Micro Nano Bio Fluidics Unit

Publications

Research Publications

Our research publications are in the following publishers/journals: APS - Physical Review Letters, Physical Review E, Physical Review Applied, and Physical review fluids. ACS: Langmuir, Analytical Chemistry, ACS Applied Materials & Interfaces, Journal of Physical Chemistry Letters.AIP: Physics of Fluids, JASA, Biomicrofluidics, Applied Physics letters. RSC: Soft Matter, Lab on Chip, Analyst. RSC Advances. IoP: J Micromechanics and Microengineering, Europhysics Letters.

  • 135. Fluid viscoelasticity affects ultrasound force field induced particle transport, T. Sujith, L. Malik, and A. K. Sen, Journal of Fluid Mechanics, 2024.

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  • 134. Ultrasound reforms droplets, L. Malik, S. Nandy, N. S. Satpathi, D. Ghosh, T. Laurell and A. K. Sen, Lab on Chip, 2024.

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  • 133. Coflowing aqueous and oil-based ferrofluid streams exposed to a magnetic field, S. K. Jain, and A. K. Sen, Soft Matter, 2024.

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  • 132. Understanding the role of loss modulus of viscoelastic substrates in the evaporation dynamics of sessile drops, R. Iqbal, A. Matsumoto, A. Q. Shen, and A. K. Sen, Langmuir, 2024.

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  • 131. Dynamics of a two-layer immiscible fluid system exposed to ultrasound, S. Z. Hoque and A. K. Sen, Journal of the Acoustical Society of America, 2024.

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  • 130. Effect of stenotic shapes and arterial wall elasticity on the hemodynamics, S Pabi, M K Khan, S K Jain, A K Sen, and A Raj, Physics of Fluids, 2023.

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  • 129. Ultrasound resonance in coflowing immiscible liquids in a microchannel, S. Z. Hoque and A. K. Sen, Physical Review E, 2023.

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  • 128. P. P. Archana, S. Shamjith, K. Jais, K. Akila, A. K. Sen, P. R. Thangaraj, K. K. Maiti and K. M. Muraleedharan, Dual Mode ‘Turn-on’ Fluorescence-Raman (SERS) Response probe based on 1H-pyrrol-3(2H)-one scaffold for Monitoring H2S Levels in Biological Samples, Analytical Methods, 2023.

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  • 127. Effects of surface acoustic waves on droplet impact dynamics, N. S. Satpathi, K. N. Nampoothiri and A. K. Sen, Journal of Colloid and Interface Science, 2023.

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  • 126. Deicing of sessile droplets using surface acoustic waves, K. Nampoothiri, A. Nath, N. S. Satpathi and A. K. Sen, Langmuir, 2023.

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  • 125. Effect of humidification and cell heating on the operational stability of polymer electrolyte membrane fuel cell, International Journal of Hydrogen Energy, N. A. B. Johnson, S. K. Das, A. K. Sen, 2023.

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  • 124. Editorial: New Trends in Acoustofluidics: Modeling, Experiments, and Applications, M. Baudoin, J. M. Meacham, A. K. Sen, G. T. Silva, Frontiers in Physics, 2023.

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  • 123. Flow of bidispersed suspensions under the effect of standing bulk acoustic waves, A. Nath and A. K. Sen, Physical Review Fluids, 2022.

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  • 122. Dynamical motion of an oblate shaped particle exposed to acoustic standing wave in a microchannel, S. Z. Hoque, K. Bhattacharyya, and A. K. Sen, Physical Review Fluids, 2022.

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  • 121. Surface acoustic wave-based generation and transfer of droplets onto wettable substrates, K. N. Nampothiri, N. S. Satpathi, and A. K. Sen, RSC Advances, 2022.

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  • 120. Migration and spreading of droplets across a fluid-fluid interface in microfluidic coflow, S. Hazra, S. K. Mitra and A. K. Sen, Langmuir, 2022.

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  • 119. Experimental Investigation on the Adverse Effect of Corrosion in the Current Collectors on the Performance of PEM Fuel Cells, N. A. B. Johnson, S. K. Das, A. K. Sen, Transactions of the Indian National Academy of Engineering, 2022.

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  • 118. PDMS membrane-based flexible bi-layer microfluidic device for blood oxygenation, N. Ganesan, S. Z. Hoque, N. S. Satpathi, K. N. Nampoothiri, and A. K. Sen, J Micromechanics and Microengineering, 2022.

