Biomaterials Laboratory@ IIT Bhilai
Click on the papers for pdf. (* corresponding author)
COVER PAGES
After joining IIT Bhilai
37. Classification of Sugar Samples from PCA-reduced Impedimetric Data using QD Model. Dibakar Roy, Akbar Ali, Suchetan Pal*, Avishek Adhikary*. IEEE Transactions on Instrumentation & Measurement. 2024.
36. Herb Extracellular Vesicle-Chitosan-PEGylated Graphene Oxide Conjugate Delivers Estrogen Receptor α Targeting siRNA to Breast Cancer Cells. Saroj Saroj, Poornima US, Sachin Patil, Debashish Paul, Sunita Saha, Akbar Ali, Suchetan Pal*, Bimlesh Lochab*, Tatini Rakshit*. ACS Applied Biomaterials. 2024, DOI: 10.1021/acsabm.3c01108.
35. Extracellular Vesicles for Drug Delivery and Theranostics in vivo. Tatini Rakshit*, Suchetan Pal*. JACS Au. 2024, 4, 2, 318-327. (invited perspective)
34. Probing Aberrantly Glycosylated Mucin 1 in Breast Cancer Extracellular Vesicles. Saroj Saroj, Debashish Paul, Akbar Ali, Chrysafis Andreou, Suchetan Pal*, Tatini Rakshit*. ACS Applied Biomaterials. 2023, DOI: 10.1021/acsabm.3c00651.
33. Glucose-responsive chitosan nanoparticle/polyvinyl alcohol hydrogels for sustained insulin release in vivo. Akbar Ali, Saroj Saroj, Sunita Saha, Sanjay Gupta, Tatini Rakshit*, Suchetan Pal*. ACS Applied Materials and Interfaces. 2023, 15, 27, 32240–32250.
32. Label-Free Physical–Analytical Techniques Reveal Epigenetic Modifications of Breast Cancer Chromosomes. Tanya Agrawal, Debashish Paul, Saroj Saroj, Akbar Ali, Vivekanand Choubey, Dipanjan Mukherjee, Suchetan Pal*, and Tatini Rakshit*. Journal of Physical Chemistry-B. 2023,127, 3534–3542.
31. Impedimetric Hydrogel Sensor for the Identification of Hexose using Machine Learning. Dibakar Roy, Akbar Ali, Suchetan Pal*, Avishek Adhikary*. IEEE Sensors Journal. 2023, 23, 6272 – 6281.
30. In situ-forming Protein-polymer Hydrogel for Glucose-responsive Insulin Release. Akbar Ali, Saroj Saroj, Sunita Saha, Tatini Rakshit*, Suchetan Pal*. ACS Applied Biomaterials. 2023, 2, 745–753.
29. Multiplexed molecular imaging with surface-enhanced resonance Raman scattering nanoprobes reveals immunotherapy response in mice via multichannel image segmentation. Chrysafis Andreou*, Konstantinos Plakas, Naxhije Berisha, Mathieu Gigoux, Lauren E Rosch, Rustin Mirsafavi, Anton Oseledchyk, Suchetan Pal, Dmitriy Zamarin, Taha Merghoub, Michael R Detty, Moritz F Kircher. Nanoscale Horizons. 2022, 7, 1540-1552.
28. A Mechanoelastic Glimpse on Hyaluronan-Coated Extracellular Vesicles. Debasish Paul, Dipanjan Mukherjee, Anirban Paul, Saroj Saroj, Manorama Ghoshal, Suchetan Pal*, Dulal Senapati*, Jaydeb Chakrabarti*, Samir Kumar Pal*, Tatini Rakshit*, J. Phys. Chem. Lett. 2022, 13, 36, 8564–8572.
27. DNA-functionalized Gold Nanorods for Perioperative Optical Imaging and Photothermal Therapy of Triple-negative Breast Cancer. Suchetan Pal*, Jaya Krishna Koneru, Chrysafis Andreou, Tatini Rakshit, Vinagolu K. Rajasekhar, Marek Wlodarczyk, John H. Healey, Moritz F. Kircher, Jagannath Mondal. ACS Applied Nanomaterials. 2022, 5, 7, 9159-9169.
