Publications

Dr. AvijitGoswami

1. Nachiketa Chatterjee, Divya Bhatt and Avijit Goswami, A novel transition metal free [bis-(trifluoroacetoxy)- iodo]benzene (PIFA) mediated oxidative ipso nitration of organoboronic acids, Organic & Biomolecular Chemistry, 2015, in press.

2. Nachiketa Chatterjee, Avijit Goswami, Organic hypervalent iodine(III) catalyzed ipso-hydroxylation of aryl- and alkylboronic acids/esters, Tetrahedron Letters, 56, 1,  2015,  1524-1527.

3. Nachiketa Chatterjee, Hrishikesh Chowdhury, Kumar Sneh, Avijit Goswami, Hydroxylation of aryl- and alkylboronic acids/esters mediated by iodobenzenediacetate an avenue for using organoboronic acids/esters as nucleophiles for hydroxylation reactions,  Tetrahedron Letters, 56, 1,  2015,  172-174.

4. J. I. Watanabe, Y. Ki. Sugiyama, A. Nomura, S. Azumatei, Avijit Goswami, N. Saino, S. Okamoto, Quick Access to Diverse Polymerizable Molecules (a Monomer Library) by Catalytic [2+2+2] Cycloaddition Reactions of Functionalized Alkynes, Macromolecules, 2010, 43, 2213-2218.

5. Avijit Goswami, Taichi Ito, Naoko Saino, Kouki Kase, Chikashi Matsuno and Sentaro Okamoto, “Selective Dimerization of 1,6-Diynes Catalyzed by Ionic Liquid-Supported Nickel Complexes in An Ionic Liquid/Toluene Biphasic System”, Chem. Commun. 2009, 439-441.

6. Avijit Goswami, K. Ohtaki, K. Kase, T. Ito, S. Okamoto, “Synthesis of substituted 2,2’-bipyridines and 2,2’:6’,2’-terpyridines by cobalt-catalyzed cycloaddition reactions of nitriles and α,ω-diynes with exclusive regioselectivity”, Adv. Synth. Catal. 2008, 350, 143-152.

7. Avijit Goswami, T. Ito, S. Okamoto, “Efficient activation of 2-iminomethyl- pyridine/cobalt-based alkyne [2+2+2] cycloaddition catalyst by addition of silver salt”, Adv. Synth. Catal. 2007, 349, 2368-2374.

8. K. Kase, Avijit Goswami, K. Ohtaki, E. Tanabe, N. Saino, S. Okamoto, “On demand generation of an efficient catalyst for pyridine formation from unactivated nitriles andα,ω-diynes using CoCl2-6H2O, dppe and Zn”, Org. Lett. 2007, 9, 931-934.

9. Avijit Goswami, Y. Nie, T. Oeser, W. Siebert, “Reactivity of carboranylacetylenes towards cobalt complexes”, Eur. J. Inorg. Chem. 2006, 566-572.

10. Avijit Goswami, T. H. Staeb, F. Rominger, W. Siebert, R. Gleiter, “Reactivity of the [η2-bis(tert-butylsulfonyl)acetylene](carbonyl)(η5-cyclopentadienyl)cobalt complex towards electron-rich and -poor acetylenes”,  Eur. J. Inorg. Chem. 2005, 4086-4089.  

11.  Y. Nie, Avijit Goswami, W. Siebert, “Synthesis and reactivity of boron-functionalized C2B5-closo-carboranes”, Z. Naturforsch. 2005, 60b, 597-601.

12. Avijit Goswami, C.-J. Maier, H. Pritzkow, W. Siebert, “Cobalt-mediated oligomerization reactions of amino-substituted acetylene derivatives”, J. Organomet. Chem. 2005, 690, 3251-3259.

13.  Avijit Goswami, H. Pritzkow, F. Rominger, W. Siebert, “Synthesis, structures and reactivity of mono- and diborylacetylenes”, Eur. J. Inorg. Chem., 2004, 4223-4231.

14. Avijit Goswami, C.-J. Maier, H. Pritzkow, W. Siebert, “Cobalt-mediated cyclooligomeri- zation reactions of borylacetylenes”, Eur. J. Inorg. Chem., 2004, 2635-2645.

Dr. Debaprasad Mandal

1. Santosh N. Chavan and D. Mandal, Combined effect of ether and siloxane substituents on imidazolium ionic liquids”, RSC Advances, 2015, 5, 64821-64831

2. L. D. Chen, C.-Z. Lai, L. P. Granda, M. A. Fierke, D. Mandal, A. Stein, J. A. Gladysz, P. Bühlmann, “Fluorous Membrane Ion-Selective Electrodes for Perfluorinated Surfactants: Trace-Level Detection and in Situ Monitoring of Adsorption”, Anal. Chem., 2013, 85, 7471-7477

3. G. Dutta, D. Mandal, B.D. Gupta. Pyrazine bridged dicobaloximes with bis(thiophenyl)glyoxime and their molecular oxygen insertion.J. Organometallic Chem., 2012706-707,30-36.