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  • 117. Microfluidics-based rapid measurement of nitrite in human blood plasma, R. Gaikwad, P. R. Thangaraj, and A. K. Sen, Analyst, 2022.

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  • 116. Evaporation driven smart patterning of microparticles on a rigid-soft composite substrate, R. Iqbal, A. Matsumoto, D. Carlson, K. T. Peters, R. Funari, A. K. Sen, and A. Q. Shen, Journal of Colloid and Interface Science, 2022.

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  • 115. Interaction between droplets and co-flow interface in a microchannel: Droplet migration and interfacial deformation, S. Hazra, L. Malik, S. K. Mitra and A. K. Sen, Physical Review Fluids, 2022.

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  • 114. Trapping of aqueous droplets under surface acoustic wave-driven streaming in oil-filled microwells, A. Nath, A. Sudeepthi, and A. K. Sen, Langmuir, 2022.

     

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  • 113. A wettability pattern mediated trapped bubble removal from a horizontal liquid-liquid interface, I. Chowdhury, P. S. Mahapatra and A. K. Sen, Physics of Fluids, 2022.

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  • 112. Autonomous droplet transport on a chemically homogenous superhydrophilic surface, B. Majhy and A. K. Sen, Colloids and Surfaces A, 2022.

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  • 111. Acoustic particle trapping driven by axial primary radiation force in shaped traps, L. Malik, A. Nath, S. Nandy, T. Laurell, and A. K. Sen, Physical Review E, 2022.

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  • 110. Reversible transition from ferrofluid drop to spikes due to an approaching magnet, S. K. Jain, U. Banerjee, C. Mandal, and A. K. Sen, EPL (Europhysics Letters), 2022.

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  • 109. Elastocapillary interaction between a long rectangular membrane and a liquid drop, A. Samy, N. S. Satpathi, and A. K. Sen, Soft Matter, 2021.

     

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  • 108. Drop impact on a superhydrophilic spot surrounded by a superhydrophobic surface, N. S. Satpathi, L. Malik, A. Ramasamy and A. K. Sen, Langmuir, 2021.

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  • 107. Reversible stream drop transition in a microfluidic coflow system via on demand exposure to acoustic standing waves, E.Hemachandran*, S.Z.Hoque*, T.Laurell, A.K.Sen*, Physical Review Letters, 2021. *equal contribution.

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  • 106. Autonomous Transport and Splitting of Droplet on Open Surface, I. Chowdhury, P. S. Mahapatra, A. K. Sen, A. Pattamata, M. K. Tiwari, Physical Review Fluids, 2021.

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  • 105. LSPR based on-chip detection of dengue NS1 antigen in whole blood, S. Lathika, A. Raj and A. K. Sen, RSC Advances, 2021.

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  • 104. Dynamical motion of a pair of microparticles at the acoustic pressure nodal plane under the combined effect of axial primary radiation and interparticle forces, S. Z. Hoque, A. Nath, and A. K. Sen, Journal of the Acoustical Society of America, 2021.

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  • 103. Particle encapsulation in aqueous ferrofluid drops and sorting of particle-encapsulating drops from empty drops using a magnetic field, U. Banerjee, S. K. Jain, and A. K. Sen, Soft Matter, 2021.

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  • 102. Effect of surface energy and roughness on cell adhesion and growth - facile surface modification for enhanced cell culture, B. Majhy, P. Priyadarshini and A. K. Sen, RSC Advances, 2021.

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  • 101. Dynamics of rigid particles in a confined flow of viscoelastic and strongly shear-thinning fluid at very small Reynolds numbers, S. Hazra, A. Nath, S. K. Mitra, and A. K. Sen, Physics of Fluids, 2021. Editor's pick article.

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  • 100. Combined acoustic relocation and acoustophoretic migration for particle transfer between co-flowing fluids in a microchannel, A. Nath, L. Malik, and A. K. Sen, Physical Review Fluids, 2021.

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  • 99. Direct and rapid measurement of hydrogen peroxide in human blood using a microfluidic device, R. Gaikwad, P. R. Thangaraj and A. K. Sen, Scientific Reports, 2021.

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  • 98. Coalescence of droplets in a microwell driven by surface acoustic waves, A. Sudeepthi, A. Nath, L. Yeo and A. K. Sen, Langmuir, 2021.

