2024

• 1. Nitin Sharma, “Computational and Statistical Aspects to Classify the Solvents Effect on Dynamics of O2 Molecule”, Investigacion Operacional, Vol.45, No.1, 79-84, 2024.
• 2. Sunil Singh Negi, Nitin Sharma, Pankaj Singh Rana, “Mathematical modelling of SARS‑CoV‑2 transmission dynamics: a case study of the most affected East Asian countries”, has been accepted in “Journal of Applied Nonlinear Dynamics”, (2024).
• 3. Ashish Kumar, Kuldeep Sharma, Tinh Quoc Bui, Singular integral method based closed form solution for moving EMPS model in semipermeable two‐equal‐collinear cracked MEE material, ZAMM- Journal of Applied Mathematics and Mechanics-ZAMM, e202300731 (2024).
• 4. Ashish Kumar, Kuldeep Sharma, Tinh Quoc Bui, Singular integral based closed-form solutions for modified EMPS models in semipermeable magneto-electro-elastic materials, Applied Mathematical Modelling, 129 (2024), 673-695.
• 5. D. S. Bhandari, Anjali Bhardwaj, and Dharmendra Tripathi, Parametric analysis of multi membrane based pumping flow model with induced magnetic field, Chinese Journal of Physics, In Press, (2024) [IF: 5.0].

2023

• 1. Kusum Sharma, Diksha Dumka, “Convergence of a Conjugate Function in Zygmund Space by Almost Nörlund Transform”, Journal of Applied Analysis, June 2023.
• 2. Kusum Sharma, Diksha Dumka, L. Rathore, M.K. Sharma, L. N. Mishra, “Error of Approximation of Function in Lipchitz Class via Almost (N,p_k,q_k)-Means”, Advanced Mathematical Models & Applications, Vol. 8, no. 1, 2023, pp. 116-124.
• 3. Daya Ram, D. S. Bhandari, Dharmendra Tripathi, and Kushal Sharma, Motion of bacteria and CaOx particles via urine flow modulated by the electroosmosis, Physics of Fluids, In Press, (2023) [IF: 4.6]
• 4. Raj, Hanumesh, K, Shivaleelaishant, D.Tripathi, Scrutiny of MHD impact on Carreau Yasuda (CY) fluid flow over a heated wall of the uniform micro-channel, Chinese Journal of Physics, In Press, (2023) [IF: 5.0] 
• 5. Apoorva Upadhyay, Aishwarya Upadhyay , Prakash Kumar Sarangi, Aakash Chawade, Nidhi Pareek, Dharmendra Tripathi, Vivekanand Vivekanand, Machine learning approach for microbial growth kinetics analysis of acetic acid-producing bacteria isolated from organic waste, Biochemical Engineering Journal. In Press, (2023) [IF: 3.9]
• 6. Hanumesh Vaidya, Kerehalli Vinayaka Prasad, Dharmendra Tripathi, Rajashekhar Choudhari, Hanumantha and Hijaz Ahmad, Viscoplastic hybrid nanofluids flow through vertical Stenosed Artery, BioNanoScience, In Press (2023), [IF: 3.0]
• 7. J. Prakash, Himanshu Upreti Dharmendra Tripathi, and Alok Kumar Pandey, Irreversibility and heat transfer analysis in MHD Darcy-Forchheimer flow of Casson hybrid nanofluid flow through cone and wedge, Numerical Heat Transfer, Part A: Applications, In Press (2023), [IF: 2.569]
• 8. Dharmendra Tripathi, D.S. Bhandari and O.A. Beg, A critical review on micro-scale pumping based on insect-inspired membrane kinematics, Sensors and Actuators: A. Physical, In Press (2023), [IF: 4.291]
• 9. Saima Noreen, Kaneez Fatima and Dharmendra Tripathi, Electroosmosis-driven heat transfer in Jeffrey fluid flow through tapered porous channel, Numerical Heat Transfer, Part A: Applications, In Press (2023), [IF: 2.569]
• 10. Mohit Pandya, A K Ansu, Ravi Kumar Sharma, Dharmendra Tripathi, V V Tyagi and Ahmet Sari, Investigation on Thermal Energy Storage Properties of Polyethylene Glycol with Hybrid Nanoparticles of Al2O3 and CuO for Solar Thermal Energy Storage, ECS Journal of Solid State Science and Technology, In Press (2023), [IF: 2.070]
• 11. KBS Latha, M Gnaneswara Reddy, D Tripathi, OA Bég, S Kuharat and Hijaz Ahmad, Computation of stagnation coating flow of electro-conductive ternary Williamson hybrid GO-AU-Co3 O4 / EO nanofluid with a Cattaneo-Christov heat flux model and magnetic induction, Scientific Reports, In Press (2023), [IF: 4.997]
• 12. Nikhil Vivek Shrivas, Subham Badhyal, Abhishek Kumar Tiwari, Ashutosh Mishra Dharmendra Tripathi, and Santosh Patil, Computation of Physiological Loading induced Interstitial Fluid Motion in Muscle Standardized Femur: Healthy vs. Osteoporotic Bone, Computer Methods and Programs in Biomedicine 237 (2023) 107592, [IF: 7.027]
