Datta Lab  |  Soft Materials in Complex Environments
Home.   Research.   People.   Videos.   Teaching.   Contact.   Fun.   News.   Join!
42. Multi-scale dynamics of colloidal deposition and erosion in porous media
N. Bizmark, J. Schneider, R. D. Priestley, S. S. Datta, in press, Science Advances (2020).

41. Chemotactic migration of bacteria in porous media
T. Bhattacharjee, D. B. Amchin, J. A. Ott, F. Kratz, S. S. Datta, pre-print available for free on biorxiv (2020).

40. Bistability in the unstable flow of polymer solutions through pore constriction arrays
C. A. Browne, A. Shih, S. S. Datta, Journal of Fluid Mechanics (2020).
Pre-print available for free at arxiv.

39. In Silico Design Enables the Rapid Production of Surface-Active Colloidal Amphiphiles
T. I. Morozova, V. E. Lee, N. Bizmark, S. S. Datta, R. K. Prud'homme, A. Nikoubashman, R. D. Priestley,
ACS Central Science (2020).

38. Confinement and activity regulate bacterial motion in porous media
T. Bhattacharjee and S. S. Datta, Soft Matter (2019).
Pre-print available for free at arxiv.

37. Scaling law for cracking in shrinkable granular packings
H. J. Cho and S. S. Datta, Physical Review Letters (2019).
Pre-print available for free at arxiv.

36. Pore-scale flow characterization of polymer solutions in microfluidic porous media
C. A. Browne, A. Shih, S. S. Datta, Small (2019).
Pre-print available for free at arxiv.

35. Controlling capillary fingering using pore size gradients in disordered media
N. B. Lu, C. A. Browne, D. B. Amchin, J. K. Nunes, S. S. Datta, Physical Review Fluids (2019).
Selected as an Editor's Suggestion in Physical Review Fluids.
Pre-print available for free at arxiv.

34. Crack formation and self-closing in shrinkable, granular packings
H. J. Cho, N. B. Lu, M. P. Howard, R. A. Adams, S. S. Datta, Soft Matter (2019).
Pre-print available for free at arxiv.

33. Bacterial hopping and trapping in porous media
T. Bhattacharjee and S. S. Datta, Nature Communications (2019).
Pre-print available for free at arxiv.

32. Transport of Polymer Colloids in Porous Media
N. Bizmark, J. Schneider, E. K. De Jong, S. S. Datta,
book chapter in Polymer Colloids from RSC Publishing (2019).

31. Cooperative size sorting of deformable particles in porous media
M. G. O'Connell*, N. B. Lu*, C. A. Browne*, S. S. Datta, Soft Matter (2019).

30. High-molecular-weight polymers from dietary fiber
drive aggregation of particulates in the murine small intestine

A. Preska Steinberg, S. S. Datta, T. Naragon, J. C. Rolando, S. R. Bogatyrev, R. F. Ismagilov, eLife (2019).
Pre-print available for free at biorxiv.

29. Adsorption and denaturation of structured polymeric nanoparticles at an interface
C. Tian, J. Feng, H. J. Cho, S. S. Datta, R. K. Prud'homme, Nano Letters (2018).

28. Suppressing viscous fingering in structured porous media
H. S. Rabbani, D. Or, Y. Liu, C-Y Lai, N. B. Lu, S. S. Datta, H. A. Stone, and N. Shokri,
Proceedings of the National Academy of Sciences (2018).

27. Microfluidic Model Porous Media: Fabrication and Applications
A. Anbari, H-T Chien, S. S. Datta, W. Deng, D. A. Weitz, and J. Fan, Small (2018).

26. Polymers in the gut compress the colonic mucus hydrogel
S. S. Datta, A. Preska Steinberg, and R. F. Ismagilov,
Proceedings of the National Academy of Sciences (2016).

25. Individually addressable arrays of replica microbial cultures
enabled by splitting SlipChips

L. Ma, S. S. Datta, M. A. Karymov, Q. Pan, S. Begolo, and R. F. Ismagilov, Integrative Biology (2014).

24. Fluid breakup during simultaneous two-phase flow
through a three-dimensional porous medium

S. S. Datta, J. B. Dupin, and D. A. Weitz, Physics of Fluids.
This work was featured as an Editor’s Pick in Physics of Fluids
and in the textbook Multiphase Flow in Permeable Media.
Pre-print available for free at arxiv.

23. Mobilization of a trapped non-wetting fluid
from a three-dimensional porous medium

S. S. Datta, T. S. Ramakrishnan, and D. A. Weitz, Physics of Fluids (2014).
This work was featured in the textbook Multiphase Flow in Permeable Media.
Pre-print available for free at arxiv.

22. Controlling the morphology of polyurea microcapsules using microfluidics
I. Polenz, S. S. Datta, and D. A. Weitz, Langmuir (2014).

21. Double emulsion templated solid microcapsules: mechanics and controlled release
S. S. Datta*, A. Abbaspourrad*, E. Amstad, J. Fan, S. H. Kim, M. Romanowsky, H. C. Shum,
B. Sun, A. S. Utada, M. Windbergs, S. Zhou, and D. A. Weitz, Advanced Materials (2014).