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  • 97. Attraction and Repulsion between Liquid Droplets over a Liquid-impregnated Surface, B. Majhy, S. K. Jain and A. K. Sen, Journal of Physical Chemistry Letters, 2020.

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  • 96. Buckling and snapping of a thin polymeric membrane exposed to a solvent drop, R. A. Samy, N. S. Satpathi, and A. K. Sen, EPL (Europhysics Letters), 2020.

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  • 95. Continuous electrical lysis of cancer cells in a microfluidic device with passivated interdigitated electrodes, K. Pandian*, P. Ajanth*, S. Z. Hoque, A. Sudeepthi, and A. K. Sen, Biomicrofluidics, 2020.

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  • 94. Optomicrofluidic device for detection and isolation of drop encapsulated target cells in single-cell format, R. Gaikwad and A. K. Sen, Analyst, 2020. Selected as cover page article.

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  • 93. Shape evolution of drops on surfaces of different wettability gradients, I. Chowdhury, P. S. Mahapatra, and A. K. Sen, Chemical Engineering Science, 2020.

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  • 92. Cross-stream migration of droplets in a confined shear-thinning viscoelastic flow: role of shear-thinning induced lift, S. Hazra, S. K. Mitra and A. K. Sen, Physics of Fluids, 2020.

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  • 91. Microfluidics technology for label-free isolation of circulating tumor cells, P. Ajanth, A. Sudeepthi, A. K. Sen, Journal of The Institution of Engineers (India): Series C, 2020.

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  • 90. Interparticle acoustic radiation force between a pair of spherical particles in a liquid exposed to a standing bulk acoustic wave, S. Z. Hoque and A. K. Sen, Physics of Fluids, 2020.

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  • 89. Trapping and coalescence of diamagnetic aqueous droplets using negative magnetophoresis, S. K. Jain, U. Banerjee, and A. K. Sen, Langmuir, 2020.

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  • 88. Understanding of the role of dilution on evaporative deposition patterns of blood droplets over hydrophilic and hydrophobic substrates, R. Iqbal, A. Q. Shen and A. K. Sen, J Colloid & Interface Science, 2020.

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  • 87. Cassie-Wenzel wetting transition on nanostructured superhydrophobic surfaces induced by surface acoustic waves, A. Sudeepthi, L. Yeo and A. K. Sen, Applied Physics Letters, 2020. Editor's picks article.

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  • 86. Evaporation-induced transport of a pure aqueous droplet by an aqueous mixture droplet, B. Majhy and A. K. Sen, Physics of Fluids, 2020.

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  • 85. Understanding wetting dynamics and stability of aqueous droplet over superhydrophilic spot surrounded by superhydrophobic surface, B. Majhy, V. P. Singh and A. K. Sen, J Colloid & Interface Science, 2020.

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  • 84. Experimental investigation of flame propagation in a meso-combustor, R. Dutta Roy, S. R. Chakravarthy, A. K. Sen, J Power and Energy, 2019.

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  • 83. Cross-stream migration and coalescence of droplets in a microchannel co-flow using magnetophoresis, U. Banerjee, C. Mandal, S. Jain and A. K. Sen, Physics of Fluids, 2019.

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  • 82. Acoustic behavior of a dense suspension in an inhomogeneous flow in a microchannel, A. Nath and A. K. Sen, Physical Review Applied, 2019.

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  • 81. Lateral migration of viscoelastic droplets in a viscoelastic confined flow: role of discrete phase viscoelasticity, S. Hazra, S. K. Mitra, and A. K. Sen, Soft Matter, 2019.

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  • 80. Continuous droplet coalescence in a microchannel coflow using bulk acoustic wave, E. Hemachandran, T. Laurell, and A. K. Sen, Physical Review Applied, 2019.

     

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  • 79. Elastocapillarity-based transport of liquids in flexible confinements and over soft substrates, R. A. Samy, Pearlson P. A. Suthanthiraraj, D. George, R. Iqbal and A. K. Sen, Microfluidics and Nanofluidics, 2019.

     

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  • 78. Transport of a sessile aqueous droplet over spikes of oil based ferrofluid in presence of a magnetic field, C. Mandal*, U. Banerjee*, A. K. Sen, Langmuir, 2019. *equal contribution.