26. Repurposing Pinacol Esters of Boronic Acids for Tuning Viscoelastic Properties of Glucose-responsive Polymer Hydrogels: Effects on Insulin Release. Akbar Ali, Shaista Nouseen, Saroj Saroj, Meenakshi Shegane, Priyankar Majumder, Aarti Puri, Tatini Rakshit, Debasish Manna, Suchetan Pal*. Journal of Materials Chemistry B. 2022, 10, 7591-7599 (JMCB emerging investigator issue 2022)
25. Importance of Extracellular Vesicle Derived RNAs as Critical Colorectal Cancer Biomarkers. Brateen Datta, Debasish Paul, Tina Dey, Suchetan Pal*, Tatini Rakshit*. ACS Bio & Med Chem Au. https://doi.org/10.1021/acsbiomedchemau.1c00043, 2022. (invited review)
24. Folate-functionalized DNA Origami for Targeted Delivery of Doxorubicin to Triple-negative Breast Cancer. Suchetan Pal*, Tatini Rakshit. Frontiers in Chemistry. 2021, 9, 667.
23. Control of Glucose-induced Degradation and Cargo Release in Multi-responsive Polymer Hydrogels. Akbar Ali, Sai P. Nagumantri, Tatini Rakshit, Suchetan Pal*. Macromolecular Chemistry and Physics. 2021, 222, 2100121.
22. Structurally symmetric near-infrared fluorophore IRDye78-protein complex enables multimodal cancer imaging. Jiang Yang*, Chunhua Zhao, Jacky Lim, Lina Zhao, Ryan Le Tourneau, Qize Zhang, Damien Dobson, Suhasini Joshi, Jiadong Pang, Xiaodong Zhang, Suchetan Pal, Chrysafis Andreou, Hanwen Zhang, Moritz F. Kircher, Hans Schmitthenner*. Theranostics. 2021, 11(6), 2534-2549.
21. DNA Nanostructures and DNA‐Functionalized Nanoparticles for Cancer Theranostics.Fay Nicolson, Akbar Ali, Moritz F. Kircher, Suchetan Pal*. Advanced Science. 2020, 7, 2001669. https://doi.org/10.1002/advs.202001669.
20. Gold/alpha-lactalbumin nanoprobes for the imaging and treatment of breast cancer. Jiang Yang, Tai Wang, Lina Zhao, Vinagolu Rajasekhar, Suhasini Joshi, Chrysafis Andreou, Suchetan Pal, Hsiao-ting Hsu, Hanwen Zhang, Ivan Cohen, Ruimin Huang, Ronald Hendrickson, Matthew Miele, Wenbo Pei, Matthew Brendel, John Healey, Gabriela Chiosis, Moritz Kircher*. Nature Biomedical Engineering. 2020, 4, 686–703.
19.Rational Design of DNA-encoded Fluorescence-Raman Bimodal Nanoprobes for Cancer Imaging and Therapy. Suchetan Pal, Angana Ray, Chrysafis Andreou, Yadong Zhou, Tatini Rakshit, Marek Wlodarczyk, Ricardo Toledo-crow, Naxhije Berisha, Jiang Yang, Hsiao-Ting Hsu, Anton Oseledchyk, Jagannath Mondal, Shengli Zou, Moritz Kircher*. Nature Communications. 2019, 10, Article number 1926.
18. Surface-enhanced Resonance Raman Scattering Nanoprobe Ratiometry for Detecting Microscopic Ovarian Cancer via Folate Receptor Targeting. Chrysafis Andreou, Anton Oseledchyk, Suchetan Pal, Moritz F. Kircher*. Journal of Visualized Experiments. 2019, (145), e58389, doi:10.3791/58389.
Before IIT Bhilai
17. Molecular imaging in nanotechnology and theranostics. Chrysafis Andreou, Suchetan Pal, Lara Rotter, Jiang Yang, Moritz Kircher. Molecular Imaging and Biology. 2017,19, 363.
16. MUC1 aptamer targeted SERS nanoprobes. Suchetan Pal, Stefan Harmsen, Anton Oseledchyk, Hsiao-Ting Hsu, Moritz Kircher*. Advanced Functional Materials. 2017, 27(32), 1606632.
15. Programming transformations of nanoparticle superlattices. Yugang Zhang, Suchetan Pal, Babji Srinivasan, Thi Vo, Venkat Venkatasubramanian, Sanat Kumar, Oleg Gang*. Nature Materials. 2015, 14, 840-847.
14. Stoichiometric control of DNA-grafted colloid self-assembly. Thi Vo, Venkat Venkatasubramanian, Sanat Kumar, Babji Srinivasan, Suchetan Pal, Yugang Zhang, Oleg Gang*. Proceedings of the National Academy of Sciences (PNAS). 2015, 112, 4982-4987.
13. Dynamic tuning of DNA-nanoparticle superlattices by molecular intercalation of double helix. Suchetan Pal, Yugang Zhang, Sanat Kumar, Oleg Gang*. J. Am. Chem. Soc. 2015, 137, 4030–4033.