• 13. Shrivas, Nikhil V., Abhishek K. Tiwari, Santosh Patil, and Dharmendra Tripathi. "Physiological loading-induced streaming potentials in osteogenesis imperfecta bone." Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science (2023): 09544062231181805. [IF: 1.724]
• 14. Adil Wahid Butt, Noreen Sher Akbar, Dharmendra Tripathi, Javaria Akram, Analytical Investigation of Electroosmotically Regulated Peristaltic Propulsion of Cu-water Nanofluid Through a Microtube, Iraqi Journal of Science, 2023, Vol. 64, No. 5, pp: 2354-2367. [IF: 0.421]
• 15. J. Prakash, Dharmendra Tripathi and O. Anwar Bég, Computation of EMHD ternary hybrid non-Newtonian nanofluid over a wedge embedded in a Darcy-Forchheimer porous medium, International Journal of Ambient Energy, In Press (2023), [IF: 0.421]
• 16. Ram, Daya, D. S. Bhandari, Kushal Sharma, and D. Tripathi. "Progression of blood-borne viruses through bloodstream: A comparative mathematical study." Computer Methods and Programs in Biomedicine 232 (2023): 107425. [IF: 7.027]
• 17. Munawar, Sufian, Saleem, Najma and Tripathi, Dharmendra. "Cilia and electroosmosis induced double diffusive transport of hybrid nanofluids through microchannel and entropy analysis" Nonlinear Engineering, vol. 12, no. 1, 2023, pp. 20220287. [IF: 0.52]
• 18. F. Aslam, S. Noreen, D.C. Lu, D. Tripathi, Regulation of thermo-electro-magneto dynamics in course of peristalsis, Journal of Magnetism and Magnetic Materials 574 (2023) 170711 [IF: 3.097]
• 19. R. Balaji, J. Prakash, and Dharmendra Tripathi and O. Anwar Bég, Heat transfer and hydromagnetic electroosmotic Von Kármán swirling flow from a rotating porous disc to a permeable medium with viscous heating and Joule dissipation, Heat Transfer, In Press (2023), [IF: 2.421]
• 20. Prakash, J., Dharmendra Tripathi, Nevzat Akkurt, and Timothy Shedd. "Entropy Analysis of Hybrid Nanofluid Flow Over A Rotating Porous Disk: A Multivariate Analysis." Special Topics & Reviews in Porous Media: An International Journal 14, no. 4 (2023). [IF: 1.444]
• 21. Tripathi, Dharmendra, Dinesh Bhandari, Rakesh Kumar, and Yasser Aboelkassem. "Modeling virus transport and dynamics in viscous flow medium." Journal of Biological Dynamics 17, no. 1 (2023): 2182373. [IF: 1.642]
• 22. Rajesh Kumar Chandrawat, Varun Joshi, Dharmendra Tripathi and Sadia Sadat, Numerical Solutions of a Time-Dependent Hydromagnetic Micropolar Dusty Fluid between Parallel Plates through an Inclined Channel, Pramana 97, no. 1 (2023): 1-16. [IF: 2.699]
• 23. D. S. Bhandari, and D. Tripathi, Alteration in membrane-based pumping flow with rheological behaviour: a mathematical model, Computer Methods and Programs in Biomedicine 229 (2023): 107325., [IF: 7.027]
• 24. Gnaneswara Reddy, M., D. Tripathi, and O. Anwar Bég. "Analysis of dissipative non‐Newtonian magnetic polymer flow from a curved stretching surface with slip and radiative effects." Heat Transfer 52, no. 3 (2023): 2694-2714. [IF: 2.421]
• 25. Bhandari, D.S., Tripathi, D. & Narla, V.K. Transient membrane kinematic model for viscoplastic fluids: periodic contraction in the microchannel. Eur. Phys. J. Spec. Top. 232, 817–826 (2023).
• 26. Pankaj Singh Rana, Nitin Sharma, and Anupam Priyadarshi, “Mathematical modeling and optimal control of a deterministic SHATR model of HIV/AIDS with possibility of rehabilitation: a dynamic analysis”, published in the “Tamkang Journal of Mathematics”, (ESCI/SCOPUS, I.F. 0.312), DOI: 10.5556/j.tkjm.55.2024.5109.
• 27. Nitin Sharma, “Computational and Statistical Aspects to Classify the Solvents Effect on Dynamics of O2 Molecule”, accepted for the publication in the journal of “Investigacion Operacional” (SCOPUS).
• 28. Kuldeep Sharma, Sandeep Singh and Tinh Quoc Bui, Simplified numerical algorithms for generalized strip saturated two equal collinear cracks in piezoelectric media using distributed dislocation technique, ZAMM Journal of Applied Mathematics and Mechanics, 103(11), 2023, e202300004. [IF: 2.3].

