Santanu Kumar Basu
Indian Institute of Technology Bombay
13 Papers
6 Citations
Santanu Kumar Basu is an academic researcher from Indian Institute of Technology Bombay. The author has contributed to research in topics: Viscoelasticity & Rheometer. The author has an hindex of 6, co-authored 9 publications.
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Papers
Self healing hydrogels composed of amyloid nano fibrils for cell culture and stem cell differentiation.
Reeba S. Jacob,Dhiman Ghosh,Pradeep K. Singh,Santanu Kumar Basu,Narendra Nath Jha,Subhadeep Das,Pradip K. Sukul,Sachin P. Patil,Sadhana Sathaye,Ashutosh Kumar,Arindam Chowdhury,Sudip Malik,Shamik Sen,Samir K. Maji +13 more
TL;DR: The results indicate that small size, ease of custom synthesis, thixotropic nature makes these amyloid-based hydrogels ideally suited for biomaterial/nanotechnology applications.
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Quinoline driven fluorescence turn on 1,3-bis-calix[4]arene conjugate-based receptor to discriminate Fe3+ from Fe2+.
Rakesh K. Pathak,Jayaraman Dessingou,Vijaya Kumar Hinge,Atul Gajanan Thawari,Santanu Kumar Basu,Chebrolu P. Rao +5 more
TL;DR: The synthesis and characterization of a triazole linked quinoline appended calix[4]arene conjugate, L, and its fluorescence turn on receptor property for Fe(3+) have been demonstrated and the utility of this conjugates has been demonstrated by the combination logic gate system.
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A boron-dipyrrin–mercury(II) complex as a fluorescence turn-on sensor for chloride and applications towards logic gates
TL;DR: New N-acylhydrazone substituted BODIPY–mercury(II) based fluorescent turn-on sensors 1–Hg2+ and 2–HG2+, which showed remarkable selectivity and specificity towards Cl− ions under physiological conditions are developed and can be used to construct an IMPLIES logic gate system.
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Narrow-Gap Rheometry: A Novel Method for Measuring Cell Mechanics
Khawaja Muhammad Imran Bashir,Suhyang Lee,Dong Hee Jung,Santanu Kumar Basu,Man-Gi Cho,Andreas Wierschem +5 more
TL;DR: Insight is provided for whether and how narrow-gap rheometer could be used as an efficient drug screening tool, which could further improve the current understanding of the mechanical issues present in the treatment of human diseases.
Spatial anisotropy and heterogeneity in contractility and adhesion distribution may contribute to cell steering during migration
TL;DR: It is shown that while asymmetry in bond distribution causes only cell translation, a combination of asymmetric bond distribution and non-uniform contractility is required for translation and rotation and may guide cell migration.
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