Jagotamoy Das
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Explore the profile of Jagotamoy Das including associated specialties, affiliations and a list of published articles.
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40
Citations
777
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Recent Articles
1.
Wu Y, Jia J, Das J, Riordan K, Flynn C, Wang Y, et al.
J Am Chem Soc
. 2025 Feb;
147(9):7868-7874.
PMID: 39989312
Nanomaterials have extensive applications in the development of sensitive biosensors, but the influence of their specific structural properties remains unclear. This work presents a platform that can provide mechanistic insight...
2.
Flynn C, Riordan K, Young T, Chang D, Wu Z, Isaacson S, et al.
ACS Sens
. 2024 Jul;
9(8):3864-3869.
PMID: 39074375
The detection of small molecules beyond glucose remains an ongoing challenge in the field of biomolecular sensing owing to their small size, diverse structures, and lack of alternative non-enzymatic sensing...
3.
Chen K, Duong B, Ahmed S, Dhavarasa P, Wang Z, Labib M, et al.
Nat Commun
. 2023 Sep;
14(1):5576.
PMID: 37696888
Exosomal PD-L1 (exoPD-L1) has recently received significant attention as a biomarker predicting immunotherapeutic responses involving the PD1/PD-L1 pathway. However, current technologies for exosomal analysis rely primarily on bulk measurements that...
4.
Flynn C, Chang D, Mahmud A, Yousefi H, Das J, Riordan K, et al.
Nat Rev Bioeng
. 2023 Jun;
:1-16.
PMID: 37359771
Body-based biomolecular sensing systems, including wearable, implantable and consumable sensors allow comprehensive health-related monitoring. Glucose sensors have long dominated wearable bioanalysis applications owing to their robust continuous detection of glucose,...
5.
Wang Z, Wang H, Lin S, Labib M, Ahmed S, Das J, et al.
Nano Lett
. 2023 Apr;
23(13):5877-5885.
PMID: 37040490
Nanoneedles are a useful tool for delivering exogenous biomolecules to cells. Although therapeutic applications have been explored, the mechanism regarding how cells interact with nanoneedles remains poorly studied. Here, we...
6.
Mahmud A, Chang D, Das J, Gomis S, Foroutan F, Chen J, et al.
Angew Chem Int Ed Engl
. 2023 Mar;
62(20):e202213567.
PMID: 36894506
Reagent-free electronic biosensors capable of analyzing disease markers directly in unprocessed body fluids will enable the development of simple & affordable devices for personalized healthcare monitoring. Here we report a...
7.
Chandra Biswas G, Khan M, Das J
Biosens Bioelectron
. 2023 Feb;
226:115115.
PMID: 36746023
Wearable biosensors (WB) are currently attracting considerable interest for rapid detection and monitoring of biomarkers including metabolites, protein, and pathogen in bodily fluids (e.g., sweat, saliva, tears, and interstitial fluid)....
8.
Zargartalebi H, Yousefi H, Flynn C, Gomis S, Das J, Young T, et al.
J Am Chem Soc
. 2022 Sep;
144(40):18338-18349.
PMID: 36173381
The development of robust biosensing strategies that can be easily implemented in everyday life remains a challenge for the future of modern biosensor research. While several reagentless approaches have attempted...
9.
Clifford A, Das J, Yousefi H, Mahmud A, Chen J, Kelley S
J Am Chem Soc
. 2021 Apr;
143(14):5281-5294.
PMID: 33793215
Portable devices capable of rapid disease detection and health monitoring are crucial to decentralizing diagnostics from clinical laboratories to the patient point-of-need. Although technologies have been developed targeting this challenge,...
10.
Das J, Gomis S, Chen J, Yousefi H, Ahmed S, Mahmud A, et al.
Nat Chem
. 2021 Mar;
13(5):428-434.
PMID: 33686229
The development of reagentless sensors that can detect molecular analytes in biological fluids could enable a broad range of applications in personalized health monitoring. However, only a limited set of...