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  • 77. Electronically-tuned Triarylmethine Scaffold for Fast and Continuous Monitoring of H2S Levels in Biological Samples, K Ramshad, T. T. Divya, P. P. Archana, A. K. Sen, C. Lakshmi, K. M. Muraleedharan, Analyst, 2019.

     

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  • 76. Substrate stiffness affects particle distribution pattern in a drying suspension droplet, R. Iqbal, A. Matsumoto, A. Sudeepthi, A. Q. Shen, A. K. Sen, Applied Physics Letters, 2019. Selected as featured and cover article -  Link.

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  • 75. Droplet encapsulation of particles in different regimes and sorting of particle-encapsulating-droplets from empty droplets, K. S. Jayaprakash, A. K. Sen, Biomicrofluidics, 2019.

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  • 74. Aggregation of a dense suspension of particles in a microwell using surface acoustic wave microcentrifugation, A. Sudeepthi, A. K. Sen, L. Yeo, Microfluidics and Nanofluidics, 2019.

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  • 73. Self Driven Droplet Transport: Effect of Wettability Gradient and Confinement, I. Chowdhury, P. S. Mahapatra, and A. K. Sen, Physics of Fluids, 2019.

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  • 72. Elastocapillary flow driven lab-on-a-membrane device based on differential wetting and sedimentation effect for blood plasma separation, A. Samy, A. K. Sen, J Micromechanics and Microengineering, 2019.

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  • 71. Relocation of coflowing immiscible liquids under acoustic field in a microchannel by E. Hemachandran, S. Karthick, T. Laurell and A. K. Sen, EPL (Europhysics Letters), 2019.

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  • 70. Non-inertial lift induced migration for label-free sorting of cells in a co-flowing aqueous two-phase system, S. Hazra, K. S. Jayaprakash, K. Pandian, A. Raj, S. K. Mitra and A. K. Sen, Analyst, 2019.

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  • 69. Localized surface plasmon resonance (LSPR) biosensor based on thermally annealed silver nanostructures with on-chip blood-plasma separation for the detection of dengue non-structural protein NS1 antigen, Pearlson P. S., A. K. Sen, Biosensors and Bioelectronics, 2019.

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  • 68. Rapid measurement of hydrogen sulphide in human blood plasma using a microfluidic method, R. Karunya , K. S. Jayaprakash , R. Gaikwad , P. Sajeesh , K. Ramshad , K. M. Muraleedharan , M. Dixit , P. Thangaraj and A. K. Sen, Scientific Reports, 2019.

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  • 67. Facile fabrication and mechanistic understanding of a transparent reversible superhydrophobic – superhydrophilic surface, B. Majhy, R. Iqbal and A. K. Sen, Scientific Reports, 2018.

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  • 66. Evaporation and morphological patterns of bi-dispersed colloidal droplets on hydrophilic and hydrophobic surfaces,R. Iqbal, B. Majhy, A. Q. Shen and A. K. Sen, Soft Matter, 2018.

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  • 65. Acoustic impedance based label-free isolation of circulating tumour cells from blood using acoustophoresis,S. Karthick, P. N. Pradeep, P. Kanchana and A. K. Sen, Lab on Chip, 2018.

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  • 64. Pressure driven flow through PDMS based flexible microchannels and their applications in microfluidics, A. Raj, Pearlson P. A. Suthanthiraraj, A. K. Sen, Microfluidics and Nanofluidics, 2018.

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  • 63. Dynamics of capillary flow in an open superoleophilic microchannel and its application to sensing of oil , B. Majhy, R. Iqbal, R. Gaikwad, A. K. Sen, Microfluidics and Nanofluidics, 2018.

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  • 62. Dynamics of aqueous ferrofluid droplets at coflowing liquid-liquid interface under a non-uniform magnetic field, U. Banerjee, A. Raj, A. K. Sen, Applied Physics Letters, 2018.

     

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  • 61. Self-transport and manipulation of aqueous droplets on oil-submerged diverging groove, S. Dhiman, K. S. Jayaprakash, R. Iqbal, A. K. Sen, Langmuir, 2018.

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  • 60. Improved understanding of acoustophoresis and development of an acoustofluidic device for blood plasma separation, S. Karthick, A. K. Sen, Physical Review Applied, 2018.