Dr. T. J. Dhilip Kumar

1. Nonadiabatic couplings and charge transfer study in H + CS+ collision using time-dependent quantum dynamics, Rajwant Kaur and T. J. D. Kumar, Mol. Phys. (2015), http://dx.doi.org/10.1080/00268976.2015.1017021

2. Deepika, T. J. Dhilip Kumar, Alok Shukla, Rakesh Kumar, Edge configurational effect on band gaps in graphene nanoribbons, Phys. Rev. B 91, 115428 (2015)

3. A conceptual DFT study of the hydrogen trapping efficiency in metal functionalized BN system M. Samolia and T. J. D. Kumar, RSC Adv. 4, 30758 - 30767 (2014)

4. Hydrogen sorption efficiency of Titanium functionalized Mg-BN-Framework,M. Samolia and T. J. D. Kumar, J. Phys. Chem. C 118, 10859-10866 (2014)

5. Fundamental studies of H2 interaction with MAl3 clusters [M = Li, Sc, Ti, Zr]M. Samolia and T. J. D. Kumar, J. Alloys Compd. 588, 144 (2014)

6. A first-principles study of hydrogen interaction and saturation on ScAl3. M. Samolia and T. J. D. Kumar, J. Alloys Compd. 552, 457 (2013)

7. Hydration of alkynes using Brönsted acidic ionic liquids in the absence of Nobel metal catalyst/H2SO4,R. Kore, T. J. D. Kumar and R. Srivastava, J. Mol.Catal. A: Chem 360, 61 (2012)

8. Low-energy rotational inelastic collisions of H+ + CO system, T. J. D. Kumar and S. Kumar, J. Chem. Phys. 136, 044317 (2012)

Dr. Nagaraja Mallaiah

1. Template-free synthesis of ZnS nanocrystals with a new sulfur source and their photocatalytic study, M. Kaur and C. M. Nagaraja, Mater.Lett. 2015 (Accepted).

2. Temperature dependent structural variation from 2D supramolecular network to 3D interpenetrated metal–organic framework: In situ cleavage of S–S and C–S bonds, B. Ugale, D. Singh, C. M. Nagaraja, J. Solid State Chemistry, 226, 2015, 273-278.

3. One-pot, template-free syntheses of spherical ZnS nanocrystals using a new S2− source and their photocatalytic study M. Kaur, N.Kumar and   C. M. Nagaraja, CrystEngComm, 17, 2015, 2359-2367.

4. Luminescent 3D Interpenetrating Metal-Organic Framework for Highly Selective Sensing of Nitrobenzene, D. Singh and C. M. Nagaraja, Dalton Trans. 2014, 43, 17912.

5. Synthesis, Structure and Luminescence Property of a 3D Diamondoid Interpenetrated Zn(II)-Organic Framework, B. Ugale, C. M. Nagaraja,  J. Inorg. Organomet. Polym. Materials 24, 2014, 1032-1037.

6. Palladium complexes of a new phosphine-amido-siloxide pincer ligand with variable degrees of protonation, J. J. Davidson, C. M. Nagaraja, C. –H. Chen, B. M. Foxman, O. V. Ozerov, Inorg. Chimica. Acta, 422, 2014, 70-77.

7. M. Kaur, C. M. Nagaraja, Template-free Syntheses of CdS Microspheres Composed of Ultrasmall Nanocrystals and their Photocatalytic Study, RSC. Adv. 2014, 4, 18257-18263.

8. Construction of a 2D Interwoven and 3D Interpenetrated Metal-Organic Frameworks of Zn(II) by Varying N,N'-Donor Spacers" C. M. Nagaraja, B. Ugale, A. Chanthapally, CrystEngComm 2014, 16, 4805-4815.

9. Template-free synthesis of CdS microspheres composed of nanocrystals with a new sulfur source, C. M. Nagaraja, and M. Kaur, Mater. Lett, 111, 2013, 230-233.


Dr. Narinder Singh

1. Fluorescent organic nanoparticles of dihydropyrimidone derivatives for selective recognition of iodide using a displacement assay: application of the sensors in water and biological fluids. Amanpreet Kaur,   Tilak Raj, Simanpreet Kaur, Narinder Singhand  Navneet Kaur Org. Biomol. Chem., 2015, 13, 1204-1212.

2. A benzimidazole/benzothiazole-based electrochemical chemosensor for nanomolar detection of guanine Hemant Sharma,   Narinder Singh and    Doo Ok Jang RSC Adv., 2015,5, 6962-6969.

3. A novel chromogenic and fluorogenicchemosensor for detection of trace water in methanol. UmeshFegade, SmitaPatil, Rajinder Kaur, Suban K. Sahoo, Narinder Singh, RatnamalaBendre, Anil KuwarSensors and Actuators B: Chemical, Accepted Manuscript, Available online 8 January 2015.

4. A novel phthalazine based highly selective chromogenic and fluorogenicchemosensor for Co2+ in semi-aqueous medium: application in cancer cell imaging. SmitaPatil,   Rahul Patil,  UmeshFegade,  BanashreeBondhopadhyay,   Umesh Pete,   Suban K. Sahoo,   Narinder Singh,   AnupamBasu,   RatnamalaBendre and   Anil KuwarPhotochem. Photobiol. Sci., 2015, DOI: 10.1039/C4PP00358F.

5. A highly selective fluorescent ‘turn-on’ chemosensor for Zn2+ based on a benzothiazole conjugate: their applicability in live cell imaging and use of the resultant complex as a secondary sensor of CN− NileshKhairnar,   KundanTayade,   Suban K. Sahoo,   BanashreeBondhopadhyay,   AnupamBasu,  Jasminder Singh,   Narinder Singh,   VikasGite and   Anil Kuwar. Dalton Trans., 2015, DOI: 10.1039/C4DT03247K.

6. Study of mechanical properties and high temperature oxidation behavior of a novel cold-spray Ni-20Cr coating on boiler steels Narinder Kaur, Manoj Kumar, Sanjeev K. Sharma, Deuk Young Kim, S. Kumar, N.M. Chavan, S.V. Joshi, Narinder Singh, Harpreet Singh, Applied Surface Science 328, 2015, 13–25.

7. Fluoremetric determination of amoxicillin drug in aqueous medium using hybrid framework of organic-inorganic nanoparticles Saini, A., Singh, J., Kaur, R., Singh, N. , Kaur, N. Sensors and Actuators, B: Chemical209, 2015, 524-529.

8. One-pot synthesis of tricyclic dihydropyrimidine derivatives and their biological evaluation. Kaur, N., Kaur, K., Raj, T., Kaur, G., Singh, A., Aree, T., Park, S.-J., Kim, T.-J., Singh, N., Jang, D.O. Tetrahedron 71, 2, 2015, 332-337.

