept of vacancy-mediated substitutional diffusion: The important contribution from Fredrick Seitz, Metallurgical and Materials Transactions 44 (2013) 5622-5624.

71. V.V.Shastry, V.D. Divya , M.A. Azeem, A. Paul , D. Dye, U. Ramamurty, Combining indentation with diffusion couples for combinatorial materials discovery of high temperatureshape memory alloys, Acta Materialia 61 (2013) 5735-5742.

70. V.A. Baheti, R. Ravi and A. Paul, Interdiffusion study in the Pd-Pt system, Journal of Materials Science: Materials in Electronics 24 (2013) 2833-2838.

69. S. Santra and A. Paul, Effect of Ti concentration on the growth of Nb3Sn between solid Nb(Ti) and liquid Sn, Journal of Electronic materials 42 (2013) 2716-2723.

68. A. Paul, A pseudobinary approach to study interdiffusion and the Kirkendall effect in multicomponent systems, Philosophical Magazine, 93 (2013) 2297-2315. Open source ArXiV.

67. V.D. Divya, U. Ramamurty and A. Paul, Interdiffusion and solid solution strengthening in Ni-Co-Pt and Ni-Co-Fe ternary systems, Philosophical Magazine 93 (2013) 2190-2206.

66. A. Paul, Comments on “Enhanced growth of the Ni3Sn4 phase at the Sn/Ni interface subjected to strains” Scripta Materialia 69 (2013) 440-441.

65. S. Roy and A. Paul, Diffusion in tungsten silicides, Intermetallics 37(2013) 83-87.

64. V.A. Baheti, S. Roy, R. Ravi and A. Paul, Study on diffusion mechanism and the phase boundary compositions in the Co-Ta system, Intermetallics 33 (2013) 87-91.

63. R. Ravi and A. Paul, Diffusion and growth mechanism of the phases in the palladium-tin system, Journal of Materials Science: Materials in Electronics 23 (2012) 2306-2310.

62. R. Ravi and A. Paul, Diffusion mechanism in the gold-copper system, Journal of Materials Science: Materials in Electronics 23 (2012) 2152-2156.

61. S. Roy and A. Paul, Growth mechanism of tantalum silicides by interdiffusion, Philosophical Magazine A, 92 (2012) 4215-4229.

60. A.Paul and T. Laurila, Comments on “Effects of current density on the formation and microstructure of Sn-9Zn, Sn-8Zn-3Bi and Sn-3Ag-0.5Cu solder joints”, Intermetallics 28 (2012) 164-165.

59. T. Laurila, J. Karppinen, V. Vuorinen, J. Li, A.Paul and M. Paulasto-Kröckel, Effect of different pre-aging treatments on the microstructural evolution of solder interconnections during thermal cycling, Journal of Electronic Materials 41 (2012) 3179-3195.  

58. S. Santra and A. Paul,  Vacancy wind effect on interdiffusion in a dilute Cu(Sn) solid solution, Philosophical Magazine letters 92 (2012) 373-383.

57. V.D. Divya, U. Ramamurty and A. Paul, Role of Pt on interdiffusion and mechanical properties of the gamma and gamma’ phases in the Ni-Pt-Al system, Philosophical Magazine A 92 (2012) 2187-2214.

56. S. Santra, A. Mondal and A. Paul, Interdiffusion in the Fe-Pt system, Metallurgical and Materials Transactions 43 (2012) 791-795.

55. S. Prasad and A. Paul, Growth mechanism of the Nb(X)Si2 and [Nb(X)]5Si3 phases by reactive diffusion in Nb (X = Ti, Mo, or Zr)-Si systems, Intermetallics 22 (2012) 210-217.

54. S. Prasad and A. Paul, Diffusion mechanism in XSi2 and X5Si3 (X = Nb, Mo, V) phases, Defects and Diffusion Forum 323-325 (2012) 459-464.

53. S. Prasad and A. Paul, Interdiffusion in Nb-Mo, Nb-Ti and Nb-Zr systems, Defects and Diffusion Forum 323-325 (2012) 491-496.

52. S.S.K. Balam, R.Ravi and A. Paul, Diffusion mechanism in the mu phase in Nb-X (X = Ni, Co, Fe) systems, Defects and Diffusion Forum 323-325 (2012) 497-502.

51. V.D. Divya, U. Ramamurty and A. Paul, Interdiffusion and growth of the phases in CoNi/Mo and CoNi/W systems, Metallurgical and Materials Transactions 43 (2012) 1564-1577.

50.  S. Prasad and A. Paul, Growth and consumption of the phase layers during interdiffusion in a diffusion couple with finite end member, Journal of Materials science: Materials in Electronics, Journal of Materials Science: Materials in Electronics 23 (2012) 75-85.

49. V.D. Divya, U. Ramamurty and A. Paul, Interdiffusion and the vacancy wind effect in Ni-Pt and Co-Pt systems, Journal of Materials Research 26 (2011) 2384-2393.

