CLICK ON IMAGES TO VISIT THE PUBLISHED ARTICLE
26. "In-situ synthesis of reagents in paper-based analytical devices using paper stacking", Analytical Methods, 2022
Chauhan A#, Mittal M#, Toley BJ
# these authors contributed equally
Chauhan A#, Mittal M#, Toley BJ
# these authors contributed equally
25. "A large-volume sputum transportation and dry storage device for molecular and culture-based diagnosis of tuberculosis", Lab on a Chip, 2022
Dsouza A#, Jangam S#, Soni S, Agarwal P, Naik V, Manjula J, Nair C, Toley BJ
# these authors contributed equally
Dsouza A#, Jangam S#, Soni S, Agarwal P, Naik V, Manjula J, Nair C, Toley BJ
# these authors contributed equally
24. "Unreacted labelled PCR primers inhibit the signal in a nucleic acid lateral flow assay as elucidated by a transport reaction model", ACS Measurement Science Au, 2022
Agarwal P, Toley BJ
Agarwal P, Toley BJ
23. "Paper-based nucleic acid sample preparation for point-of-care diagnostics ", Sensors and Actuators B, 2022
Soni S, Toley BJ
Soni S, Toley BJ
22. "Barrier-free microfluidic paper analytical devices for multiplex colorimetric detection of analytes ", Analytical Chemistry, 2021
Chauhan A, Toley BJ
Chauhan A, Toley BJ
21. "Modelling-guided design of paper microfluidic networks: a case study of sequential fluid delivery ", ACS Sensors, 2021
Rath D, Toley BJ
Rath D, Toley BJ
20. "A stoichiometric and pseudo-kinetic model of loop mediated isothermal amplification", Computational and Structural Biotechnology Journal, 2020
Kaur N, Thota N, Toley BJ
Kaur N, Thota N, Toley BJ
19. "Development of an experimental method to overcome the hook effect in sandwich-type lateral flow immunoassays guided by computational modelling", Sensors and Actuators B, 2020
Sathishkumar N, Toley BJ
Sathishkumar N, Toley BJ
18. "Paper stacks for uniform rehydration of dried reagents in paper microfluidic devices", Scientific Reports, 2019
Das D, Dsouza A, Kaur N, Soni S, Toley BJ
Das D, Dsouza A, Kaur N, Soni S, Toley BJ
17. "A modular paper-and-plastic device for tuberculosis nucleic acid amplification testing in limited-resource settings", Scientific Reports, 2019
Kaur N, Michael JS, Toley BJ
Kaur N, Michael JS, Toley BJ
16. "Experimental measurement of parameters governing flow rates and partial saturation in paper-based microfluidic devices", Langmuir, 2018
Rath D, Sathishkumar N, Toley BJ
Rath D, Sathishkumar N, Toley BJ
15. "Multidimensional paper networks: a new generation of low-cost pump-free microfluidic devices", Journal of the Indian Institute of Science, 2018
Toley BJ, Das D, Ganar KA, Kaur N, Meena M, Rath D, Sathishkumar N, Soni S
Toley BJ, Das D, Ganar KA, Kaur N, Meena M, Rath D, Sathishkumar N, Soni S
14. "Paper-based nucleic acid amplification tests for point-of-care diagnostics", Analyst, 2018
Kaur N, Toley BJ
Kaur N, Toley BJ
13. "Investigations into the cancer stem cell niche using in-vitro 3-D tumor models and microfluidics", Biotechnology Advances, 2018
Sreepadmanabh M, Toley BJ
Sreepadmanabh M, Toley BJ
12. “A rapid, instrument-free, sample-to-answer nucleic acid amplification test”, Lab on a Chip, 2016
Lafleur LK, Bishop JD, Heiniger EK, Gallagher RP, Wheeler MD, Kauffman PC, Zhang XH, Kline EC, Buser JR, Kumar R, Byrnes SA, Vermeulen N, Scarr NK, Belousov Y, Mahoney W, Toley BJ, Ladd PD, Lutz BR, Yager P
Lafleur LK, Bishop JD, Heiniger EK, Gallagher RP, Wheeler MD, Kauffman PC, Zhang XH, Kline EC, Buser JR, Kumar R, Byrnes SA, Vermeulen N, Scarr NK, Belousov Y, Mahoney W, Toley BJ, Ladd PD, Lutz BR, Yager P
11. “Isothermal Strand Displacement Amplification (iSDA): A rapid and sensitive method of nucleic acid amplification for point-of-care diagnosis”, Analyst, 2015, 140, 7540-7549
Toley BJ, Covelli I, Belousov Y, Ramachandran S, Kline E, Scarr N, Vermeulen N, Mahoney W, Lutz BR, Yager P
Toley BJ, Covelli I, Belousov Y, Ramachandran S, Kline E, Scarr N, Vermeulen N, Mahoney W, Lutz BR, Yager P
10. “A versatile valving toolkit for automating fluidic operations in paper microfluidic devices”, Lab on a Chip, 2015, 15, 1432-1444.
