Prof. Dulal Senapati

Citations: 2025, h-index: 22, i10-index: 36, i100-index: 6    Publications before joining to SINP 1. Gold nanoparticle based label-free SERS probe for ultrasensitive and selective detection of trinitrotoluene, SSR Dasary, AK Singh, D Senapati, H Yu, PC Ray*, Journal of the American Chemical Society 2009, 131 (38), 13806-13812 (Citations: 252) 2. Ternary copper complexes for photocleavage of DNA by red light: direct evidence for sulfur-tocopper charge transfer and dd band involvement, S Dhar, D Senapati, PK Das, P Chattopadhyay, M Nethaji, AR Chakravarty*, Journal of the American Chemical Society 2003, 125 (40), 12118-12124 (Citations: 213) 3. Use of gold nanoparticles in a simple colorimetric and ultrasensitive dynamic light scattering assay: selective detection of arsenic in groundwater, Jhansi Rani Kalluri, Tahir Arbneshi, Sadia Afrin Khan, Adria Neely, Perry Candice, Birsen Varisli, Marla Washington, Shardae McAfee, Britinia Robinson, Santanu Banerjee, Anant Kumar Singh, Dulal Senapati, Paresh Chandra Ray*, Angewandte Chemie International Edition 2009, 121, 9848-9851 (Citations: 142) 4. Size‐and Distance‐Dependent Nanoparticle Surface‐Energy Transfer (NSET) Method for Selective Sensing of Hepatitis C Virus RNA, J Griffin, AK Singh, D Senapati, P Rhodes, K Mitchell, B Robinson, E Yu, PC Ray*, Chemistry-A European Journal 2009, 15 (2), 342-351 (Citations: 103) 5. Gold nanorod based selective identification of Escherichia coli bacteria using two-photon Rayleigh scattering spectroscopy, Anant K Singh, Dulal Senapati, Shuguang Wang, Jelani Griffin, Adria Neely, Perry Candice, Khaleah M Naylor, Birsen Varisli, Jhansi Rani Kalluri, Paresh Chandra Ray*, Acs Nano 2009, 3 (7), 1906-1912 (Citations: 92) 6. Gold nano-popcorn-based targeted diagnosis, nanotherapy treatment, and in situ monitoring of photothermal therapy response of prostate cancer cells using surface-enhanced raman spectroscopy, W Lu, AK Singh, SA Khan, D Senapati, H Yu, PC Ray*, Journal of the American Chemical Society 2010, 132 (51), 18103-18114 (Citations: 125) 7. Multifunctional oval-shaped gold-nanoparticle-based selective detection of breast cancer cells using simple colorimetric and highly sensitive two-photon scattering assay, W Lu, SR Arumugam, D Senapati, AK Singh, T Arbneshi, SA Khan, H Yu, PC Ray*, ACS nano 2010, 4 (3), 1739-1749 (Citations: 106) 8. Ultrasensitive and highly selective detection of Alzheimer’s disease biomarker using two-photon Rayleigh scattering properties of gold nanoparticle, Adria Neely, Candice Perry, Birsen Varisli, Anant K Singh, Tahir Arbneshi, Dulal Senapati, Jhansi Rani Kalluri, Paresh Chandra Ray*, ACS nano 2009, 3 (9), 2834-2840 (Citations: 74) 9. Optically modulated fluorophores for selective fluorescence signal recovery, CI Richards, JC Hsiang, D Senapati, S Patel, J Yu, T Vosch, RM Dickson*, Journal of the American Chemical Society 2009, 131 (13), 4619-4621 (Citations: 65) 10. Metal-assisted red light-induced efficient DNA cleavage by dipyridoquinoxaline-copper (II) complex, S Dhar, D Senapati, PAN Reddy, PK Das, AR Chakravarty*, Chemical Communications, 2003, 2452-2453 (Citations: 52) 11. Sequence‐Specific HCV RNA Quantification Using the Size‐Dependent Nonlinear Optical Properties of Gold Nanoparticles, J Griffin, AK Singh, D Senapati, E Lee, K Gaylor, J Jones‐Boone, PC Ray*, Small 2009, 5 (7), 839-845 (Citations: 61) 12. Rapid Colorimetric Identification and Targeted Photothermal Lysis of Salmonella Bacteria by Using Bioconjugated Oval‐Shaped Gold Nanoparticles, S