2022

• 1. Dharmendra Tripathi, Dinesh Singh Bhandari, and Anuj Mubayi, Progression of SARS-CoV-2 From Successful Intake to Establishment of Infection in a Tissue, SIAM News Blog Feb 16, 2022
• 2. Daya Ram, D. S. Bhandari, Dharmendra Tripathi and Kushal Sharma, Propagation of H1N1 virus through saliva movement in oesophagus: A mathematical model, The European Physical Journal Plus, In Press (2022), [IF: 3.758]
• 3. Dharmendra Tripathi, D. S. Bhandari, and O. Anwar Bég, Thermal Effects on SARS-CoV-2 Transmission in Peristaltic Blood Flow: Mathematical Modelling, Physics of Fluids, In Press (2022), [IF: 3.521]
• 4. Najma Saleem, Sufian Munawar, Dharmendra Tripathi, Farkhanda Afzal, and Deeba Afzal, Cilia beating modulated radiating ternary nanofluids flow in corrugated asymmetric channel with electromagnetohydrodynamic and momentum slip, Journal of Heat Transfer, In Press, (2022) [IF: 2.421]
• 5. D. S. Bhandari and Dharmendra Tripathi, Study of entropy generation and heat flow through a microtube induced by the membrane-based thermofluidics systems, Thermal Science and Engineering Progress, In Press, (2022) [IF: 3.521]
• 6. Javaria Akram, Noreen Sher Akbar, Monairah Alansari, and Dharmendra Tripathi, Electroosmotically modulated peristaltic propulsion of TiO2/10W40 nanofluid in curved microchannel, International Communications in Heat and Mass Transfer 136 (2022) 106208. [IF: 5.683]
• 7. Lu, DC, S. Noreen, S. Waheed, and D. Tripathi. "Heat Transfer Applications in Curved Micro-Channel Driven by Electroosmosis And Peristaltic Pumping." Journal of Mechanics in Medicine and Biology (2022): 2250030.
• 8. Javaria Akram, Noreen Sher Akbar, Dharmendra Tripathi, Analysis of electroosmotic flow of silver-water nanofluid regulated by peristalsis using two different approaches for nanofluid, Journal of Computational Science 62 (2022) 101696 [IF: 3.976]
• 9. Rajashekhar Choudhari, Katta Ramesh, Dharmendra Tripathi, Hanumesh Vaidya, K. V. Prasad, Heat transfer and electroosmosis driven MHD peristaltic pumping in a microchannel with multiple slips and fluid properties, Heat Transfer, In Press (2022), [IF: 2.421]
• 10. J. Prakash, D. Tripathi, Nevzat Akkurt, and O.A. Bég, Tangent Hyperbolic Non-Newtonian Radiative Bioconvection Nanofluid Flow from a Bi-Directional Stretching Surface with Electro-Magneto-Hydrodynamic, Joule Heating and Modified Diffusion Effects, The European Physical Journal Plus, In Press (2022), [IF: 3.911]
• 11. V. K. Narla, Dharmendra Tripathi, D.S. Bhandari, Thermal analysis of micropolar fluid flow driven by electroosmosis and peristalsis in microchannel, International Journal of Ambient Energy, In Press (2022), [IF: 2.326]
• 12. V. Sridhar, K. Ramesh, D. Tripathi, and V. Vivekanand, Analysis of thermal radiation, Joule heating and viscous dissipation effects on blood-gold couple stress nanofluid flow driven by electroosmosis, Heat Transfer, In Press (2022), [IF: 2.421]
• 13. Balaji, R., J. Prakash, Dharmendra Tripathi, and O. Anwar Bég. "Computation of magnetohydrodynamic electro-osmotic modulated rotating squeezing flow with zeta potential effects." Colloids and Surfaces A: Physicochemical and Engineering Aspects 640 (2022): 128430. [IF: 4.539]
• 14. J. Prakash, D. Tripathi, O.A. Bég, and Ravi Kumar Sharma, Electroosmotic modulated unsteady squeezing flow with temperature- dependent thermal conductivity, electric and magnetic field effects, Journal of Physics: Condensed Matter, In Press (2022), [IF: 2.333]
• 15. Javaria Akram, Noreen Akbar, Dharmendra Tripathi, Entropy generation in electroosmotically aided peristaltic pumping of MoS2 Rabinowitsch nanofluid, Fluid Dynamics Research, In Press (2022), [IF: 1.067]
• 16. Sachin Shaw, GC Shit and Dharmendra Tripathi, Impact of drug carrier shape, size, porosity and blood rheology on magnetic nanoparticle-based drug delivery in a microvessel, Colloids and Surfaces A: Physicochemical and Engineering Aspects 639 (2022) 128370, [IF: 4.539]
• 17. Chandrawat, Rajesh Kumar, Varun Joshi, O. Anwar Bég, and Dharmendra Tripathi. "Computation of unsteady generalized Couette flow and heat transfer in immiscible dusty and non‐dusty fluids with viscous heating and wall suction effects using a modified cubic B‐spine differential quadrature method." Heat Transfer 51, no. 1 (2022): 99-139. IF: 2.421].
• 18. J. Prakash, D. Tripathi, O.A. Bég, AK Tiwari and Rakesh Kumar, Thermo-Electrokinetic Rotating Non-Newtonian Hybrid Nanofluid Flow from An Accelerating Vertical Surface, Heat Transfer, (2022) [IF: 2.421].
• 19. Rahul Shukla, Amit Medhavi, S. Shankar Bhatt, Raghuvir Kumar and D. Tripathi, Surface Roughness Analysis on Peristaltic Pumping Flow Model, Pramana – J. Phys. (2022) 96:89 [IF: 1.509]
• 20. Pankaj Singh Rana and Nitin Sharma, “The Modeling and Analysis of the COVID-19 Pandemic with Vaccination and Treatment Control: A Case Study of Maharashtra, Delhi, Uttarakhand, Sikkim, and Russia in the Light of Pharmaceutical and Non-Pharmaceutical Approaches”, published in The European Physical Journal Special Topics, (2022) 1-20.