9. A new class of pyrene based multifunctional chemosensors for differential sensing of metals in different media: Selective recognition of Zn2+ in organic and Fe3+ in aqueous medium. Raj, T., Saluja, P., Singh, N. Sensors and Actuators, B: Chemical, 206, 2015, 98-106.

10. A two-in-one dual channel chemosensor for Fe3+ and Cu2+ with nanomolar detection mimicking the IMPLICATION logic gate. Kuwar, A., Patil, R., Singh, A., Sahoo, S.K., Marek, J., Singh, N. Journal of Materials Chemistry C 3, 2, 2015, 453-460.

11. Imidazole and imine coated ZnO nanoparticles for nanomolar detection of Al(III) and Zn(II) in semi-aqueous media. Sharma, H., Singh, N., Jang, D.O. 2014 Tetrahedron Letters, 55 (49), pp. 6623-6626.

12. FluoremetricAppraisalof HSO4- in Aqueous Media and Daily Utilities using Organic-Inorganic NanohybridsRajinder Kaur, Jasminder Singh, Anu Saini, Narinder Singh and Navneet Kaur  RSC Adv., 2014, Accepted Manuscript  DOI: 10.1039/C4RA09790D, Paper. 

13. Fluorescent Organic Nanoparticles of Tripodal Receptor as Sensor for HSO4- in Aqueous Medium: Application to Real Sample AnalysisNavneet Kaur, Shweta Chopra, Jasminder Singh and Narinder Singh, Anal. Methods, 2014, Accepted Manuscript  DOI: 10.1039/C4AY01760A, Paper.

14. Novel fluorescent chemosensing of CN anions with nanomolar detection using the Zn2+ isonicotinohydrazide metal complexNileshKhairnar, KundanTayade, ShilpaBothra, Suban K. Sahoo, Jasminder Singh, Narinder Singh, RatnamalaBendre and Anil Kuwar  RSC Adv.,2014, 4, 41802-41806.

15. Polymer-based biocompatible fluorescent sensor for nano-molar detection of Zn2+ in aqueous medium and biological samplesKamalpreet Kaur, Manjot Kaur, Amanpreet Kaur, Jasminder Singh, Narinder Singh, Susheel K. Mittal and Navneet Kaur  Inorg. Chem. Front., 2014,1, 99-108.

16. A selective and discriminating noncyclic receptor for HSO4 ion recognitionUmeshFegade, Suban K. Sahoo, Amanpreet Singh, PramodMahulikar, Sanjay Attarde, Narinder Singh and Anil Kuwar  RSC Adv., 2014,4,15288-1529.

17. Naphthalimide-based organic nanoparticles for aluminium recognition in acidic soil and aqueous media, Anu Saini, Jasminder Singh, Rajinder Kaur, Narinder Singh and Navneet Kaur  New J. Chem., 2014,38, 4580-4586

18. Al3+ selective colorimetric and fluorescent red shifting chemosensor: application in living cell imaging Rahul Patil, AnuradhaMoirangthem, Ray Butcher, Narinder Singh, AnupamBasu, KundanTayade, UmeshFegade, DilipHundiwale and Anil Kuwar  Dalton Trans., 2014,43, 2895-2899.

19. 2,2′-(Hydrazine-1,2-diylidenedimethylylidene)bis(6-isopropyl-3-methylphenol) based selective dual-channel chemosensor for Cu2+ in semi-aqueous mediaUmeshFegade, Anu Saini, Suban K. Sahoo, Narinder Singh, RatnamalaBendre and Anil Kuwar  RSC Adv., 2014,4, 39639-39644.

20. A ball-milling strategy for the synthesis of benzothiazole, benzimidazole and benzoxazole derivatives under solvent-free conditions Hemant Sharma, Narinder Singh and Doo Ok Jang  Green Chem., 2014, Advance Article.

21. Exploration of selective recognition of iodide with dipodal sensor: 2,2′-[ethane-1,2-diylbis(iminoethane-1,1-diyl)]diphenolKundanTayade, Judith Gallucci, Hemant Sharma, Sanjay Attarde, Rahul Patil, Narinder Singh and Anil Kuwar  Dalton Trans., 2014,43, 3584-3588. 

22. “Turn-on” fluorescent chemosensor for zinc(II) dipodal ratiometric receptor: application in live cell imaging. KundanTayade, BanashreeBondhopadhyay, Hemant Sharma, AnupamBasu, VikasGite, Sanjay Attarde, Narinder Singh and Anil Kuwar  Photochem. Photobiol. Sci., 2014,13, 1052-1057.

23. Imine-linked chemosensors for the detection of Zn2+ in biological samplesPreetiSaluja, Vimal K. Bhardwaj, ThangarasuPandiyan, Simanpreet Kaur, Navneet Kaur and Narinder Singh,  RSC Adv., 2014,4, 9784-9790 

24. Protein mixtures of environmentally friendly zein to understand protein–protein interactions through biomaterials synthesis, hemolysis, and their antimicrobial activities. AabrooMahal, Manoj Kumar Goshisht, Poonam Khullar, Harsh Kumar, Narinder Singh, Gurinder Kaur and Mandeep Singh Bakshi  Phys. Chem. Chem. Phys., 2014,16, 14257-14270.

25. Organic–inorganic nanohybrids and their applications in silver extraction, chromogenic Cu2+detection in biological systems, and hemolytic assayAjnesh Singh, Vimal Kumar Bhardwaj, Gurinder Kaur, Kamalpreet Kaur, Narinder Singh and Mandeep Singh Bakshi  RSC Adv., 2014,4, 21079-21088.

26. A Cu(II) complex of an imidazolium-based ionic liquid: synthesis, X-ray structure and application in the selective electrochemical sensing of guanineAmanpreet Singh, Ajnesh Singh and Narinder Singh,  Dalton Trans., 2014, Advance Article  DOI: 10.1039/C4DT01759E, Paper.

