Person Profile
- Overview
- Research Groups 1
- Datasets 21
- Publications 15
- Information Products 0
Narendra Dewangan
Graduate StudentUniversity of Houston / Department of Chemical and Biomolecular Engineering
narendra7k7d@gmail.com
Motion of microswimmers near a weakly deforming interface
Published On: Aug 02 2017 16:12 UTC
File Format: dat, txt
UDI: R5.x285.000:0001
File Size: 2.54 MB
Level of fimbriation alters the adhesion of Escherichia coli bacteria to interfaces
Published On: Aug 01 2017 20:21 UTC
File Format: xlsx, rtf
UDI: R5.x285.000:0002
File Size: 70.84 KB
Modeling of active swimmer suspensions and their interactions with the environment
Published On: Aug 16 2017 13:25 UTC
File Format: txt
UDI: R5.x285.000:0003
File Size: 2.84 KB
Dataset for: Hydrodynamics-mediated trapping of micro-swimmers near drops
Published On: Jan 24 2018 19:55 UTC
File Format: xlsx, txt
UDI: R5.x285.000:0004
File Size: 2.74 MB
Dataset for: Point force singularities outside a drop covered with an incompressible surfactant: Image systems and their applications
Published On: Jan 02 2018 21:07 UTC
File Format: dat, txt
UDI: R5.x285.000:0005
File Size: 18.56 KB
Microscopy videos of microbial motility at high hydrostatic pressure
Published On: Jan 31 2020 15:57 UTC
File Format: avi, xlsx
UDI: R5.x285.000:0006
File Size: 156.17 GB
Dataset for: Combined influence of hydrodynamics and chemotaxis in the distribution of microorganisms around spherical nutrient sources
Published On: Aug 06 2018 21:51 UTC
File Format: dat, txt
UDI: R5.x285.000:0007
File Size: 3.69 MB
Adhesion of Marinobacter hydrocarbonoclasticus to surfactant-decorated oil droplets
Published On: Aug 14 2018 20:29 UTC
File Format: avi, bmp, docx, tif, txt, xlsx
UDI: R5.x285.000:0008
File Size: 9.9 GB
Dataset for: Nutrient uptake by chemotactic microorganisms in presence of rising oil drops
Published On: Jul 06 2018 16:41 UTC
File Format: dat, txt
UDI: R5.x285.000:0009
File Size: 15.11 GB
Dataset for: Adhesion of Marinobacter hydrocarbonoclasticus to Surfactant-Decorated Dodecane Droplets
Published On: Dec 27 2018 23:51 UTC
File Format: tif, docx, xlsx
UDI: R5.x285.000:0010
File Size: 422.46 MB
Dataset for: Hydrodynamic interaction enhances colonization of sinking nutrient sources by motile microorganisms
Published On: Mar 25 2019 16:27 UTC
File Format: txt, mat
UDI: R5.x285.000:0011
File Size: 220.39 MB
Dataset for: Chemotaxis in shear flow: Similarity solutions of the steady‐state chemoattractant and bacterial distributions
Published On: Aug 02 2019 22:03 UTC
File Format: nb, m, xlsx, txt
UDI: R5.x285.000:0012
File Size: 578.35 KB
Dataset for: Rotating oil droplets driven by motile bacteria at interfaces
Published On: Jan 10 2020 20:15 UTC
File Format: avi, db, docx, tif, xlsx
UDI: R5.x285.000:0013
File Size: 33.65 GB
Dataset for: Bacterial motility enhances adhesion to oil droplets
Published On: Aug 11 2020 21:50 UTC
UDI: R5.x285.000:0014
File Size: 9.18 GB
Bacteria aggregation at various concentration of surfactants
Published On: Jun 18 2020 15:41 UTC
File Format: xlsx, jpg, tiff
UDI: R5.x285.000:0015
File Size: 462.22 MB