2021

• 1. Bhandari, D. S., Dharmendra Tripathi, and J. Prakash. "Insight into Newtonian fluid flow and heat transfer in vertical microchannel subject to rhythmic membrane contraction due to pressure gradient and buoyancy forces." International Journal of Heat and Mass Transfer (2021): 122249. [IF: 5.584]
• 2. Kumar, Rakesh, Abhishek Kumar Tiwari, Dharmendra Tripathi, and Ashutosh Mishra. "Electromagnetic Field Induced Alterations in Fluid Flow through Lacuno-Canalicular System of Bone." International Journal of Mechanical Sciences (2021): 107036. [IF: 5.329]
• 3. V. K. Narla, Dharmendra Tripathi, D.S. Bhandari, Novel Approach of Fractional Calculus in Physiological Flow through Curved Vessels, J. Innovation Sciences and Sustainable Technologies, 1(3) (2021), 259 – 272
• 4. V. K. Narla, Dharmendra Tripathi, D.S. Bhandari, Jogendra Kumar, Peristaltic Pumping of Maxwell Fluids in a Curved Channel: a Model for Intestinal Transport, Journal of International Academy of Physical Sciences 25 (3), 371-391 (2021).
• 5. Rahul Shukla, Amit Medhavi, S. Shankar Bhatt, Raghuvir Kumar and D. Tripathi, Surface Roughness Analysis on Peristaltic Pumping Flow Model, Pramana, In Press (2021) [IF: 1.509]
• 6. Najma Saleem, Sufian Munawar, Dharmendra Tripathi, Entropy analysis in ciliary transport of radiated hybrid nanofluid in presence of electromagnetohydrodynamics and activation energy, Case Studies in Thermal Engineering, 28, (2021) 101665 [IF: 4.724]
• 7. J. Prakash, Dharmendra Tripathi, O. Anwar Bég and Vineet Srivastava, EMHD Casson Hybrid Nanofluid Flow over an Exponentially Accelerated Rotating Porous Surface, Journal of Porous Media, In Press (2021) [IF: 1.752].
• 8. Akram, J., Akbar, N.S. & Tripathi, D. Thermal Analysis on MHD Flow of Ethylene Glycol-based BNNTs Nanofluids via Peristaltically Induced Electroosmotic Pumping in a Curved Microchannel. Arab J Sci Eng (2021). https://doi.org/10.1007/s13369-021-06173-7 [IF: 1.711]
• 9. Javid, K., Hassan, M., Tripathi, D. et al. Double-diffusion convective biomimetic flow of nanofluid in a complex divergent porous wavy medium under magnetic effects. J Biol Phys (2021). https://doi.org/10.1007/s10867-021-09583-8 [IF: 1.365].
• 10. Anand Kumar Saini, Tanja Radu, Kunwar Paritosh, Vinod Kumar, Nidhi Pareek, Dharmendra Tripathi, Vivekanand Vivekanand, “Bioengineered bioreactors: A review on enhancing biomethane and biohydrogen production by CFD modeling” Bioengineered, In Press (2021) [IF: 3.269].
• 11. El Gendy, M, Beg, OA, Kadir, A, Islam, MN and Tripathi, D, Computational fluid dynamics simulation and visualization of Newtonian and non-Newtonian transport in a peristaltic micro-pump, Journal of Mechanics in Medicine and Biology, In Press (2021) [IF: 0.897].
• 12. Najma Saleem, Sufian Munawar, Dharmendra Tripathi, Thermal analysis of double diffusive electrokinetic thermally radiated TiO2/Ag/blood stream triggered by synthetic cilia under buoyancy forces and activation energy, Physica Scripta, In Press, (2021) [IF: 1.985].
• 13. D. Tripathi, J. Prakash, M.G. Reddy and J.C. Misra, Numerical Simulation of Double Diffusive Convection and Electroosmosis during Peristaltic Transport of a Micropolar Nanofluid on an Asymmetric Microchannel, Journal of Thermal Analysis and Calorimetry 143 (3), 2499-2514 (2021). [IF: 4.626]
• 14. S. Noreen, S. Waheed, DC. Lu, and D. Tripathi, Heat stream in electroosmotic bio-fluid flow in straight microchannel via peristalsis, International Communications in Heat and Mass Transfer, 123 (2021) 105180. [IF: 5.683]
• 15. Nikhil Vivek Shrivas, Abhishek Kumar Tiwari, Rakesh Kumar, Santosh Patil, Dharmendra Tripathi, Subham Badhyal, Physiological Loading-Induced Interstitial Fluid Dynamics in Osteon of Osteogenesis Imperfecta Bone, J Biomech Eng. 2021 Aug 1; 143(8):081011. doi: 10.1115/1.4050818. [IF: 2.025]
• 16. J. Akram, N.S. Akbar, & D. Tripathi, Electroosmosis augmented MHD peristaltic transport of SWCNTs suspension in aqueous media, J Therm Anal Calorim (2021). https://doi.org/10.1007/s10973-021-10562-3 [IF: 4.626]
• 17. J. Akram, , N.S. Akbar, & D. Tripathi, A Theoretical Investigation on the Heat Transfer Ability of Water-Based Hybrid (Ag–Au) Nanofluids and Ag Nanofluids Flow Driven by Electroosmotic Pumping Through a Microchannel. Arab J Sci Eng (2021). https://doi.org/10.1007/s13369-020-05265-0 [IF: 1.711]
• 18. Rakesh Kumar, Abhishek KumarTiwari, Dharmendra Tripathi, Russel P. Maind, Navin Kumar, Praveer Sihota, Sonu Ambwani, and Niti Nipun Sharma, Anatomical variations in cortical bone surface permeability: Tibia versus femur, Journal of the Mechanical Behavior of Biomedical Materials, 113, (2021), 104122. [IF: 3.372]
• 19. GENDY, MOHAMED EL, O. Anwar Beg, A. Kadir, M. N. Islam, and D. Tripathi. "Computational fluid dynamics simulation and visualization of Newtonian and non-Newtonian transport in a peristaltic micro-pump." Journal of Mechanics in Medicine and Biology 21, no. 08 (2021): 2150058.
• 20. Sandeep Singh, Kuldeep Sharma, T.Q. Bui, Closed-form solutions for modified polarization saturated models in two unequal collinear cracked piezoelectric media with coalesced interior zones, European Journal of Mechanics / A Solids (2021), 89, 104313, SCI-IF: 4.873
• 21. Sandeep Singh and Kuldeep Sharma, Riemann-Hilbert approach based analytical solutions for strip saturated two unequal collinear cracks in piezoelectric media, Strength, Fracture and Complexity (2021), 13(4),177-195, Scopus Indexed.
• 22. D. Amin, D. B. Singh, Evolution of Weak Shock Waves in Non-ideal Magnetogasdynamics, Zeitschrift für Naturforschung A (ZNA) Accepted for Publication.
• 23. D. Amin, D. B. Singh, V. K. Vats, Strong shock waves in a self-gravitating gas: A power series solution, International Journal of Applied and Computational Mathematics, 7(5), 1-20, 2021.