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  • 59. Entry and passage behavior of biological cells in a constricted compliant microchannel, A. Raj, A. K. Sen, RSC Advances, 8, 20884 - 20893, 2018

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  • 58. Shape evolution and splitting of ferrofluid droplets on a hydrophobic surface in presence of magnetic field, U. Banerjee, A. K. Sen, Soft Matter, 14, 2915-2922, 2018.

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  • 57. Continuous splitting of aqueous droplets at the interface of co-flowing immiscible oil streams in a microchannel, K. S. Jayaprakash, A. K. Sen, Soft Matter, 14, 725-733, 2018.

     

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  • 56. Droplet demulsification using ultra-low voltage based electro-coalescence,    A. Srivastava, S. Karthick, K S Jayaprakash, A. K. Sen, Langmuir, 34(4), 1520-1527, 2017.

     

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  • 55. Improved understanding of the acoustophoretic focusing of dense  suspension in a microchannel, S. Karthick and A. K. Sen, Physical Review E, 96, 052606, 2017.

     

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  • 54. A combined experimental and theoretical approach towards mechano-phenotyping of biological cells using a constricted microchannel, A. Raj and A. K. Sen, Lab on Chip, 17, 3704-3716, 2017.

     

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  • 53. Facile fabrication and characterization of a PDMS-derived candle soot coated stable biocompatible superhydrophobic and superhemophobic surface, R. Iqbal, B. Majhy, A. K. Sen, ACS Appl. Mater. & Interfaces, 9 (36), 31170–31180, 2017.

     

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  • 52. Electrospray performance of interacting multi-capillary emitters in a linear array, V. Kumar, A. Srivastava, K. M. Shanbhogue, S. Ingersol, A. K. Sen, J Micromechanics and Microengineering, 2017.

     

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  • 51. Experimental investigation of flame propagation and stabilization in a meso-combustor with sudden expansion, R. Dutta Roy, S. R. Chakravarthy, A. K. Sen, Experimental Thermal and Fluid Science (Elsevier, JIF: 3.0), 2017.

     

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  • 50. Effects of Copper Corrosion in the Performance of Polymer Electrolyte Membrane Fuel Cells, N. A. B. Johnson, S. K. Das, A. K. Sen, ECS Transactions, 80 (8), 477-483, 2017.

     

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  • 49. Bio-inspired liquid transport via elastocapillary interaction of a thin membrane with liquid meniscus, A. Samy, D. George, A. K. Sen, Soft Matter (Royal Society of Chemistry, JIF: 3.8), 2017.

     

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  • 48. Dynamics of a water droplet over a sessile oil droplet: compound droplets satisfying a Neumann condition, R. Iqbal, S. Dhiman, A. K. Sen, A. Shen, Langmuir(American Chemical Society, JIF: 4.5), 33(23), 5713, 2017.

     

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  • 47. Capillary flow-driven microfluidic device with wettability gradient and sedimentation effects for blood plasma separation, M. S. Maria*, P. E. Rakesh*, T. S. Chandra, A. K. SenScientific Reports (Nature Publishing Group, JIF: 5.3), 7, 43457, 2017. *Both authors contributed equally to the work.

     

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  • 46. Dynamics of rigid microparticles at the interface of co-flowing immiscible liquids in a microchannel, K. S. Jayaprakash, U. Banerjee, A. K. SenJ Colloid and Interface Science (Elsevier Science, JIF: 3.8), 493, 317–326, 2017.

     

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  • 45. Manipulation of magnetocapillary flow of ferrofluid in a microchannel, U. Banerjee, M. Sabareesh, A. K. SenSensors and Actuators B: Chemical (Elsevier Science, JIF: 4.3), 246, 487-496, 2017.

     

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  • 44. Capillary flow driven blood plasma separation and on-chip analyte detection in microfluidic device, M. S. Maria, P. E. Rakesh, T. S. Chandra and A. K. SenMicrofluidics and Nanofluidics (Springer, JIF: 2.6), 21: 72, 2017.

     

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  • 43. Interaction of elastocapillary flows in parallel microchannels across a thin membrane, S. P. Reddy, A. Samy, A. K. SenApplied Physics Letters (American Institute of Physics, JIF: 3.4), 109, 141601, 2016.

     

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  • 42. Optofluidics based lab on chip device for in situ measurement of mean droplet size and droplet size distribution of an emulsion, P. Shivhare, A. Prabhakar, A. K. SenJ Micromechanics and Microengineering, 27 (3), 2016.