12. Hierarchical assembly of plasmonic nanostructures using virus capsid scaffolds on DNA origami templates. Debin Wang, Stacy Capehart, Suchetan Pal, Minghui Liu, Lei Zhang, P. James Schuck, Yan Liu, Hao Yan, Matthew B. Francis, James De Yoreo*. ACS Nano. 2014, 8 (8), 7896-7904.
11. Quantum efficiency modification of organic fluorophores using gold nanoparticles on DNA origami scaffolds. Suchetan Pal, Palash Dutta, Haining Wang, Shengli Zou, Hao Yan*, Yan Liu*. J. Phys. Chem. C. 2013, 117(24), 12735-12744.
10. DNA functionalization of colloidal II–VI semiconductor nanowires for multiplex nanoheterostructures. Zhengtao Deng, Suchetan Pal, Anirban Samanta, Hao Yan*, Yan Liu*. Chem. Sci. 2013, 4, 2234-2240.
9. DNA gridiron nanostructures based on four-arm junctions. Dongran Han, Suchetan Pal, Yang Yang, Suoxing Jiang, Jeanette Nangreave, Yan Liu, Hao Yan*. Science. 2013, 339, 1412-1215.
8. DNA directed self-assembly of anisotropic plasmonic nanostructures. Suchetan Pal, Zhengtao Deng, Haining Wang, Shengli Zou, Yan Liu, Hao Yan*. J. Am. Chem. Soc. 2011, 133, 17606–17609.
7. Site-specific synthesis and in-situ immobilization of fluorescent silver nanoclusters on DNA nanoscaffolds using Tollens reaction. Suchetan Pal, Reji Varghese, Zhengtao Deng, Zhao Zhao, Ashok Kumar, Hao Yan*, Yan Liu*. Angew. Chem. Int. Ed. 2011, 50, 4176 –4179.
6. DNA origami with complex curvatures in three-dimensional space. Dongran Han, Suchetan Pal, Jeanette Nangreave, Zhengtao Deng, Yan Liu*, Hao Yan*. Science. 2011, 332, 342-346.
5. Folding and cutting DNA into reconfigurable topological nanostructures. Dongran Han, Suchetan Pal, Yan Liu*, Hao Yan*. Nat. Nanotech. 2010, 5, 712-717.
4. DNA origami directed self-assembly of discrete silver nanoparticle architectures. Suchetan Pal, Zhengtao Deng, Baoquan Ding, Hao Yan*, Yan Liu* Angew. Chem. Int. Ed. 2010, 49, 2700-2704.
3. Stable silver nanoparticle-DNA conjugates for directed self-assembly of core-satellite silver-gold nanoclusters. Suchetan Pal, Jaswinder Sharma, Hao Yan*, Yan Liu*. Chem Commun. 2009, 40, 6059-6061.
2. A bimetallic pillared-layer metal–organic coordination framework with a 3D biporous structure. Tapas Kumar Maji*, Suchetan Pal, K. L Gurunatha, A. Govindaraj, C. N. R. Rao. Dalton Trans, 2009, 23, 4426 – 4428.
1. Construction of bi-functional inorganic–organic hybrid nanocomposites. Suchetan Pal, Dinesh Jagadeesan, K. L. Gurunatha, M. Eswaramoorthy, Tapas Kumar Maji*. J. Mater. Chem. 2008, 18, 5448 – 5451.
Book Chapters:
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Recent Developments of ROS-Based Nanotherapeutic Modalities in Preclinical Cancer Treatment. Neha Suyog Potnis, Akbar Ali, Suchetan Pal. Handbook of Oxidative Stress in Cancer: Therapeutic Aspects. Edited by Sajal Chakraborti. Springer Nature. ISBN: 978-981-16-1247-3.
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Chapter 8: In vivo imaging with SERS nanoprobes. Chrysafis Andreou, Yiota Gregoriou, Akbar Ali, Suchetan Pal. SERS for Point-of-care and Clinical Applications. ISBN-13: 978-0128205488.
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DNA-based nanoscale self-assembly. Wenyan Liu, Yugang Zhang, Suchetan Pal, Oleg Gang. Proceedings of the International School of Physics "Enrico Fermi". Volume 193: Soft Matter Self-Assembly. Pages: 331-382. DOI: 10.3254/978-1-61499-662-0-331.
Patent Applications.
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METHODS FOR ISOTHERMAL MOLECULAR AMPLIFICATION WITH NANOPARTICLE-BASED REACTIONS. Suchetan Pal, Oleg Gang. US Patent application: 15/983,804, 2018.