2020

• 1. N. K. Ranjit, G. C. Shit, D. Tripathi, Electrothermal analysis in two-layered couple stress fluid flow in an asymmetric microchannel via peristaltic pumping, J Therm Anal Calorim (2020). https://doi.org/10.1007/s10973-020-10380-z [IF: 4.626].
• 2. D.S. Bhandari, D. Tripathi and V.K. Narla, Magnetohydrodynamics based pumping Flow model with propagative rhythmic membrane contraction, Eur. Phys. J. Plus (2020) 135: 890 [IF: 3.228].
• 3. Dharmendra Tripathi, Jayavel Prakash and O. Anwar Bég, Peristaltic pumping of hybrid nanofluids in an asymmetric microchannel in presence of electromagnetic fields, ASME, Journal of Thermal Science and Engineering Applications, In Press (2020) [IF: 1.544].
• 4. Javaria Akram, Noreen Akbar, and Dharmendra Tripathi, Comparative study on ethylene glycol based Ag- Al2O3 and Al2O3 nanofluids flow driven by electroosmotic and peristaltic pumping: A nano-coolant for radiators, Physica Scripta 95, no. 11 (2020): 115208. [IF: 1.985].
• 5. J. Prakash and D. Tripathi, Study of EDL phenomenon in Peristaltic pumping of a Phan-Thien-Tanner Fluid through asymmetric channel, Korea-Australia Rheology Journal 32, no. 4 (2020): 271-285. [IF: 1.390].
• 6. D. Tripathi, J. Prakash, A. K. Tiwari and Rahmat Ellahi, Thermal, microrotation, electromagnetic field and nanoparticle shape effects on Cu-CuO/ blood flow in microvascular vessels, Microvascular Research 132 (2020): 104065. [IF: 2.730].
• 7. J. Akram, N.S. Akbar, and D. Tripathi, Blood-based graphene oxide nanofluid flow through capillary in the presence of electromagnetic fields: A Sutterby fluid model, Microvascular Research 132 (2020): 104062. [IF: 2.730].
• 8. Javaria Akram, Noreen Akbar, and Dharmendra Tripathi, Numerical simulation of Electrokinetically Driven Peristaltic Pumping of Silver-Water Nanofluids in an asymmetric microchannel, Chinese Journal of Physics 68 (2020): 745-763. [IF: 2.638].
• 9. V. K. Narla, Dharmendra Tripathi and OA Beg, Electro-osmotic Nanofluid Flow in a Curved Microchannel, Chinese Journal of Physics 67 (2020): 544-558. [IF: 2.638].
• 10. J. Akram, N.S. Akbar, and D. Tripathi, Numerical study of the electroosmotic flow of Al2O3–CH3OH Sisko nanofluid through a tapered microchannel in a porous environment. Applied Nanoscience 10, no. 11 (2020): 4161-4176. [IF: 2.880].
• 11. Dharmendra Tripathi, J Prakash, MG Reddy, and Rakesh Kumar, Numerical study of electroosmosis induced alterations in peristaltic pumping of couple stress hybrid nanofluids through microchannel, Indian Journal of Physics, In Press (2020) [IF: 1.811].
• 12. Dharmendra Tripathi, V. K. Narla, and Yasser Aboelkassem, Electrokinetic Membrane Pumping Flow Model in a Microchannel, Physics of Fluids 32, no. 8 (2020): 082004. [IF: 3.514].
• 13. A. K. Ansu, R. K. Sharma, D. Tripathi, and V. V. Tyagi, Prediction of thermal properties and reliability testing of binary eutectic mixture of polyethylene glycol 2000 and 10000 as phase change materials, ChemistrySelect 5, no. 31 (2020): 9745-9757. [IF: 1.811].
• 14. D.S. Bhandari, D. Tripathi and V.K. Narla, Pumping flow model for couple stress fluids with a propagative membrane contraction, International Journal of Mechanical Sciences 188 (2020): 105949. [IF: 4.631].
• 15. A. K. Ansu, R. K. Sharma, F. Y. Hagos, D. Tripathi, and V. V. Tyagi, Improved Thermal Energy Storage behavior of Polyethylene glycol based NEOPCM containing Aluminium oxide Nano-particles for Solar Thermal Applications, Journal of Thermal Analysis and Calorimetry, In Press (2020) [IF: 4.626].
• 16. K. Ramesh, D. Tripathi, M. M. Bhatti, and C.M. Khalique, Electro-Osmotic Flow of Hydromagnetic Dusty Viscoelastic Fluids in a Microchannel Propagated by Peristalsis, Journal of Molecular Liquids 314 (2020): 113568. [IF: 6.165].
• 17. V. K. Narla, and Dharmendra Tripathi, Entropy and Exergy Analysis on Peristaltic Pumping in a Curved Narrow Channel, Heat Transfer 49, no. 6 (2020): 3357-3373. [IF: 1.185].
• 18. D. Tripathi, Shashi Bhushan, and OA Beg, Electroosmotic Flow in a Microchannel with Complex Wavy Porous Surface, Journal of Porous Media, In Press (2020) [IF: 1.49].
• 19. Kumar, R., Tiwari, A.K., Tripathi, D. et al. Signalling molecule transport analysis in lacunar–canalicular system. Biomechanics and Modeling in Mechanobiology 19, no. 5 (2020): 1879-1896. [IF: 2.829]
• 20. Waheed, S., Noreen, S., Tripathi, D. et al. Electrothermal transport of third-order fluids regulated by peristaltic pumping. J Biol Phys 46, 45–65 (2020). [IF: 0.857]
• 21. S. Noreen,, T. Kausar, D. Tripathi, Qurat Ul Ainb, and DC. Lua, Heat transfer analysis on creeping flow Carreau fluid driven by peristaltic pumping in an inclined asymmetric channel, Thermal Science and Engineering Progress, 17, 1 June 2020, 100486.
• 22. Prakash, J., Tripathi, D. & Bég, O.A. Comparative study of hybrid nanofluids in microchannel slip flow induced by electroosmosis and peristalsis. Appl Nanosci 10, 1693–1706 (2020). [IF: 3.198]
• 23. Prakash, J., Sharma, A. & Tripathi, D. Convective heat transfer and double diffusive convection in ionic nanofluids flow driven by peristalsis and electromagnetohydrodynamics. Pramana - J Phys 94, 4 (2020). [IF: 1.185].
• 24. VK Narla, Dharmendra Tripathi and O. Anwar Bég, Analysis of Entropy Generation in Biomimetic Electroosmotic Nanofluid Pumping Through a Curved Channel with Joule Dissipation, Thermal Science and Engineering Progress 15 (2020) 100424 [IF: 1.185].
• 25. M.K. Nayak, J. Prakash, S. Shaw, D Tripathi, V.S. Pandey, O.D. Makinde, 3D Bioconvective multiple slip flow of chemically reactive Casson nanofluid with gyrotactic microorganisms, Heat Transfer-Asian Research, 49, 1, 135-153 (2020) [IF: 1.185].
• 26. Ansu, Alok Kumar, Ravi K. Sharma, Vineet V. Tyagi, Ahmet Sarı, Poobalan Ganesan, and Dharmendra Tripathi. "A cycling study for reliability, chemical stability and thermal durability of polyethylene glycols of molecular weight 2000 and 10000 as organic latent heat thermal energy storage materials." International Journal of Energy Research 44, no. 3 (2020): 2183-2195. [IF: 3.34].
• 27. Kusum Sharma, Study of Error of Approximation of Conjugate Fourier Series in Weighted Class by Almost Riesz Means, International Journal of Applied Mathematics, Vol. 33, No 5, pp. 867-877, 2020. (Scopus Index) DOI: 10.12732/ijam.v33i5.9
• 28. Kusum Sharma, Estimation of Error of Approximation in Lip (xi(t), r) class by Transform, IAENG International Journal of Applied Mathematics, Hong-Kong, Vol. 50, no. 2, pp. 251-255, 2020 (Scopus Index)
• 29. Pankaj Singh Rana and Nitin Sharma “Mathematical modeling and stability analysis of a SI type model for HIV/AIDS”, published in the Journal of Interdisciplinary Mathematics (JIM), Vol. 23 (2020), No. 1, pp. 257–273.