     

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  • 41. Flotation of denser liquid drops on lighter liquids in non-Neumann condition: role of line tension, D. George, S. Damodara, R. Iqbal, A. K. SenLangmuir (American Chemical Society, JIF: 4.5), 32(40), 10276-10283, 2016.

     

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  • 40. Capillary flow of blood in a microchannel with differential wetting for blood plasma separation and on-chip glucose detection, M. S. Maria, P. E. Rakesh, T. S. Chandra, A. K. SenBiomicrofluidics (American Institute of Physics, JIF: 3.4), 10, 054108, 2016.

     

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  • 39. Role of shear induced diffusion in acoustophoretic focusing of dense suspensions, S. Karthick, A. K. SenApplied Physics Letters, (American Institute of Physics, JIF: 3.4), 109, 014101, 2016.

     

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  • 38. Magnetic field assisted droplet manipulation on a soot-wax coated superhydrophobic surface of a PDMS-iron particle composite substrate, S. Damodara, A. K. SenSensors & Actuators B: Chemical (Elsevier Science, JIF: 4.3), 2016.

     

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  • 37. Droplet generation in a microchannel with a controllable deformable wall, A. Raj, R. Halder, P. Sajeesh, A. K. SenMicrofluidics and Nanofluidics (Springer, JIF: 2.6), 20: 102, 2016.

     

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  • 36. Characterization and sorting of cells based on stiffness contrast in a microfluidic channel, P. Sajeesh, A. Raj, M. Doble, A. K. SenRSC Advances (Royal Society of Chemistry, JIF: 3.3), 6, 74704-74714, 2016.

     

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  • 35. Development of a solenoid actuated planar valveless micropump with single and multiple inlet-outlet arrangements, N. Kumar, D. George, P. Sajeesh, P. V. Manivannan, A. K. SenJ Micromechanics and Microengineering (Institute of Physics Publishing, JIF: 1.8), 26, 075013, 2016.

     

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  • 34. Dynamics of aqueous droplets at the interface of co-flowing immiscible oils in a microchannel, K. S. Jayaprakash, U. Banerjee, A. K. SenLangmuir (American Chemical Society, JIF: 4.5), 32 (8), 2136, 2016.

     

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  • 33. Hydrodynamic focusing and interdistance control of particle laden flow for micro flow cytometry, P. K. Shivhare, A. Bhadra, P. Sajeesh, A. Prabhakar, A. K. SenMicrofluidics and Nanofluidics (Springer, JIF: 2.6), 20: 86, 2016.

     

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  • 32. Single step fabrication and characterization of PDMS micro lens and its use in optocapillary flow manipulation, S. Damodara, D. George, A. K. SenSensors & Actuators B: Chemical (Elsevier Science, JIF: 4.3), 227, 383-392, 2016.

     

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  • 31. Flow induced deformation of compliant microchannels and its effect on pressure-flow characteristics, A. Raj, A. K. SenMicrofluidics and Nanofluidics (Springer, JIF: 2.6), 20(2), 1-13, 2016.

     

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  • 30. Elastocapillary powered manipulation of liquid plug in microchannels, D. George, R. Anoop, A. K. SenApplied Physics Letters (American Institute of Physics, JIF: 3.4), 108 (1), 2015.

     

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  • 29. Capillary flow enhancement in rectangular polymer microchannels with a deformable wall, R. Anoop, A. K. SenPhysical Review E (American Physical Society, JIF: 2.3), 92, 0130241-6, 2015.

     

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  • 28. Microfluidic device with focusing and spacing control for resistance based sorting of droplets and cells, P. Sajeesh, S. Manasi, M. Doble, A. K. SenLab on Chip (Royal Society of Chemistry, JIF: 6.2), 15, 3738-3748, 2015.

     

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  • 27. Development of a microfluidic device for cell concentration and blood cell-plasma separation, M. S. Maria, T. S. Chandra, A. K. SenBiomedical Microdevices(Springer, JIF: 3.0), 17(6), 2015.

     

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  • 26. Experimental and numerical studies of a microfluidic device with compliant chambers for flow stabilization, V. Iyer, A. Raj, R. K. Annabattula, A. K. SenJ Micromechanics and Microengineering (Institute of Physics Publishing, JIF: 1.8), 25, 0750031-12,2015.