Wang, AK Singh, D Senapati, A Neely, H Yu, PC Ray*, Chemistry-A European Journal 2010, 16 (19), 5600-5606 (Citations: 49) 13. Effect of surface coating on the toxicity of silver nanomaterials on human skin keratinocytes, W Lu, D Senapati, S Wang, O Tovmachenko, AK Singh, H Yu, PC Ray*, Chemical Physics Letters 2010, 487 (1), 92-96 (Citations: 43) 14. Multifunctional plasmonic shell–magnetic core nanoparticles for targeted diagnostics, isolation, and photothermal destruction of tumor cells, Z Fan, M Shelton, AK Singh, D Senapati, SA Khan, PC Ray*, ACS nano 2012, 6 (2), 1065-1073 (Citations: 40) 15. Highly selective SERS probe for Hg (II) detection using tryptophan-protected popcorn shaped gold nanoparticles, Tapas Senapati , Dulal Senapati , Anant Kumar Singh , Zhen Fan , Rajashekhar Kanchanapally and Paresh Chandra Ray*, Chemical Communications 2011, 47 (37), 10326-10328 (Citations: 32) 16. Gold nanoparticle-based simple colorimetric and ultrasensitive dynamic light scattering assay for the selective detection of Pb (II) from paints, plastics, and water samples, L Beqa, AK Singh, SA Khan, D Senapati, SR Arumugam, PC Ray*, ACS Applied Materials & Interfaces 2011, 3 (3), 668-673 (Citations: 28) 17. Nonlinear optical properties of triangular silver nanomaterials, AK Singh, D Senapati, A Neely, G Kolawole, C Hawker, PC Ray*, Chemical Physics Letters 2009, 481 (1), 94-98 (Citations: 25) 18. Gold nano-popcorn attached SWCNT hybrid nanomaterial for targeted diagnosis and photothermal therapy of human breast cancer cells , L Beqa, Z Fan, AK Singh, D Senapati, PC Ray*, ACS applied materials & interfaces 2011, 3 (9), 3316-3324 (Citations: 24) 19. Highly sensitive and selective dynamic light-scattering assay for TNT detection using p-ATP attached gold nanoparticle, SSR Dasary, D Senapati, AK Singh, Y Anjaneyulu, H Yu, PC Ray*, ACS Applied Materials & Interfaces 2010, 2 (12), 3455-3460 (Citations: 24) 20. Nanomaterials for targeted detection and photothermal killing of bacteria, PC Ray*, SA Khan, AK Singh, D Senapati, Z Fan, Chemical Society Reviews 41 (8), 3193-3209 (Citations: 23) 21. Pulsed laser degradation of polyethylene oxide and polyacrylamide in aqueous solution, SP Vijayalakshmi, D Senapati, G Madras*, Polymer degradation and stability 2005, 87 (3), 521-526 (Citations: 16) 22. Photodissociation Dynamics of CH2ICl at 222, 236, 266, 280, and~ 304 nm, D Senapati, K Kavita, PK Das*, The Journal of Physical Chemistry A 2002, 106 (36), 8479-8482 (Citations: 15) 23. A Label‐Free Gold‐Nanoparticle‐Based SERS Assay for Direct Cyanide Detection at the Parts‐per‐Trillion Level, D Senapati, SSR Dasary, AK Singh, T Senapati, H Yu, PC Ray*, Chemistry-A European Journal 2011, 17 (30), 8445-8451 (Citations: 15) 24. Real time monitoring of the shape evolution of branched gold nanostructure, D Senapati, AK Singh, PC Ray*, Chemical Physics Letters 2010, 487 (1), 88-91 (Citations: 13) 25. Long‐Range Nanoparticle Surface‐Energy‐Transfer Ruler for Monitoring Photothermal Therapy Response, Anant K Singh, Wentong Lu, Dulal Senapati, Sadia Afrin Khan, Zhen Fan, Tapas Senapati, Teresa Demeritte, Lule Beqa, Paresh Chandra Ray*, Small 2011, 7 (17), 2517-2525 (Citations: 12) 26. Targeted highly sensitive detection of multi-drug resistant salmonella DT104 using gold nanoparticles, SA Khan, AK Singh, D Senapati, Z Fan, PC Ray*, Chemical Communications 2011, 47 (33), 9444-9446 (Citations: 12) 27. Development of a Long-Range Surface-Enhanced Raman Spectroscopy Ruler, AK Singh, SA Khan, Z Fan, T Demeritte, D