2019

• 1. M.K. Nayak, V.S. Pandey, D. Tripathi, N.S. Akbar, and O.D. Makinde, 3D MHD Cross flow over an exponential stretching porous surface, Heat Transfer-Asian Research, In Press (2019) [IF: 1.185].
• 2. A Sharma, D Tripathi, RK Sharma and AK Tiwari, Analysis of double diffusive convection in electroosmosis regulated peristaltic transport of nanofluids, Physica A: Statistical Mechanics and its Applications, 535 (2019) 122148. [IF: 2.50].
• 3. J. Prakash, Dharmendra Tripathi, A. K. Triwari, Sadiq M. Sait and Rahmat Ellahi, Peristaltic pumping of nanofluids through tapered channel in porous environment: Applications in blood flow, Symmetry 11(7), (2019) 868. [IF: 2.143].
• 4. J. Prakash, E.P. Siva, D. Tripathi and O. Anwar Bég, Thermal slip and radiative heat transfer effects on electro-osmotic magneto-nanoliquid peristaltic propulsion through a microchannel, Heat Transfer—Asian Research 48, no. 7 (2019): 2882-2908. [IF: 0.82].
• 5. M K Nayak, J Prakash, D Tripathi, V S Pandey, 3D radiative convective flow of ZnO-SAE50nano-lubricant in presence of varying magnetic field and heterogeneous reactions, Propulsion and Power Research 8, no. 4 (2019): 339-350.
• 6. J. Prakash, E.P. Siva, D. Tripathi and M Kothandapani, Nanofluids flow driven by peristaltic pumping in occurrence of magnetohydrodynamics and thermal radiation, Materials Science in Semiconductor Processing, 100 (2019) 290-300. [IF: 2.722].
• 7. Rakesh Kumar, Abhishek K Tiwari, Dharmendra Tripathi, Nikhil Shrivas, Fahad Nizam, Canalicular Fluid Flow Induced by Loading Waveforms: A Comparative Analysis, Journal of Theoretical Biology, 471 (2019) 59-73. [IF: 1.875].
• 8. S. Noreen, Quratulain, M. Qasim and D. Tripathi, Alteration in electroosmotic flow through a non-Darcy porous medium due to MHD and peristaltic pumping, Journal of Porous Media 22, no. 13 (2019). [IF: 1.49].
• 9. S. Noreen, Quratulain and D. Tripathi, Heat transfer analysis on electroosmotic flow via peristaltic pumping in non-Darcy porous medium, Thermal Science and Engineering Progress, 11 (2019) 254-262.
• 10. N. K. Ranjit, G. C. Shit, D. Tripathi, Entropy generation and Joule heating of two layered electroosmotic flow in the peristaltically induced micro-channel, International Journal of Mechanical Sciences, 153–154, (2019) 430-444 [IF: 4.134].
• 11. J. Prakash, Ravinder Jhorar, Dharmendra Tripathi, and Martin N. Azese, Electroosmotic flow of pseudoplastic nanoliquids via peristaltic pumping, Journal of the Brazilian Society of Mechanical Sciences and Engineering, 41:61 (2019) [IF: 1.743].
• 12. VK Narla, Dharmendra Tripathi and G. P. Rajasekhar, Time-dependent analysis of electroosmotic fluid flow in a microchannel, Journal of Engineering Mathematics, 114 (2019) 177-196 [IF: 1.146]
• 13. A. A. Farooq, D. Tripathi, Thanaa Elnaqeeb, On the propulsion of micropolar fluid inside a channel due to ciliary induced metachronal wave, Applied Mathematics and Computation 347 (2019) 225–235 [IF: 3.092].
• 14. V. K. Narla and Dharmendra Tripathi, Electroosmosis Modulated Transient Blood Flow in Curved Microvessels: Study of a Mathematical Model, Microvascular Research, 123 (2019) 25-34 [IF: 2.604].
• 15. J. Prakash, Ashu Yadav, D. Tripathi and A.K. Tiwari, Computer Modelling of Peristalsis Driven Intrauterine Fluid Flow in Presence of Electro-Magnetohydrodynamics, Eur. Phys. J. Plus (2019) 134: 81 [IF: 2.612].
• 16. J. Prakash, E.P. Siva, D. Tripathi, S. Kuharat and O. Anwar Bég, Peristaltic Pumping of Magnetic Nanofluids with Thermal Radiation and Temperature-Dependent Viscosity Effects: Modelling A Solar Magneto-Biomimetic Nanopump, Renewable Energy, 133 (2019) 1308-1326 [IF: 5.439].
• 17. Ramesh, K., Tripathi, D., Bég, O.A. et al. Slip and Hall Current Effects on Jeffrey Fluid Suspension Flow in a Peristaltic Hydromagnetic Blood Micropump. Iran J Sci Technol Trans Mech Eng 43, 675–692 (2019). [IF: 0.732]
• 18. Sandeep Singh, Kuldeep Sharma and Tinh Quoc Bui, New analytical solutions for modified polarization saturation models in piezoelectric materials, Meccanica (2019), 54 (15), 2443-2459, SCI-IF: 2.538
• 19. S. Singh, K. Sharma, R.R. Bhargava, Analytical solution for two equal collinear modified strip saturated cracks in 2-D semipermeable piezoelectric media, ZAMM-Journal of Applied Mathematics and Mechanics (2019), 99(9), e201800244, SCIE-IF:1.759
• 20. S. Singh, K. Sharma and R.R. Bhargava, "Modified strip saturated models for two equal collinear cracks with coalesced zones in piezoelectric media", Applied Mathematics and Mechanics (English Edition), 2019, 40(8), 1097-1118, SCIE-IF: 3.918

2018

• 1. Narla, V. K., Tripathi, D., & Beg, O. A., Electro-osmosis Modulated Viscoelastic Embryo Transport in Uterine Hydrodynamics: Mathematical Modelling. J Biomech Eng 141(2), 021003 (Nov 30, 2018) (10 pages) [IF: 1.916].
• 2. D. Tripathi, Shashi Bhushan, O. Anwar Bég and Noreen Sher Akbar, Transient peristaltic diffusion of nanofluids: A model of micropumps in medical engineering, Journal of Hydrodynamics, (Dec. 2018), 30(6): 774-781 [IF: 1.855].
• 3. J. Prakash, Alok K. Ansu, and D. Tripathi, Alterations in peristaltic pumping of Jeffery nanoliquids with electric and magnetic fields, Meccanica, 53 (2018) 3719–3738 [IF: 2.316].
• 4. M.K. Chaube, Ashu Yadav, and Dharmendra Tripathi, Electroosmotically induced Alterations in Peristaltic Microflows of Power Law Fluids through Physiological Vessels, Journal of the Brazilian Society of Mechanical Sciences and Engineering, 40:423 (2018). [IF: 1.627]

2017

• 1. S. Singh, K. Sharma, R.R. Bhargava, Complex variable approach in studying modified polarization saturation model in two-dimensional semipermeable piezoelectric media, Applied Mathematics and Mechanics (English Edition), 2017, 38(11), 1517-1532, SCIE-IF: 3.918
• 2. K. Sharma, T.Q. Bui, S. Singh, Numerical distributed dislocation modeling of multiple cracks in piezoelectric media considering different crack-face boundary conditions and finite size effects, Strength, Fracture and Complexity (2017) 10(1), 49-72, Scopus Indexed.

2016

• 1. K. Sharma, T.Q. Bui, R.R. Bhargava, T. Yu, J. Lei, S. Hirose, Numerical studies of an array of equidistant semi-permeable inclined cracks in 2-D piezoelectric strip using distributed dislocation method, International Journal of Solids and Structures (2016), 80, 137-145, SCI-IF: 3.667
• 2. L. P. Singh, D. B. Singh, S. D. Ram, Growth and decay of weak shock waves in magnetogasdynamics, Shock Waves, 26(6), 709-716, 2016.