48. S. Prasad and A. Paul, Growth mechanism of phases by interdiffusion and atomic mechanism of diffusion in the molybdenum-silicon system, Intermetallics 19 (2011) 1191-1200.

47. S.S.K. Balam, H.Q. Dong, T. Laurila, V.Vuorinen, A. Paul, Diffusion and growth of the μ phase (Ni6Nb7) in Ni-Nb system , Metallurgical and Materials Transactions 42 (2011) 1727-1731.

46. T. Laurila, J. Karppinen, V.Vuorinen, A. Paul and M. Paulasto-Kröckel, Effect of constant and cyclic current stressing on the evolution of intermetallic compound layers, Journal of Electronic Materials 40 (2011) 1517-1526.

45. S. Prasad and A. Paul, Reactive diffusion between Vanadium and Silicon, Journal of Phase Equilibria and Diffusion 32 (2011) 212-218.

44. V.D. Divya, U. Ramamurty and A. Paul, Diffusion in Co-Ni system studoed by multifoil technique, Defects and Diffusion Forum 312-315 (2011) 466-471.

43. S. Prasad and A. Paul,An overview of diffusion studies in the V-Si system, Defects and Diffusion Forum 312-315 (2011) 731-736.

42. S. Prasad and A. Paul, Growth mechanism of phases by interdiffusion and diffusion of species in the Nb-Si system, Acta Materialia 59 (2011) 1577-1585.

41. R. Ravi and A. Paul, Interdiffusion study on Co(W) solid solution and topological close-packed μ phase in Co-W system, Intermetallics19 (2011) 426-428.

40. A. Paul , C. Ghosh and W.J. Boettinger, Diffusion parameters and growth mechanism of phases in the Cu-Sn system, Metallurgical and Materials Transactions A 42A (2011) 952-963.

39. A. Paul, Growth mechanism of phases, Kirkendall voids, marker plane position, and indication of the relative mobilities of the species in the interdiffusion zone, Journal of Materials Science: Materials in Electronics 22 (2011) 833-837.

38. S.S.K. Balam, and A. Paul, Study of interdiffusion and growth of topologically closed packed phases in the Co-Nb system, Journal of Materials Science 46 (2011) 889-895.

37. T. Laurila, V. Vuorinen A.K. Kumar and A. Paul, Diffusion and growth mechanism of Nb3Sn superconductor grown by bronze technique, Applied Physics Letters 96 (2010) 2319101-3.

36. S.S.K. Balam, and A. Paul, Interdiffusion study in the Fe-Nb system, Metallurgical and Materials Transactions A, 41A (2010) 2175-2179.

35. V.D. Divya, S.S.K. Balam, U. Ramamurty and A. Paul, Interdiffusion in the Ni-Mo system, Scripta Materialia 62 (2010) 621-624.

34. A.K. Kumar and A. Paul, Interdiffusion studies in bulk Au-Ti system, Journal of Materials Science: Materials in Electronics, 21 ( 2010) 1202-1206.

33. V.D. Divya, U. Ramamurty and A. Paul, Topological close packed μ phase formation and the determination of diffusion parameters in Co-Mo system, Intermetallics 18 (2010) 259-266.

32. A.K. Kumar, T. Laurila V. Vuorinen and A. Paul, Study on the growth of Nb3Sn superconductor in Cu(Sn)/Nb diffusion couple , Defects and Diffusion Forum 297-301 (2010) 467-471.

31. R, Ravi, A.K. Kumar and A. Paul, Diffusion studies in A3B compounds with A15 structure , Defects and Diffusion Forum 297-301 (2010) 477-482.

30. V.D. Divya, U. Ramamurty and A. Paul, Interdiffusion studies in the Co-Mo system, Defects and Diffusion Forum 297-301 (2010) 462-466.

29. A. Paul, Comments on “Room temperature interfacial reactions in electrodeposited Au/Sn couples”, Scripta Materialia, 61 (2009) 561-563.

28. S. Prasad and A. Paul, Diffusion parameters in the Nb-Mo system: Revisited, Metallurgical and Materials Transactions A 40 (2009) 1512-1514.

27. A.K. Kumar and A. Paul, Interdiffusion and activation energy in Ti3Au phase with A15 crystal structure, Intermetallics 17 (2009) 962-964.

26. A.K. Kumar and A. Paul, Interdiffusion and Growth of the Superconductor Nb3Sn in Nb/Cu(Sn) Diffusion Couples, Journal of Electronic Materials, 38 (2009) 700-705.

25. A.K. Kumar, T. Laurila, V. Vuorinen and A. Paul, Determination of diffusion parameters and activation energy of diffusion in V3Si phase with A15 crystal structure, Scripta Materialia 60 (2009) 377-380.

24. C. Ghosh and A. Paul, Different phenomenological theories and their efficiency to describe the interdiffusion process in a binary system during multiphase growth, Acta Materialia 57 (2009) 493-502.