     

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  • 25. Analytical modeling, simulations and experimental studies of a PZT actuated planar valveless PDMS micropump, S. Singh, N. Kumar, D. George, A. K. SenSensors & Actuators A: Physical (Elsevier Science, JIF: 2.1), 225, 81-94, 2015.

     

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  • 24. Alternating and merged droplets in a double T-junction microchannel, P. N. S. Harish, P. Sajeesh, U. Banerjee, S. Chander, A. K. SenBioChip (Springer, JIF: 1.1), 9, 16-26, 2015.

     

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  • 23. Hydrodynamic resistance and mobility of deformable objects in microfluidic channels, P. Sajeesh, M. Doble, A. K. SenBiomicrofluidics (American Institute of Physics, JIF: 3.4), 8, 0541121-23, 2014.

     

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  • 22. Particle separation and sorting in microfluidic devices: A Review, P. Sajeesh, A. K. SenMicrofluidics Nanofluidics (Springer, JIF: 2.6), 17, 1-52, 2014

     

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  • 21. Flow and Heat Transfer Analysis of an Electro-Osmotic Flow Micropump for Chip Cooling, K. Pramod; A. K. SenJ Electronics Packaging (ASME, JIF: 0.85), 136, 031012, 2014.

     

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  • 20. Electrokinetic transport and separation of droplets in a microchannel, A. K. Sen, P. Sajeesh, Microfluidics Nanofluidics (Springer, JIF: 2.6), 17, 97-106, 2014.

     

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  • 19. Investigations into mixing of fluids in microchannels with lateral obstructions, P. Sahu, A. Golia, A K SenMicrosystems Technologies (Springer, JIF: 1.0), 19 (4), 493-501, 2013.

     

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  • 18. Isotachophoresis with emulsions, G. Goet, T. Baier, S. Hardt, A. K. SenBiomicrofluidics (American Institute of Physics, JIF: 3.4), 7 (4), 044103-044116, 2013. 

     

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  • 17. Theoretical and numerical investigations of an electroosmotic flow micropump with interdigitated electrodes, U. Barman, P. Baruah, A. K. Sen, S C Mishra, Microsystems Technologies (Springer, JIF: 1.0), 20, 157-168, 2013. 

     

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  • 16. Electro-kinetic assisted mixing in a microchannel with lateral electrodes, P. Kemprai, A. K. SenMicro and Nanosystems (Bentham Science, JIF: 0.85) 4 (4), 304-313, 2012.

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  • 15. Microfluidic system for rapid enumeration and detection of microparticles, P. Bhardwaj and A. K. SenJ Fluids Engineering (ASME, JIF: 1.2), 134 (11), 111401-8, 2012. 

     

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  • 14. Analytical, numerical and experimental investigations of mixing of fluids in microchannel, P. Sahu, A. Golia, and A. K. SenMicrosystems Technologies(Springer, JIF: 1.0), 18, 823-832, 2012.

     

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  • 13. Analysis and simulation of a micro hydrocyclone device for particle liquid separation, P. Bagdi, A. Sharma, P. Bhardwaj, and A. K. SenJ Fluids Engineering(ASME, JIF: 1.2), 134, 021105-9, 2012.

     

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  • 12. Microfluidic device based on a microhydrocyclone for particle liquid separation, P. Bhardwaj, P. Bagdi and A. K. Sen, Lab on Chip (Royal Society of Chemistry, JIF: 6.2), 11, 4012, 2011. 

     

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  • 11. A microsystem for extraction, capture and detection of E-Coli O157:H7, A. K. Sen, T. Harvey, Jan Clausen, T. Cox, Biomedical Microdevices (Springer, JIF: 3.0), 13, 705-715, 2011.

     

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  • 10. Aerosol formation in electrospray ionization using a microfluidic emitter, A. K. Sen, J. Darabi, D. R. Knapp, IEEE Sensors Journal (IEEE, JIF: 1.9), 11 (10), 2335-2341, 2011.

     

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  • 9. Analysis of droplet generation in electrospray using a carbon fiber based microfluidic emitter, A. K. Sen, J. Darabi, D. R. Knapp, J Fluids Engineering(ASME, JIF: 1.2), 133, 071301, 2011.