2015

• 1. S. Bhattacharya, G. Pamnani, S. Sanyal, K. Sharma, Numerical simulation of crack propagation under fatigue loading in piezoelectric material using extended finite element method, International Journal of Computational Materials Science and Engineering (2015), 4(4), 155025, Scopus Indexed.

2023

• 1. Kusum Sharma, Diksha Dumka, Survey on approximation of Fourier Laguerre series by various summation methods, AIP conference Proceedings 2728, 030017 (2023).
• 2. Rajalaxmi Rath, Kuldeep Sharma, Alternative Crack-Tip Enrichment Functions for X-FEM in Arbitrary Polarized Piezoelectric Media, Frontier in Industrial and Applied Mathematics, Published online: 3rd Feb. 2023; Page Nos.: 263–275.
• 3. Rajalaxmi Rath, Kuldeep Sharma, “A review on XFEM in crack analysis of piezoelectric material” is presented in the International Conference on Technologies and Innovations for Sustainable Development, MNNIT Allahabad, Prayagraj, Uttar Pradesh held on 27th-29th, Oct. 2023.

2022

• 1. Shrivas, Nikhil Vivek, Abhishek Kumar Tiwari, Dharmendra Tripathi, and Santosh Patil. "Low-Amplitude and High-Frequency Loading Influences Interstitial Fluid Flow in Osteogenesis Imperfecta Osteon." In Advances in Mechanical and Materials Technology, pp. 769-778. Springer, Singapore, 2022.
• 2. Nitin Sharma, Pankaj Singh Rana and Sunil Singh Negi, “Mathematical modeling and case study analysis for COVID-19 pandemic in India” published in the AIP Conference Proceedings, 2435(1), 020005, (2022).
• 3. Kusum Sharma, Error of Approximation of a Function by (TCδ) Means of it Fourier-Laguerre Series, Accepted for publication in ICAES2021, AIP Proceeding, 2022.

2021

• 1. D S Bhandari and Dharmendra Tripathi, Viscoelastic fluid flow driven by non-propagative membrane contraction, 2021 J. Phys.: Conf. Ser. 1849 012018
• 2. Kumar R., Tiwari A.K., Tripathi D., Sharma N.N., Khadiya M. (2021) Fluid–Structure Interaction Modelling of Physiological Loading-Induced Canalicular Fluid Motion in Osteocyte Network. In: Revankar S., Sen S., Sahu D. (eds) Proceedings of International Conference on Thermofluids. Lecture Notes in Mechanical Engineering. Springer, Singapore. https://doi.org/10.1007/978-981-15-7831-1_3
• 3. D. Amin, D. B. Singh, V. K. Vats, Strong shock waves in a self-gravitating gas: A power series solution, AIP Conference Proceedings, 2336(1), 030004, 2021.
• 4. D. Amin, D. B. Singh, Evolution of Weak Discontinuities in a Perfectly Conducting Mixture of Gas and Dust Particles, Accepted for Publication in 4th International Conference FIAM-2021 held at SLIET Longowal during December 21-22, 2021.
• 5. Sandeep Singh and Kuldeep Sharma, Complex Variable Solution for Mode-III Quadratically Varying PS Model in Piezoelectric Media, IOP Conference Series: Materials Science and Engineering, 2021; 1033(1), 012044.
• 6. Kuldeep Sharma and Sandeep Singh, Numerical studies for generalized modified polarization saturation model in piezoelectric media, Recent Advances in Computational Mechanics and Simulations (Springer Publications), 2021; pp. 419-428.
• 7. Kusum Sharma, Diksha Dumka, Survey on the approximation of Fourier-Laguerre series by various summation methods, AIP Proceeding, 2021 (in press).

2020

• 1. Pankaj Singh Rana and Nitin Sharma, “Mathematical modeling and analysis with various parameters, for infection dynamics of Tuberculosis”, published in the Journal of Physics: Conference Series, 1504(1), 012007, (2020).
• 2. Dharmendra Tripathi and D. S. Bhandari, Non-Newtonian fluid flow driven by membrane pumping, 65th Congress of Indian Society of Theoretical and Applied Mechanics (ISTAM 2020), December 9-12, 2020.
• 3. D. S. Bhandari and Dharmendra Tripathi, MHD pumping flow model with membrane contraction, 65th Congress of Indian Society of Theoretical and Applied Mechanics (ISTAM 2020), December 9-12, 2020.
• 4. Sandeep Singh and Kuldeep Sharma, Complex Variable Solution for Mode-III Linearly Varying Polarization Saturation Model in Piezoelectric Media, AIP Conference Proceedings, 2020; 2253(1), pp. 020016.

2019

• 1. J. Prakash, and D. Tripathi “Electroosmotic flow of Hybrid Nanofluids in asymmetric microchannel with Low Reynolds number”, in “64th Congress of the ISTAM held on December 9-12, 2019 organized by School of Mechanical Sciences and School of Basic Sciences (Mathematics) at IIT Bhubaneswar
• 2. Rakesh Kumar, Salil Khanna, Abhishek Kumar Tiwari, Dharmendra Tripathi, Niti Nipun Sharma “Estimation of Loading-Driven Fluid-Flow Pattern in Lacunar-Canalicular Space Using Fluid Structure Interaction” in National Conference on Recent Advancement in Physical Sciences 2019, 19th -20th December 2019, National Institute of Technology, Uttarakhand, India
• 3. Abhishek Kumar Tiwari, Rakesh Kumar, Dharmendra Tripathi, Milan Khadiya “Fluid-Structure Interaction Modelling of Physiological Loading-Induced Canalicular Fluid Motion in Osteocyte Network” in International Conference on Advances in Mechanical Engineering and Nanotechnology (ICAMEN 2019), 8-9 March, 2019, Manipal University Jaipur, India
• 4. Lakshya Khurana, Ashish Kumar Srivastava and Dharmendra Tripathi, Elastic Properties of CNT-Reinforced Silver Nanocomposites Using FEM, Advanced Materials pp 365-378, 2019
• 5. Kusum Sharma and S. S. Malik, A study on Degree of Approximation of a Function belonging to Weighted Class by Product Summability of Fourier Series’ AIP Conference Proceedings 2142, 170010, 2019 https:/doi.org/10.1063/1.5122607 Published Online: 29 August 2019. (Scopus Index)

2018

• 1. Nitin Sharma and Madhvi Shakya, “Molecular Dynamics Simulations Of A Protein In Water And In Vacuum To Study The Solvent Effect”, published in Theory and Applications, ICHSA (2018).
• 2. A. Jha, V. Kukshal, A. Sharma, K. Sharma, Numerical prediction of plastic zone length in straight edge cracked plate using XFEM, AIP Conference Proceedings , 2018; 1975 (1), pp. 030003.
• 3. D. Tripathi, Shashi Bhushan, Ashu Yadav and Ashish Sharma, Mathematical Study of Peristalsis in a Presence of Electrokinetic Transport in Parallel Plate Microchannel, Lect. Notes Mechanical Engineering, M.K. Singh et al. (Eds): In Applications of Fluid Dynamics, pp. 273-281. Springer, Singapore, 2018.
• 4. Noreen Sher Akbar, Dharmendra Tripathi and Zafar Hayat Khan, Numerical Simulation of Nanoparticles with Variable Viscosity over a Stretching Sheet, Numerical Simulations in Engineering and Science Edited by Srinivasa Rao, IntechOpen, 2018.