27. Fluorometric sensing of Hg2+ ions in aqueous medium by nano-aggregates of a tripodal receptor, Ajnesh Singh, Simanpreet Kaur, Narinder Singh and Navneet Kaur  Org. Biomol. Chem., 2014, 12, 2302-2309.

28. Nanoaggregates of benzothiazole-based amidine-coupled chemosensors: a chemosensor for Ag+ and the resultant complex as a secondary sensor for Cl,  Tilak Raj, PreetiSaluja, Narinder Singh and Doo Ok Jang  RSC Adv., 2014,4, 5316-5321.

29. Development of chemosensor for Sr2+ using organic nanoparticles: application of sensor in product analysis for oral careSimanpreet Kaur, Amanpreet Kaur, Navneet Kaur and Narinder Singh, Org. Biomol. Chem., 2014, Advance Article DOI: 10.1039/C4OB01234H.

30. Design and syntheses of novel fluorescent organosilicon-based chemosensors through click silylation: detection of biogenic amines. Gurjaspreet Singh, Satinderpal Singh Mangat, Hemant Sharma, Jandeep Singh, Aanchal Arora, Ajay Pal Singh Pannu and Narinder Singh  RSC Adv., 2014,4, 36834-36844.

31. Fluorescence detection by thiourea based probe of physiologically important sodium ion, KundanTayade, G. Krishna Chaitanya, Jasminder Singh, Narinder Singh, Sopan Ingle, Sanjay Attarde, Anil Kuwar, Journal of Luminescence, 2014, 154,68-73.

32. Architecture of dipodal ratiometric motif showing discrete nanomolar response towards fluoride ion, KundanTayade, Suban K. Sahoo, Amanpreet Singh, Narinder Singh, PramodMahulikar, Sanjay Attarde, Anil Kuwar, Sensors and Actuators B: Chemical, 2014, 202, 1333-1337.

33. Colorimetric and fluorescent “on–off” chemosensor for Cu2+ in semi-aqueous medium, UmeshFegade, Suban K. Sahoo, Sanjay Attarde, Narinder Singh, Anil Kuwar, Sensors and Actuators B: Chemical, 2014, 202, 924-928.

34. Highly selective turn-on fluorescent sensor for nanomolar detection of biologically important Zn2+ based on isonicotinohydrazide derivative: Application in cellular imaging,  KundanTayade, Suban K. Sahoo, BanashreeBondhopadhyay, Vimal K. Bhardwaj, Narinder Singh, AnupamBasu, RatnamalaBendre, Anil Kuwar, Biosensors and Bioelectronics, 2014, 61,429-433.

35. Rhodamine based organic nanoparticles for sensing of Fe3+ with high selectivity in aqueous medium: Application to iron supplement analysis, Amanpreet Singh, Sneha Sinha, Rajinder Kaur, Navneet Kaur, Narinder Singh, Sensors and Actuators B: Chemical, 2014, 204, 617-621.

36. Ratiometric fluorescent probe for biothiol in aqueous medium with fluorescent organic nanoparticles, Vimal K. Bhardwaj, Hemant Sharma, Narinder Singh, Talanta, 2014, 129, 198-202.

37. Fluorescent Organic Nanoparticles (FONs) of Imine-Linked Peptide for Detection of Cr3+ in Aqueous Medium, Navneet Kaur, Simanpreet Kaur, RichaMehan, Carlos Alberto Huerta Aguilar, PandiyanThangarasu, Narinder Singh, Sensors and Actuators B: Chemical, 2015, http://dx.doi.org/10.1016/j.snb.2014.09.031.

38. Fluorogenic ratiometric dipodaloptode containing imine-amide linkages: Exploiting subtle thorium (IV) ion sensing, KundanTayade, Amanpreet Kaur, SandeshTetgure, G. Krishana Chaitanya, Narinder Singh, Anil Kuwar, AnalyticaChimicaActa, 2014, http://dx.doi.org/10.1016/j.aca.2014.09.016.

39. A fluorescent “turn-on” sensor for the biologically active Zn2+ ion, KundanTayade, Suban K. Sahoo, Shweta Chopra, Narinder Singh, BanashreeBondhopadhyay, AnupamBasu, NilimaPatil, Sanjay Attarde, Anil Kuwar, InorganicaChimicaActa, 2014, 421,538-543.

40. “Turn-on” fluorescent dipodalchemosensor for nano-molar detection of Zn2+: Application in living cells imaging, UmeshFegade, Hemant Sharma, BanashreeBondhopadhyay, AnupamBasu, Sanjay Attarde, Narinder Singh, Anil Kuwar, Talanta, 2014, 125, 418-424.

41. Fluorescent organic nanoparticles as chemosensor for nanomolar detection of Cs+ in aqueous medium, Shweta Chopra, Narinder Singh,PandiyanThangarasu, Vimal K. Bhardwaj, Navneet Kaur, Dyes and Pigments, 2014, 106, 45-50.

42. Nanoparticle-based, organic receptor coupled fluorescent chemosensors for the determination of phosphate, Navneet Kaur, Simanpreet Kaur, Amanpreet Kaur, PreetiSaluja, Hemant Sharma, Anu Saini, NishaDhariwal, Ajnesh Singh, Narinder Singh, Journal of Luminescence, 2014, 145,175-179.

43. Azo dye coupled imine linked dipodalchemosensor: Anion recognition with counter anion displacement assay, Kamalpreet Kaur, Ajnesh Singh, Narinder Singh, Sensors and Actuators B: Chemical, 2014, 191, 734-740.

44. An amide based dipodal Zn2+ complex for multications recognition: Nanomolar detection, UmeshFegade, Hemant Sharma, Narinder Singh, Sopan Ingle, Sanjay Attarde, Anil Kuwar, Journal of Luminescence, 2014, 149, 190-195.