Toley BJ, Wang JA, Gupta M, Buser JR, Lafleur LK, Lutz BR, Fu E, Yager P
Toley BJ, Wang JA, Gupta M, Buser JR, Lafleur LK, Lutz BR, Fu E, Yager P
9. “Swab sample transfer for point-of-care diagnostics: characterization of swab types and manual agitation methods”, PLOS ONE, 2014, 9(9), e105786
Panpradist N, Toley BJ, Zhang X, Byrnes S, Buser JR, Englund JA, Lutz BR,
Panpradist N, Toley BJ, Zhang X, Byrnes S, Buser JR, Englund JA, Lutz BR,
8. “Tunable delay-shunts for paper microfluidic devices”, Analytical Chemistry, 2013, 85(23), 11545-11552
Toley BJ, McKenzie B, Liang T, Buser J, Yager P, Fu E
Toley BJ, McKenzie B, Liang T, Buser J, Yager P, Fu E
7. “Microfluidic technique to measure intratumoral transport and calculate drug efficacy shows that binding is essential for doxorubicin and release hampers Doxil”, Integrative Biology, 2013, 5, 1184-1196
Toley BJ, Tropeano Lovatt ZG, Harrington JL, Forbes NS
Toley BJ, Tropeano Lovatt ZG, Harrington JL, Forbes NS
6. “CO2 laser cutting and ablative etching for the fabrication of paper-based devices”, Journal of Micromechanics and Microengineering, 2013, 23, DOI: 10.1088/0960-1317/23/6/067003
Spicar-Mihalic P*, Toley BJ*, Liang T, Yager P, Fu E, *equal contribution
Spicar-Mihalic P*, Toley BJ*, Liang T, Yager P, Fu E, *equal contribution
5. “Construction of an inducible cell-communication system that amplifies Salmonella gene expression in tumor tissue”, Biotechnology and Bioengineering, 2013, 110(6), 1769-1781
Dai Y, Toley BJ, Swofford C, Forbes NS
Dai Y, Toley BJ, Swofford C, Forbes NS
4. “Motility is critical for effective distribution and accumulation of bacteria in tumor tissue in vitro”, Integrative Biology, 2012, 4, 165-176
Toley BJ, Forbes NS
Toley BJ, Forbes NS
3. “Micrometer-scale oxygen delivery rearranges cells and prevents necrosis in tumor tissue in vitro”, Biotechnology Progress, 2012, 28(2), 515-525
Toley BJ, Park J, Kim BJ, Venkatasubramanian R, Maharbiz MM, Forbes NS
Toley BJ, Park J, Kim BJ, Venkatasubramanian R, Maharbiz MM, Forbes NS
2. “Microfluidic device for recreating a tumor microenvironment in vitro”, Journal of Visualized Experiments, 2011, 57, DOI: 10.3791/2425
Toley BJ*, Ganz DE*, Walsh CL, Forbes NS; *equal contribution
Toley BJ*, Ganz DE*, Walsh CL, Forbes NS; *equal contribution
1. “Tuning payload delivery in tumor cylindroids using gold nanoparticles”, Nature Nanotechnology, 2010 Jun, 5(6), 465-72
Kim BJ, Han G, Toley BJ, Kim C, Rotello VM, Forbes NS
Kim BJ, Han G, Toley BJ, Kim C, Rotello VM, Forbes NS