23. A.A. Kodentsov, A. Paul , M.J.H. van Dal , C. Cserháti , A.M. Gusak and F.J.J. van Loo, On the Spatial Stability and Bifurcation of the Kirkendall Plane during Solid-State Interdiffusion, Critical Reviews in Solid State and Materials Sciences, 33 (2008) 210-233.

22. C. Ghosh and A. Paul, Elucidation of bifurcation of the Kirkendall marker plane in a single-phase using physico-chemical approach, Intermetallics 16 (2008) 955-961.

21. S. Prasad and A. Paul, Theoretical consideration on the formation of nanotube following the Kirkendall effect, Applied Physics Letters 90 (2007) 2331141-3.

20. C. Ghosh and A. Paul, A physico-chemical approach in binary solid-state interdiffusion, Acta Materialia 55 (2007) 1927-1939.

19. A.A. Kodentsov, A. Paul, and F.J.J. van Loo, Physico-Chemical analysis of compound growth in binary interdiffusion systems, Defects and Diffusion Forum 258-260 (2006) 182-191.

18. A. Paul, A.A. Kodentsov and F.J.J. van Loo, Physico-Chemical analysis of compound growth in a diffusion couple with two-phase end-members, Intermetallics, 14 (2006) 1428-1432. 

17. Christoph Luef, Aloke Paul, Jiri Vizdal, Ales Kroupa, Alexander Kodentsov and Herbert Ipser, Thermodynamic properties of Bi-Sn-Zn alloys , Monatshefte fuer Chemie 137 (2006) 381-395.

16. Christoph Luef, Hans Flandorfer, Aloke Paul, Alexander Kodentsov and Herbert Ipser. The In – Pd – Sn phase diagram (xPd less than 0.6): Isothermal sections, Intermetallics13 (2005) 1207-1213.

15. A. Paul, A.A. Kodentsov and F.J.J. van Loo, On diffusion in the beta-NiAl phase, Journal of Alloys and Compounds 403 (2005) 147-153.

14. A. Paul, A.A. Kodentsov and F.J.J. van Loo, Bifurcation and trifurcation of a Kirkendall plane during multiphase interdiffusion, Defects and Diffusion Forum 237-240 (2005) 813-824.

13. Christoph Luef, Aloke Paul, Hans Flandorfer, Alexander Kodentsov and Herbert Ipser, Enthalpies of mixing of metallic systems relevant for lead free soldering: Ag-Pd and Ag-Pd-Sn, Journal of Alloys and Compounds 391 (2005) 67-76.

12. A. Paul, A.A. Kodentsov and F.J.J. van Loo,  Bifurcation of the Kirkendall plane during interdiffusion in the intermetallic compound beta-NiAl, Acta Materialia 52 (2004) 4041-4048.

11. A. Paul, M.J.H. van Dal, A.A. Kodentsov and F.J.J. van Loo, The Kirkendall Effect in Multiphase Diffusion, Acta Materialia 52 (2004) 623-630.

10. U. Ramamurty and A. Paul, Variability in Mechanical Properties of a Metal Foam, Acta Materialia 52 (2004) 869-876.

9. Aloke Paul, Alexander A. Kodentsov, Frans J.J. van Loo, Intermetallic growth and Kirkendall effect manifestations in Cu/Sn and Au/Sn diffusion couples , Z. Metallkunde (Name changed to International Journal of Materials Research) 95 (2004) 913-920.

8. A. Paul, A.A. Kodentsov and F.J.J. van Loo, On the behaviour of Kirkendall markers in solid-state diffusion, Archives of Metallurgy and Materials 49 (2004) 259-276.

7. Alexander A. Kodentsov, Aloke Paul, Frans J.J. van Loo, Bifurcation of the Kirkendall plane and patterning in reactive diffusion, Z. Metallkunde (Name changed to International Journal of Materials Research) 95 (2004) 258-260.

6. A.A. Kodentsov, A. Paul and F.J.J. van Loo, The Kirkendall Plane in Binary Interdiffusion Systems, Defects and Diffusionin Metals – Annual Retrospective-VII 233-34 (2004) 61-76.

5. A. Paul, A.A. Kodentsov, G. de With, F.J.J. van Loo, Formation of AB2-intermetallics in the Au-Sb-Bi system, Intermetallics 11 (2003) 1195-1203.

4. C. Cserháti, A. Paul, A.A. Kodentsov, M.J.H. van Dal, F.J.J. van Loo, Intrinsic Diffusion in Ni3Al System, Intermetallics 11 (2003) 291-297.

3. A. Paul, M.J.H. van Dal, A.A. Kodentsov and F.J.J. van Loo, The Kirkendall Effect in Multiphase Interdiffusion, Defects and Diffusion Forum 216-217 (2003) 65-72.

2. A. Paul and U. Ramamurty, Strain rate sensitivity of a closed-cell aluminium foam, Materials Science and Engineering A 281A (2000) 1-7.

1. A. Paul, T. Seshacharyulu and U. Ramamurty, Tensile strength of a closed-cell Al foam in the presence of notches and holes, Scripta Materialia 40 (1999) 809-814.