45. 2,2′-[Benzene-1,2-diylbis(iminomethanediyl)]diphenol derivative bearing two amine and hydroxyl groups as fluorescent receptor for Zinc(II) ion, KundanTayade, Suban K. Sahoo, Rahul Patil, Narinder Singh, Sanjay Attarde, Anil Kuwar, SpectrochimicaActa Part A: Molecular and Biomolecular Spectroscopy, 2014, 126, 312-316.

46. A novel urea-linked dipodal naphthalene-based fluorescent sensor for Hg(II) and its application in live cell imaging, KundanTayade, BanashreeBondhopadhyay, AnupamBasu, G. Krishna Chaitanya, Suban K. Sahoo, Narinder Singh, Sanjay Attarde, Anil Kuwar, Talanta, 2014, 122, 16-22.

47. Highly selective and sensitive receptor for Fe3+ probing, UmeshFegade, Ajnesh Singh, G. Krishna Chaitanya, Narinder Singh, Sanjay Attarde, Anil Kuwar, SpectrochimicaActa Part A: Molecular and Biomolecular Spectroscopy, 2014, 121, 569-574.

48. Design and Synthesis of a Pyridine Based Chemosensor: Highly Selective Fluorescent Probe For Pb(II), Kundan C. Tayade, Anil S. Kuwar, Umesh A. Fegade, Hemant Sharma, Narinder Singh, Umesh D. Patil, Sanjay B. Attarde; Journal of Fluorescence, 2014, 24, 19-26.

49. Urea Based Dipodal Fluorescence Receptor for Sensing of Fe3+ Ion in Semi-Aqueous Medium; UmeshFegade, Hemant Sharma, Sanjay Attarde, Narinder Singh, Anil Kuwar; Journal of Fluorescence, 2014, 24, 27-37.

50. 2-((E)-(2-aminophenylimino)methyl)-6-isopropyl-3-methylphenol based fluorescent receptor for dual Ni2+ and Cu2+ recognition: Nanomolar detection Pawar, S., Fegade, U., Bhardwaj, V.K., Singh, N.,Bendre, R.,  Kuwar, A., Polyhedron, 87, 2014, 79-85.

51. Colorimetric and fluorescent "on-off" chemosensor for Cu 2+ in semi-aqueous medium. Fegade, U., Sahoo, S.K., Attarde, S., Singh, N., Kuwar, A. Sensors and Actuators, B: Chemical, 202, 31, 2014, 924-928.

52. Highly sensitive ratiometric chemosensor for selective aNaked-Eyeananomolar detection of co2+ in semi-aqueous media. Patil, S., Fegade, U., Sahoo, S.K., Singh, A., Marek, J., Singh, N., Bendre, R., Kuwar, A. ChemPhysChem, 15, 11, 2014, 2230-2235.

53. A fluorescent and colorimetric sensor for nanomolar detection of Co2+in water. Kuwar, A., Patil, R., Singh, A., Bendre, R., Singh, N. ChemPhysChem, 15, 18, 2014, 3933-3937.      

54. Aqueous-phase synthesis of copper nanoparticles using organic nanoparticles: Application of assembly in detection of Cr3+. Singh, A., Kaur, S., Kaur, A., Aree, T., Kaur, N., Singh, N., Bakshi, M.S. ACS Sustainable Chemistry and Engineering, 2, 4, 2014, 982-990.

55. Production of nanocrystalline Ni-20Cr coatings for high-temperature applications. Kumar, M., Singh, H., Singh, N. Journal of Thermal Spray Technology, 23, 4, 2014, 692-707.

56. Fluorescent Organic Nanoparticles of Biginelli-Based Molecules: Recognition of Hg2+ and Cl in an Aqueous Medium; Ajnesh Singh, Tilak Raj, ThammaratAree, and Narinder Singh, Inorg. Chem. 2013, 52, 13830-13832

57. ZnO-Based Imine-Linked Coupled Biocompatible Chemosensor for Nano-molar detection of Co(II), Hemant Sharma, Ajnesh Singh, Navneet Kaur, Narinder Singh, ACS Sustainable Chem. Eng., 2013, 1, 1600-1608

58. Fluorescent Organic Nanoparticles (FONs) of Rhodamine Appended Dipodal Derivative: Highly Sensitive Fluorescent Sensor for Detection of Hg(II) in Aqueous Media, Vimal K. Bhardwaj, Hemant Sharma, Navneet Kaur, Narinder Singh, New J. Chem., 2013, Accepted Manuscript

59. An amide based dipodalZn(II) complex: nano-molar detection of HSO4 in a semi-aqueous system, UmeshFegade, Hemant Sharma, KundanTayade, Sanjay Attarde, Narinder Singh, Anil Kuwar, Org. Biomol. Chem., 2013,11, 6824-6828

60. Pyridyl- and benzimidazole-based ruthenium(III) complex for selective chloride recognition through fluorescence spectroscopy, Hemant Sharma, Hernández J. Guadalupe, Jayanthi Narayanan, Herbert Hofeld, ThangarasuPandiyan, Narinder Singh, Anal. Methods, 2013, 5, 3880-3887

61. A counterion displacement assay with a Biginelli product: a ratiometric sensor for Hg(II) and the resultant complex as a sensor for Cl, Amanpreet Kaur, Hemant Sharma, Simanpreet Kaur, Narinder Singh, Navneet Kaur, RSC Adv., 2013, 3, 6160-6166

62. Nanomolarfluorogenic recognition of Cu(II) in aqueous medium: A highly selective “on–off” probe based on mesitylene derivative, Sanyog Sharma, Maninder Singh Hundal, Narinder Singh, GeetaHundal, Sensors and Actuators B: Chemical, 2013, 188, 590-596