Senapati, R Kanchanapally, PC Ray*, Journal of the American Chemical Society 2012, 134 (20), 8662-8669 (Citations: 11) 28. Size dependent nonlinear optical properties of silver quantum clusters, Sadia Afrin Khan, Dulal Senapati, Tapas Senapati, P Bonifassi, Zhen Fan, Anant Kumar Singh, Adria Neeley, Glake Hill, Paresh Chandra Ray*, Chemical Physics Letters 2011, 512 (1), 92-95 (Citations: 11) 29. Bio-conjugated popcorn shaped gold nanoparticles for targeted photothermal killing of multiple drug resistant Salmonella DT104, SA Khan, AK Singh, D Senapati, Z Fan, PC Ray*, Journal of Materials Chemistry 2011, 21 (44), 17705-17709 (Citations: 11) 30. Photodissociation of isomeric dichloroethylenes in the ultraviolet: Effect of the second chlorine atom substitution on the dynamics, M Chandra, D Senapati, M Tak, PK Das*, Chemical physics letters 2006, 430 (1), 32-35 (Citations: 9) 31. Synthesis of highly fluorescent water-soluble silver nanoparticles for selective detection of Pb (ii) at the parts per quadrillion (PPQ) level, AK Singh, R Kanchanapally, Z Fan, D Senapati, PC Ray*, Chemical Communications 2012, 48 (72), 9047-9049 (Citations: 9) 32. Chemically attached gold nanoparticle–carbon nanotube hybrids for highly sensitive SERS substrate, L Beqa, AK Singh, Z Fan, D Senapati, PC Ray*, Chemical Physics Letters 2011, 512 (4), 237-242 (Citations: 8) 33. I*(2P1/2) and Cl*(2P1/2) Production from Chloroiodobenzenes in the Ultraviolet, D Senapati, S Maity, PK Das*, The Journal of Physical Chemistry A 2004, 108 (39), 7949-7953 (Citations: 7) 34. Highly efficient SERS substrate for direct detection of explosive TNT using popcorn-shaped gold nanoparticle-functionalized SWCNT hybrid, Teresa Demeritte, Rajashekhar Kanchanapally, Zhen Fan, Anant Kumar Singh, Dulal Senapati, Madan Dubey, Eugene Zakar, Paresh Chandra Ray*, Analyst 2012, 137 (21), 5041-5045 (Citations: 6) 35. A gold nanocage–CNT hybrid for targeted imaging and photothermal destruction of cancer cells, Sadia Afrin Khan , Rajashekhar Kanchanapally , Zhen Fan , Lule Beqa , Anant Kumar Singh , Dulal Senapati and Paresh Chandra Ray*, Chemical Communications 2012, 48 (53), 6711-6713 (Citations: 5) 36. Selective detection of chemical and biological toxins using gold-nanoparticle-based two-photon scattering assay, Adria Neeley, Sadia Afrin Khan, Lule Beqa, Zhen Fan, Anant K Singh, Wentong Lu, Dulal Senapati, Tahir Arbneshi, Eumin Lee, Yolanda Anderson, Santanu Banerjee, Jinghe Mao, Madan Dubey, P Amirtharaj, Paresh Ray*, Nanotechnology, IEEE Transactions on 2011, 10 (1), 26- 34 (Citations: 4) 37. Cl* (2P1/2) production dynamics from chloroiodomethane (CH2ICl) in the ultraviolet, D Senapati, PK Das*, Chemical physics letters 2004, 393 (4), 535-538 (Citations: 4) 38. Probing real time gold nanostar formation process using two-photon scattering spectroscopy, D Senapati, AK Singh, SA Khan, T Senapati, PC Ray*, Chemical Physics Letters 2011, 504 (1), 46-51 (Citations: 4) 39. Photodissociation of o-C6H4I(CH2Cl) in the near ultraviolet: a case study of photoselective C-I bond dissociation, D Senapati, PK Das*, Chemical physics letters 2005, 402 (4), 450-454 (Citations: 3) 40. Ultrasensitive and highly selective detection of TNT from environmental sample using two-photon scattering properties of aminothiophenol-modified gold nanoparticle, SSR Dasary, AK Singh, D Senapati, H Yu, M Dubey, P Amirtharaj, PC Ray*, Nanotechnology, IEEE Transactions on 2011, 10 (5), 1083-1088 (Citations: 3) 41. Theranostic Magnetic Core–Plasmonic Shell Star Shape Nanoparticle for