     

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  • 8. A fluidic interconnection system for polymer-based microfluidic devices, A. K. Sen, J. Darabi, D. R. Knapp, Microsystems Technologies (Springer, JIF: 1.0), 16 (4), 2010.

     

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  • 7.  Design, fabrication and test of a microfluidic nebulizer chip for desorption electrospray ionization mass spectrometry, A. K. Sen, J. Darabi, D.R. Knapp, Sensors and Actuators B: Chemical (Elsevier Science, JIF: 4.3), 137, 789-796, 2009.

     

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  • 6. Dual DESI-LDI mass spectrometry on a common nanoporous alumina platform for enhanced shotgun proteomic analysis, R. Nayak, A. K. Sen, J. Liu, D. R. Knapp, Analytical Chemistry (American Chemical Society, JIF: 5.7), 80, 22, 8840–8844, 2008.

     

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  • 5. Use of nanoporous alumina surface for desorption electrospray ionization mass spectrometry in proteomic analysis, A. K. Sen, R. Nayak, J. Darabi, D. R. Knapp, Biomedical Microdevices (Springer, JIF: 3.0), 10 (5), 531-538, 2008. 

     

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  • 4. Modeling and Optimization of a Microscale Capacitive Humidity Sensor for HVAC Applications, A. K. Sen, J. Darabi, IEEE Sensors Journal (IEEE, JIF: 1.852), 8 (4), 333-340, 2008.

     

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  • 3. Droplet ejection performance of a monolithic thermal inkjet print head, A. K. Sen, J. Darabi, J Micromechanics and Microengineering (American Institute of Physics, JIF: 1.8), 17, 1-8, 2007.

     

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  • 2. Simulation and parametric study of a novel multi-spray emitter for ESI-MS applications, A. K. Sen, J. Darabi, D. R. Knapp Microfluidics and Nanofluidics(Springer, JIF: 2.5), 3 (3), 283-298, 2007.

     

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  • 1. Modeling and characterization of a carbon fiber emitter for electrospray ionization, A. K. Sen, J. Darabi, D. R. Knapp, J. Liu, J Micromechanics and Microengineering (American Inst. of Physics, JIF: 1.8), 16, 620-630, 2006. 

     

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    • Edited book titled "Environmental, Chemical and Medical Sensors", S. Bhattacharya, A. K. Agarwal, N. Chanda, A. Pande, A. K. Sen, ISBN-978-981-10-7750-0, Springer Nature Singapore Pte Ltd, 2018.
    • Book Chapter "Soft Lithography, Molding, and Micromachining Techniques for Polymer Micro Devices", A. K. Sen, A. Raj, U. Banerjee and R. iqbal, for the book titled "Microfluidic Electrophoresis", ISBN: 978-1-4939-8964-5, Springer, 2019.
    • Book Chapter “Microfluidic Sensors for Mechanophenotyping of Biological Cells” for the book titled “Environmental, Chemical and Medical Sensors”, Raj, A.; Sen, A. K., ISBN-10: 9811077509, Springer 1st Edition.
    • Book Chapter “The Microflow Cytometry” for the book titled “Environmental, Chemical and Medical Sensors”, Gaikwad, R.; Sen, A. K., ISBN-10: 9811077509, Springer 1st Edition.
    • Numerical and Experimental Investigations of ESI and DESI Performance of Microfluidic Devices for Proteomic Analysis, Sen, A. K., ISBN: 978-054-942029-3, ProQuest Publisher, 2007.
    • Book Chapter "Polymer Microfabrication" for the book titled "Micromachining", Sen, A.K., ISBN:978-953-307-906-6, INTECH Publisher
  • 1.  An integrated opto-microfluidic platform for real-time detection of gases in biosamples and liquids, Patent granted, Application no. 201841024703, Grant no. 414357, Granted on 13-12-2022. 

    2.  Microfluidic device for enhancing capillary-driven flow in microchannels, Patent granted, Application no. 944/CHE/2015, Grant no. 366293, Granted on 07-05-2021. 

    3.  Method for blood plasma separation based on acoustocapillary and asymmetric capillary flow, Patent granted, Application no. 201641015681, Grant no. 410407, Granted on 31-10-2022. 

    4.  Method of sorting deformable objects at fluid-fluid interface in a polymer microchannel, Patent granted, Application no. 944/CHE/2015, Grant no. 4052037, Granted on 30-08-2022.