63. A benzimidazole-based Co3+ complex for electrochemical and spectroscopic recognition of I and in semi-aqueous media, Hemant Sharma, Vimal K. Bhardwaj, Navneet Kaur, Narinder Singh, Doo Ok Jang, Tetrahedron Letters, Available online 27 August 2013

64. Benzimidazole-based chromogenic chemosensor for the recognition of oxalic acid via counter ion displacement assay in semi-aqueous medium, PreetiSaluja, Navneet Kaur, Jongmin Kang, Narinder Singh, Doo Ok Jang, Tetrahedron, 2013, 69, 9001-9006

65. Benzthiazole-based multifunctional chemosensor: fluorescent recognition of Fe(III) and chromogenic recognition of HSO4-, Vimal K. Bhardwaj, PreetiSaluja, GeetaHundal, M.S. Hundal, Narinder Singh, Doo Ok Jang, Tetrahedron, 2013, 69, 1606-1610

66. Unusual transformation of Substituted-3-Formylchromones to Pyrimidine Analogues: Synthesis and Antimicrobial Activities of 5-(o-hydroxyaroyl)pyrimidines, Tilak Raj, Narinder Singh, M.P.S. Ishar, Bioorganic & Medicinal Chemistry Letters, Available online 17 September 2013

67. Differential recognition of anions with ZnO based urea-coupled sensors, Simanpreet Kaur, Vimal K. Bharadwaj, Amanpreet Kaur, Narinder Singh, Navneet Kaur, Materials Letters, 2013, 107, 154-157.

68. Fluorescent primary sensor for zinc and resultant complex as secondary sensor towards phosphorylated biomolecules: INHIBIT logic gate, Kamalpreet Kaur, Vimal K. Bhardwaj, Navneet Kaur, Narinder Singh, InorganicaChimicaActa, 2013, 399, 1-5

69. L-cysteine recognition triggered by Zn(II) complexation with ligand, Min Joung Kim, Hemant Sharma, Narinder Singh, Doo Ok Jang, Inorganic Chem. Commun. 2013, 36, 96-99

70. Synthesis and deposition of Ni20Cr powder using cold spraying, Manoj Kumar, Harpreet Singh, Narinder Singh, Surface Engineering, 2013, 29, 419-426

71. Study of Ni-20Cr Coatings for High Temperature Applications – A Review, Manoj Kumar, Harpreet Singh, Narinder Singh, Archives of Metallurgy and Materials, 2013, 58, 523-528

72. Extraction and transport behaviour of tripodal receptor: selective recovery of Ni(II) and processing into nickel nanoparticles, Manoj Kumar, Narinder Singh, Harpreet Singh, Mineral Processing and Extractive Metallurgy, 2013, 122, 36-41

73. A Much-Needed Mechanism and Reaction Rate for the Oxidation of Phenols with ClO2: A Joint Experimental and Computational Study, Carlos Alberto Huerta Aguilar, Jayanthi Narayanan, MariappanManoharan, Narinder Singh and PandiyanThangarasu, Australian Journal of Chemistry, 2013, 66, 814-824

74. Fluorescent chemosensor for Al3+ and resultant complex as a chemosensor for perchlorate anion: First molecular security keypad lock based on Al3+ and ClO4inputs. Kamalpreet Kaur, Vimal K. Bhardwaj, Navneet Kaur, Narinder Singh;Inorganic Chemistry Communications, 2012, 26, 31-36

75. Benzimidazole-based fluorescent sensors for Cr3+ and their resultant complexes for sensing HSO4- and F-. PreetiSaluja, Navneet Kaur, Narinder Singh, Doo Ok Jang; Tetrahedron, 2012, 68, 8551-8556

76. Imine linked chemosensors coupled with ZnO: Fluorescent and chromogenic detection of Al3+. Hemant Sharma, Karan Narang, Narinder Singh, Navneet Kaur; Materials Letters, 2012, 84, 104-106

77. Imine linked 1,8-naphthalimide: Chromogenic recognition of metal ions, density function theory and cytotoxic activity. Hemant Sharma, Navneet Kaur, Narinder Singh;InorganicaChimicaActa, 2012, 391, 83-87

78. Imine coupled ZnO based fluorescent chemosensor for the simultaneous estimation of Al3+ and Cr3+. Kamalpreet Kaur, Navneet Kaur, Narinder Singh;Materials Letters, 2012, 80, 78-80

79. Dipodal fluorescent chemosensor for Cu2+ and resultant complex as a chemosensor for iodide. Hanna Goh, Min Joung Kim, PreetiSaluja, Narinder Singh, Doo Ok Jang;Tetrahedron Letters, 2012, 53, 3900-3902

80. Benzimidazole-based receptor for Zn2+ recognition in a biological system: a chemosensor operated by retarding the excited state proton transfer. Min Joung Kim, Kamalpreet Kaur, Narinder Singh, Doo Ok Jang; Tetrahedron, 2012, 68, 5429-5433

81. A benzimidazole-based fluorescent sensor for Cu2+ and its complex with a phosphate anion formed through a Cu2+ displacement approach. PreetiSaluja, Navneet Kaur, Narinder Singh, Doo Ok Jang; Tetrahedron Letters, 2012, 53, 3292-3295

82. Surface decoration of ZnO nanoparticles: A new strategy to fine tune the recognition properties of imine linked receptor. Hemant Sharma, Navneet Kaur, ThangarasuPandiyan, Narinder Singh;Sensors and Actuators B: Chemical, 2012, 166-167, 467-472

83. Imine linked fluorescent chemosensor for Al3+ and resultant complex as a chemosensor for HSO4 anion. Kamalpreet Kaur, Vimal K. Bhardwaj, Navneet Kaur, Narinder Singh;Inorganic Chemistry Communications, 2012, 18, 79-82

84. Benzimidazole-based imine-linked chemosensor: chromogenic sensor for Mg2+ and fluorescent sensor for Cr3+. PreetiSaluja, Hemant Sharma, Navneet Kaur, Narinder Singh, Doo Ok Jang; Tetrahedron, 2012, 68, 2289-2293