the Isolation of Targeted Rare Tumor Cells from Whole Blood, Fluorescence Imaging, and Photothermal Destruction of Cancer, Z Fan, D Senapati, AK Singh, PC Ray*, Molecular pharmaceutics 2012, 10 (3), 857-866 (Citations: 3) 42. Length dependent NLO properties of 2D hollow gold nanoprisms formed by guided assembly, D Senapati, T Senapati, PS Wate, R Kanchanapally, Z Fan, AK Singh, PC Ray*, Chemical Communications 2012, 48 (48), 6034-6036 (Citations: 3) 43. Popcorn‐Shaped Magnetic Core–Plasmonic Shell Multifunctional Nanoparticles for the Targeted Magnetic Separation and Enrichment, Label‐Free SERS Imaging, and Photothermal Destruction of Multidrug‐Resistant Bacteria, Z Fan, D Senapati, SA Khan, AK Singh, A Hamme, B Yust, D Sardar, PC Ray*, Chemistry-A European Journal 2013, 19 (8), 2839-2847 (Citations: 1) 44. Toxicity and Environmental Risks of Nanomaterials: An Update, PC Ray*, AK Singh, D Senapati, Z Fan, H Yu, Bio-Nanotechnology: A Revolution in Food, Biomedical and Health Sciences 2013, 733-748 (Citations: 1) 45. A surface enhanced Raman scattering probe for highly selective and ultra sensitive detection of iodide in water and salt samples, SSR Dasary, PC Ray, AK Singh, T Arbneshi, H Yu, D Senapati*, Analyst 2013, 138 (4), 1195-1203 (Citations: 1) 46. Designing distance dependent SERS assay for monitoring photothermal antibacterial activity response, Sadia Afrin Khan , Anant Kumar Singh , Zhen Fan , Dulal Senapati and Paresh Chandra Ray*, Chemical Communications 2012, 48 (90), 11091-11093 (Citations: 1) 47. Nanomaterial-Based Long-Range Optical Ruler for Monitoring Biomolecular Activities, Paresh Chandra Ray*, Anant Kumar Singh, Dulal Senapati, Sadia Afrin Khan, Wentong Lu, Lule Beqa, Zhen Fan, Samuel SR Dasary, Tahir Arbneshi, Reviews in Plasmonics 2010, 2012, 159-183 (Citations: 1) 48. Gold Nanomaterial Probe For Ultrasensitive And Selective Detection Of Mercury From Environmental Sample, Dulal Senapati, Anant K Singh, Jelani Griffin, Adria Neely, Perry Candice, Khaleah M Naylor, Birsen Varisli, Jhansi Rani Kalluri, Eumin Lee, Paresh Chandra Ray*, Mississippi Academy of Sciences, 2009, 54 (3-4), 215 (Citations: 0) 49. Spherical and Anisotropic Metallic Nanomaterials‐Based NSET Biosensors, PC Ray*, J Griffin, W Lu, O Tovmachenko, AK Singh, D Senapati, GA Kolawole, Nanotechnologies for the Life Sciences 2009 (Citations: 0) 50. Quantum yield of Cl*(2P1/2) production in the gas phase photolysis of CCl4 in the ultraviolet, M Tak, M Chandra, D Senapati, PK Das*, Journal of Chemical Sciences 2006, 118 (4), 341-344 (Citations: 0) Publications after joining to SINP   1. Characterization of Bimetallic Core-Shell Nanorings Synthesized via Ascorbic Acid Controlled Galvanic Displacement followed by Epitaxial Growth, T. Ghosh, B. Satpati*, D. Senapati, Journal of Materials Chemistry C 2014, 2, 2439-2447. 2. Synergistically-Controlled Nano-Templated Growth of Tunable Gold Bud-to-Blossom Nanostructures: A Pragmatic Growth Mechanism, M. Bardhan, B. Satpati, T. Ghosh, D. Senapati*, J. Mater. Chem. C, DOI:10.1039/C4TC00160E. 3. Effect of Inter Tip Coupling on the Plasmonic Behavior of Individual Multi-tipped Gold Nanoflower, Achyut Maity, Arpan Maiti, Pabitra Das, Dulal Senapati, Tapas Kumar Chini*, ACS Photonics, 2014/11/21 4. Plasmonic Nano-Probe and Nano-Medicine for Selective Detection, Ultrasensitive Quantification, and Untrendy Treatment for Food-Borne Bacterial Infection, in Food Poisoning: Outbreaks, Bacterial Sources and Adverse Health Effects (Book Chapter, Chapter 5), Dulal Senapati, 2014