20. The microfluidic post-array device: high throughput production of single emulsion drops
E. Amstad, S. S. Datta, and D. A. Weitz, Lab on a Chip (2013).

19. Expansion and rupture of pH-responsive microcapsules
S. S. Datta*, A. Abbaspourrad*, and D. A. Weitz, Materials Horizons (2013).
Pre-print available for free at arxiv.

18. Controlling release from pH-responsive microcapsules
A. Abbaspourrad*, S. S. Datta*, and D. A. Weitz, Langmuir (2013).

17. Ultra-thin shell double emulsion templated giant unilamellar lipid vesicles
with controlled microdomain formation

L. Arriaga, S. S. Datta, S. H. Kim, E. Amstad, F. Monroy, and D. A. Weitz, Small (2013).

Getting out of a tight spot: physics of flow through porous materials
S. S. Datta, PhD thesis, Harvard University (2013).

16. Spatial fluctuations of fluid velocities in flow through a three-dimensional porous medium
S. S. Datta, H. Chiang, T. S. Ramakrishnan, and D. A. Weitz, Physical Review Letters (2013).
Pre-print available for free at arxiv.

15. Thermally switched release from nanoparticle colloidosomes
S. Zhou*, J. Fan*, S. S. Datta, M. Guo, X. Guo, and D. A. Weitz, Advanced Functional Materials (2013).

14. Drainage in a model stratified porous medium
S. S. Datta and D. A. Weitz, EPL (2013).

13. Visualizing multiphase flow and trapped fluid configurations
in a model three-dimensional porous medium

A. T. Krummel*, S. S. Datta*, S. Munster, and D. A. Weitz, AIChE J (2013).
Pre-print available for free at arxiv.

12. Microfluidic fabrication of stable gas-filled microcapsules
for acoustic contrast enhancement

A. Abbaspourrad, W. J. Duncanson, N. Lebedeva, S. H. Kim, A. Zhushma,
S. S. Datta, S. S. Sheiko, M. Rubinstein, and D. A. Weitz, Langmuir (2013).

11. How does a porous shell collapse?
Delayed buckling and guided folding of inhomogeneous capsules

S. S. Datta, S-H Kim, J. Paulose, A. Abbaspourrad, D. R. Nelson, and D. A. Weitz,
Physical Review Letters (2012).
Pre-print available for free at arxiv.
This work was featured on the cover of Physical Review Letters.

10. Rheology of attractive emulsions
S. S. Datta, D. D. Gerrard, T. S. Rhodes, T. G. Mason, and D. A. Weitz, Physical Review E (2011).
Pre-print available for free at arxiv.

9. Buckling and crumpling of nanoparticle-coated droplets
S. S. Datta, H. C. Shum, and D. A. Weitz, Langmuir (2010).
Pre-print available for free at arxiv.

8. Wetting and energetics in nanoparticle etching of graphene
S. S. Datta, Journal of Applied Physics (2010).
Pre-print available for free at arxiv.
This work was featured in The Virtual Journal of Nanoscale Science and Technology.

7. Gate coupling to nanoscale electronics
S. S. Datta, D. R. Strachan, A. T. Johnson, Physical Review B (2009).
Pre-print available for free at arxiv.
This work was featured in The Virtual Journal of Nanoscale Science and Technology.

6. Surface potentials and layer charge distributions in few-layer graphene
S. S. Datta, D. R. Strachan, E. J. Mele, A. T. Johnson, Nano Letters (2009).
Pre-print available for free at arxiv.
This work was featured on the cover of Nano Letters.

5. Crystallographic etching of few-layer graphene
S. S. Datta, D. R. Strachan, S. M. Khamis, A. T. Johnson, Nano Letters (2008).
Pre-print available for free at arxiv.
This work was featured in Nature Nanotechnology.

4. Real-time TEM imaging of the formation of crystalline nanoscale gaps
D. R. Strachan, D. E. Johnston, B. S. Guiton, S. S. Datta, P. K. Davies,
D. A. Bonnell, A. T. Johnson, Physical Review Letters (2008).
This work was featured in The Virtual Journal of Nanoscale Science and Technology.

3. Electrostatic force microscopy of nanofibers and carbon nanotubes:
Quantitative analysis using theory and experiment

S. S. Datta, C. Staii, N. J. Pinto, D. R. Strachan, A. T. Johnson,
Materials Research Society Symposium Proceedings (2007).

2. Functionalized carbon nanotubes for detecting viral proteins
Y-B Zhang, M. Kanungo, A. J. Ho, P. Freimuth, D. van der Lelie, M. Chen, S. M. Khamis, S. S. Datta, A. T. Johnson, B. Panessa-Warren, J. A. Misewich, S. S. Wong, Nano Letters (2007).

1. Detection of viral proteins using human receptor functionalized carbon nanotubes
M. Chen, S. M. Khamis, S. S. Datta, Y-B Zhang, M. Kanungo, A. J. Ho, P. Freimuth, D. van der Lelie, A. T. Johnson, J. A. Misewich, S. S. Wong, Materials Research Society Symposium Proceedings (2007).

* denotes co-first authors.

© 2019 Datta Lab | Princeton University. All rights reserved.