85. Chromogenic and Fluorescent Recognition of Iodide with a Benzimidazole-Based Tripodal Receptor. Doo Youn Lee, Narinder Singh, Min Joung Kim, Doo Ok Jang; Organic Letters, 2011, 13,  3024–3027

86. An azo dye-coupled tripodal chromogenic sensor for cyanide. Doo Youn Lee, Narinder Singh, ApuriSatyender, Doo Ok Jang; Tetrahedron Letters, 2011, 52, 6919-6922

87. A benzthiazole-based tripodalchemosensor for Ba2+ recognition under biological conditions. PreetiSaluja, Navneet Kaur, Narinder Singh, Doo Ok Jang; Tetrahedron Letters, 2011, 52, 6705-6708

88. A selective ATP chromogenic sensor for use in an indicator displacement assay. Narinder Singh, Doo Ok Jang; Tetrahedron Letters, 2011, 52, 5094-5097

89. Ratiometric and simultaneous estimation of Fe3+ and Cu2+ ions: 1,3,5-substituted triethylbenzene derivatives coupled with benzimidazole. Doo Youn Lee, Narinder Singh, Doo Ok Jang; Tetrahedron Letters, 2011, 52, 3886-3890

90. Tetrapodal receptors for selective fluorescent sensing of AMP: analyte-induced conformational restriction to persuade fluorescence enhancement. Narinder Singh, Doo Ok Jang; Tetrahedron Letters, 2011, 52, 2608-2610

91. New tripodal and dipodal colorimetric sensors for anions based on tris/bis-urea/thiourea moieties.Vimal K. Bhardwaj, Sanyog Sharma, Narinder Singh, Maninder Singh Hundal, GeetaHundal;Supramolecular Chemistry, 2011, 23, 790-800

92. Fine tuning of a solvatochromicfluorophore for selective determination of Fe3+: A new type of benzimidazole-based anthracene-coupled receptor. Doo Youn Lee, Narinder Singh, Doo Ok Jang; Tetrahedron Letters, 2011, 52, 1368-1371

93. Ratiometric fluorescent determination of Zn (II): a new class of tripodal receptor using mixed imine and amide linkages. Doo Youn Lee, Narinder Singh, Min Joung Kim, Doo Ok Jang;  Tetrahedron, 2010, 66, 7965-7969

94. Single sensor for multiple analytes: chromogenic detection of I and fluorescent detection of Fe3+. Hee Jung Jung, Narinder Singh, Doo Youn Lee, Doo Ok Jang; Tetrahedron Letters, 2010, 51, 3962-3965

95. A benzimidazole-based single molecular multianalyte fluorescent probe for the simultaneous analysis of Cu2+ and Fe3+. Doo Youn Lee, Narinder Singh, Doo Ok Jang; Tetrahedron Letters, 2010, 51, 1103-1106


Dr. Prabal Banerjee


1. Synthesis of functionalized dispiro-oxindoles through azomethineylide dimerization and mechanistic studies to explain the diastereoselectivity. Banerjee, P., Pandey, A.K. RSC Advances, 4, 63, 2014, 33236-33244.

2. Asymmetric synthesis of densely functionalized medium-ring carbocycles and lactones through modular assembly and ring-closing metathesis of sulfoximine-substituted trienes and dienynesLejkowski, M., Banerjee, P., Schüller, S., Münch, A, Runsink, J., Vermeeren, C., Gais, H.-J. Chemistry - A European Journal, 18, 12, 2012, 3529-3548.

3. Spiro- and bicycloannulation of sulfoximine-substituted 2-hydroxy-dihydropyrans: Enantioselective synthesis of spiroketals, spiroethers, and oxabicycles and structure of dihydropyranoxocarbenium ions Lejkowski, M., Banerjee, P., Raabe, G., Runsink, J., Gais, H.J. European Journal of Organic Chemistry 2014, 3, 2014, 529-553.


Dr. Rajendra Srivastava


1. ZSM-5 zeolite nanosheets with remarkably improved catalytic activity synthesized using a new class of structure directing agents Rajkumar Kore, Rajendra Srivastava, BiswarupSatpatiChemistry - A European Journal (2014, 36, 11511-11521)

2. Cu(I) metal organic framework catalyzed C-C and C-N coupling reactions Poonam Rani, Rajendra Srivastava, Tetrahedron Letters (2014, 55, 5256-5260)

3.Simultaneous electrochemical determination of nanomolar concentrations of aminophenol isomers using nanocrystallinezirconosilicate modified carbon paste electrode Balwinder Kaur, Rajendra Srivastava, ElectrochimicaActa, 133 (2014, 141, 61-71)

4. Synthesis of ionic liquids coated nanocrystalline zeolite materials and their application in the simultaneous determination of adenine, cytosine, guanine, and thymineBalwinder Kaur, Rajendra Srivastava,  ElectrochimicaActa (2014,133, 428-439)

5. Ionic liquids coated Fe3O4 based inorganic–organic hybrid materials and their application in the simultaneous determination of DNA basesBalwinder Kaur, Rajendra Srivastava, Colloids and Surfaces B: Biointerfaces(2014, 118, 179-187).

6. Selective, nanomolar electrochemical determination of environmental contaminants dihydroxybenzene isomers found in water bodies using nanocrystalline zeolite modified carbon paste electrodes, Electroanalysis(2014, 26, 1739-1750)

7. NanocrystallineMetallosilicate Modified Electrodes for the Simultaneous, Sensitive, and Selective Determination of Riboflavin, Rutin, and PyridoxineBalwinder Kaur, Rajendra Srivastava,  Electroanalysis (2014, 26, 1078-1097)

8. Highly efficient and green chemical synthesis of imidazolyl alcohols and N-imidazolyl functionalized β-amino compounds using nanocrystalline ZSM-5 catalystsRajkumar Kore, BiswarupSatpati, Rajendra Srivastava, Applied Catalysis A: General (2014, 477, 8-17)

9. Facile preparation of β-Ni(OH)2-NiCo2O4 hybrid nanostructure and its application in the electro-catalytic oxidation of methanol M.U. AnuPrathap, BiswarupSatpati, Rajendra Srivastava, ElectrochimicaActa, 2014, 120, 368-380.