Effect of pressure and temperature on growth of hydrocarbon-degrading bacteria
Published On: Apr 21 2020 14:35 UTC
File Format: xlsx
UDI: R5.x285.000:0016
File Size: 20.9 KB
Dataset for: Hydrodynamic attraction of bacteria to gas and liquid interfaces
Published On: Jan 16 2020 21:55 UTC
File Format: dat, mat, txt
UDI: R5.x285.000:0018
File Size: 3.61 GB
Impacts of pressure on the activity of hydrocarbon degrading three strains of bacteria
Published On: Sep 14 2020 17:06 UTC
File Format: xlsx, fcs
UDI: R5.x285.000:0019
File Size: 1.22 GB
Hexadecane degradation from bacteria strains Alcanivorax and Shewanella
Published On: Sep 14 2020 20:26 UTC
File Format: xlsx, csv
UDI: R5.x285.000:0020
File Size: 18.4 KB
Ahmadzadegan, A., Wang, S., Vlachos, P. P., & Ardekani, A. M. (2019). Hydrodynamic attraction of bacteria to gas and liquid interfaces. Physical Review E, 100(6). doi:10.1103/physreve.100.062605
Desai, N., & Ardekani, A. M. (2017). Modeling of active swimmer suspensions and their interactions with the environment. Soft Matter, 13(36), 6033–6050. doi:10.1039/c7sm00766c
Desai, N., & Ardekani, A. M. (2018). Combined influence of hydrodynamics and chemotaxis in the distribution of microorganisms around spherical nutrient sources. Physical Review E, 98(1). doi:10.1103/physreve.98.012419
Desai, N., & Ardekani, A. M. (2020). Biofilms at interfaces: microbial distribution in floating films. Soft Matter, 16(7), 1731–1750. doi:10.1039/c9sm02038a
Desai, N., Dabiri, S., & Ardekani, A. M. (2018). Nutrient uptake by chemotactic microorganisms in presence of rising oil drops. International Journal of Multiphase Flow. doi:10.1016/j.ijmultiphaseflow.2018.06.016
Desai, N., Shaik, V. A., & Ardekani, A. M. (2018). Hydrodynamics-mediated trapping of micro-swimmers near drops. Soft Matter, 14(2), 264–278. doi:10.1039/c7sm01615h
Desai, N., Shaik, V. A., & Ardekani, A. M. (2019). Hydrodynamic Interaction Enhances Colonization of Sinking Nutrient Sources by Motile Microorganisms. Frontiers in Microbiology, 10. doi:10.3389/fmicb.2019.00289
Dewangan, N. K., & Conrad, J. C. (2018). Adhesion of Marinobacter hydrocarbonoclasticus to Surfactant-Decorated Dodecane Droplets. Langmuir, 34(46), 14012–14021. doi:10.1021/acs.langmuir.8b02071
Dewangan, N. K., & Conrad, J. C. (2019). Rotating oil droplets driven by motile bacteria at interfaces. Soft Matter, 15(45), 9368–9375. doi:10.1039/c9sm01570a
Dewangan, N. K., & Conrad, J. C. (2020). Bacterial Motility Enhances Adhesion to Oil Droplets. Soft Matter. doi:10.1039/d0sm00944j
Li, G., & Ardekani, A. M. (2016). Collective Motion of Microorganisms in a Viscoelastic Fluid. Physical Review Letters, 117(11). doi:10.1103/physrevlett.117.118001
McLay, R. B., Nguyen, H. N., Jaimes-Lizcano, Y. A., Dewangan, N. K., Alexandrova, S., Rodrigues, D. F., … Conrad, J. C. (2017). Level of Fimbriation Alters the Adhesion of Escherichia coli Bacteria to Interfaces. Langmuir, 34(3), 1133–1142. doi:10.1021/acs.langmuir.7b02447
Shaik, V. A., & Ardekani, A. M. (2017). Motion of a model swimmer near a weakly deforming interface. Journal of Fluid Mechanics, 824, 42–73. doi:10.1017/jfm.2017.285