2017

• 1. K. Sharma, Sandeep Singh, Numerical Studies of Some Modified Polarization Saturation Models in 2-D Semipermeable Piezoelectric Media Using Distributed Dislocation Method, published in the proceedings of the International Conference on Advances in Computational Mechanics 2017, 79-94.

2015

• 1. K. Sharma, A numerical study of semipermeable two equal collinear cracks in 2-D finite Magnetoelectroelastic solid: the distributed dislocation technique, published in the e-proceedings of the 60th Congress of ISTAM held at MNIT Jaipur during December 16-19, 2015.
• 2. Sandeep Singh, K. Sharma, R. R. Bhargava, Complex variable approach to study two-equal-collinear semipermeable interface cracks in 2-D piezoelectric bimaterials published in the e-proceedings of the 60th Congress of ISTAM held at MNIT Jaipur during December 16-19, 2015.
• 3. K. Sharma, Volume fraction and finite specimen size effects on a limited permeable inclined crack in 2D Magnetoelectroelastic media using distributed dislocation method published in proceedings of 3rd Polish Congress of Mechanics, Vol. 2 (2015), 859-860.
• 4. K. Sharma, Sandeep Singh, R.R. Bhargava, Numerical Studies of Semipermeable Inclined Crack in 2D Finite Piezoelectric Media using Distributed Dislocation Method, Presented at ICAMS 2015, GSSDGS Khalsa College Patiala and published in Mathematical Sciences Research Journal ISSN 2278-8697.

Books

2023

• 1. Amit Soni, D. Tripathi, Jagrati Sahariya, and Kamal Nayan Sharma, Eco-Materials and Green Energy for a Sustainable Future, CRC Press | Taylor & Francis Accepted (2023)
• 2. D. Tripathi, Ravi K. Sharma, Hakan F. Oztop and R. Natarajan, Nanomaterials and Nanoliquids: Applications in Energy and Environment, Springer (2023), ISBN 978-981-99-6923-4. https://doi.org/10.1007/978-981-99-6924-1

2022

• 1. D. Tripathi, Ravi K. Sharma and Hakan F. Oztop, Advancements in Nanotechnology for Energy and Environments, Springer (In Press 2022)
• 2. Amit Soni, D. Tripathi, Jagrati Sahariya, and Kamal Nayan Sharma, Energy Conversion & Green Nanotechnology, CRC Press (In Press 2022)

2021

• 1. D. Tripathi and Ravi K. Sharma, Energy Systems and Nanotechnology, Springer-2021, ISBN 978-981-16-1256-5

Book Chapters

2022

• 1. Nikhil Vivek Shrivas, Abhishek Kumar Tiwari, Dharmendra Tripathi, Santosh Patil, Low-Amplitude and High-Frequency Loading Influences Interstitial Fluid Flow in Osteogenesis Imperfecta Osteon, Book: Advances in Mechanical and Materials Technology, Editors: Prof. Kannan Govindan, Dr. Harish Kumar, Dr. Sanjay Yadav, Publisher: Lecture Notes in Mechanical Engineering Springer Singapore, ISBN: 978-981-16-2793-4, 2022.
• 2. Jhorar R., Bhushan S., Sharma R., Tripathi D. (2022) Numerical Investigation of Electro-osmotic Flow of Fluid in Tapered Microchannel. In: Bansal R.C., Agarwal A., Jadoun V.K. (eds) Advances in Energy Technology. Lecture Notes in Electrical Engineering, vol 766. Springer, Singapore. https://doi.org/10.1007/978-981-16-1476-7_66

2021

• 1. Garvandha M., Narla V.K., Tripathi D., Anwar Bég O. (2021) Modelling the Impact of Melting and Nonlinear Radiation on Reactive Buongiorno Nanofluid Boundary Layer Flow from an Inclined Stretching Cylinder with Cross-diffusion and Curvature Effects. In: Tripathi D., Sharma R.K. (eds) Energy Systems and Nanotechnology. Advances in Sustainability Science and Technology. Springer, Singapore. https://doi.org/10.1007/978-981-16-1256-5_15
• 2. Tripathi D., Prakash J., Anwar Bég O., Kumar R. (2021) Thermal Analysis of γAl2O3/H2O and γAl2O3/C2H6O2 Elastico-Viscous Nanofluid Flow Driven by Peristaltic Wave Propagation with Electroosmotic and Magnetohydrodynamic Effects: Applications in Nanotechnological Energy Systems. In: Tripathi D., Sharma R.K. (eds) Energy Systems and Nanotechnology. Advances in Sustainability Science and Technology. Springer, Singapore. https://doi.org/10.1007/978-981-16-1256-5_13

2020

• 1. Prakash, J., M. Gnaneswara Reddy, D. Tripathi, and Abhishek Kumar Tiwari. "A Model for Electro-osmotic Flow of Pseudoplastic Nanofluids in Presence of Peristaltic Pumping: An Application to Smart Pumping in Energy Systems." In Nanotechnology for Energy and Environmental Engineering, pp. 185-213. Springer, Cham, 2020. ISBN 978-3-030-33773-5, 2020

2018

• 1. D. Tripathi, Shashi Bhushan, Ashu Yadav and Ashish Sharma, Mathematical Study of Peristalsis in a Presence of Electrokinetic Transport in Parallel Plate Microchannel, Lect. Notes Mechanical Engineering, M.K. Singh et al. (Eds): In Applications of Fluid Dynamics, pp. 273-281. Springer, Singapore, 2018.
• 2. Noreen Sher Akbar, Dharmendra Tripathi and Zafar Hayat Khan, Numerical Simulation of Nanoparticles with Variable Viscosity over a Stretching Sheet, Numerical Simulations in Engineering and Science Edited by Srinivasa Rao, IntechOpen, 2018.