10. Simultaneous determination of ascorbic acid, dopamine, uric acid, and tryptophan by nanocrystalline ZSM-5 modified electrodes Kaur, B., Srivastava, R. Journal of Nanoscience and Nanotechnology14,  2014, 6539-6550.
11. Highly efficient nanocrystallinezirconosilicate catalysts for the aminolysis, alcoholysis, and hydroamination reactions; Rajkumar Kore, Rajendra Srivastava, and BiswarupSatpati; ACS Catalysis 2013, 12, 2891-2904

12. Simultaneous detection of guanine, adenine, thymine, and cytosine at polyaniline/MnO2 modified electrode; AnuPrathap M.U., Rajendra Srivastava, and BiswarupSatpati; ElectrochimicaActa 2013, 114, 285-295

13. Facile preparation of Ni(OH)2–MnO2 hybrid material and its application in the electrocatalytic oxidation of hydrazine; M.U. AnuPrathap, V. Anuraj, BiswarupSatpati, Rajendra Srivastava; Journal of Hazardous Materials 2013, 262, 766-774

14. Transition-Metal-Exchanged Nanocrystalline ZSM-5 and Metal-Oxide-Incorporated SBA-15 Catalyzed Reduction of Nitroaromatics; Balwinder Kaur, Mahesh Tumma, and Rajendra Srivastava; Industrial and Engineering Chemistry Research 2013, 52, 11479-11487

15. Synthesis, structural and spectral properties of Au complexes: Luminescence properties and their non-covalent DNA binding studies; A. Huerta Carlos, J.M Talamantes  Gómez, T. Pandiyan,  I. Camacho-Arroyo, A. González-Arenas, N. Jayanthi, Rajendra Srivastava; Applied Organometallic Chemistry,  2013, 10, 578-587.

16. Synthesis of imidazole based NHC-Au(I) complexes and their application in non-enzymatic glucose sensing; AnuPrathap M.U., Carlos Alberto Huerta Aguilar, ThangarasuPandiyan, and Rajendra Srivastava; Journal of Applied Electrochemistry 2013, 43, 939-951

17. Electrochemical reduction of Lindane (γ-HCH) at NiCo2O4 modified electrode; M.U. AnuPrathap, Rajendra Srivastava; ElectrochimicaActa 2013, 108, 145-152

18. Facile preparation of polyaniline/MnO2 nanofibers and its electrochemical application in the simultaneous determination of catechol, hydroquinone, and resorcinol; M.U. AnuPrathap,  BiswarupSatpati, Rajendra Srivastava; Sensors & Actuators: B. Chemical 2013, 186, 66-77

19. Simultaneous and sensitive determination of ascorbic acid, dopamine, uric acid, and tryptophan with silver nanoparticles-decorated reduced graphene oxide modified electrode; Balwinder Kaur, ThangarasuPandiyan, BiswarupSatpati, Rajendra Srivastava; Colloids and Surfaces B: Biointerfaces 2013, 111, 97-106

20. Synthesis of NiCo2O4 and its application in the electrocatalytic oxidation of methanol; M.U. AnuPrathap, Rajendra Srivastava; Nano Energy, 2013, 5, 1046-1053.

21. A simple, eco-friendly, and recyclable bi-functional acidic ionic liquid catalysts for Beckmann rearrangement; Rajkumar Kore, Rajendra Srivastava; Journal of Molecular Catalysis A: Chemical 2013, 376, 90-97

22. Transition metal nanoparticles supported on mesoporous polyaniline catalyzed reduction of nitroaromatics; Mahesh Tumma, Rajendra Srivastava; Catalysis Communications 2013, 37, 64-68

23. Synthesis of hierarchical Beta using piperidine based multi-ammonium surfactants; Rajkumar Kore, R. Sridharkrishna, and Rajendra Srivastava; RSC Advances 2013, 3, 1317-1322

24. Tailoring properties of polyaniline for simultaneous determination of a quaternary mixture of ascorbic acid, dopamine, uric acid, and tryptophan; M.U. AnuPrathap, Rajendra Srivastava; Sensors & Actuators: B. Chemical 2013, 177, 239-250

25. Cu nanoparticles supported mesoporous polyaniline and its applications towards non-enzymatic sensing of glucose and electrocatalytic oxidation of methanol; M.U. AnuPrathap, ThangarasuPandiyan, Rajendra Srivastava; Journal of Polymer Research 2013, 20, 86

26. One-pot synthesis of 3-substituted indole derivatives using moisture stable, reusable task specific ionic liquid catalysts; A. Ravindran, R. Kore, R. Srivastava; Indian Journal of Chemistry: Section B 2013, 52B, 129-135

27. Synthesis of transition metal exchanged nanocrystalline ZSM-5 and their application in electrochemical oxidation of glucose and methanol; Balwinder Kaur, M.U. AnuPrathap, Rajendra Srivastava; ChemPlusChem 2012, 77, 1119-1127

28. Synthesis of zeolite Beta, MFI, and MTW using imidazole, piperidine, and pyridine based quaternary ammonium salts as structure directing agents; R. Kore, R. Srivastava; RSC Advances 2012, 2, 10072–10084 (Accepted 22 August 2012)

29. Influence of –SO3H functionalization (N-SO3H or N-R-SO3H, where R = alkyl/benzyl) on the activity of Brönsted acidic ionic liquids in the hydration reaction; R. Kore, R. Srivastava; Tetrahedron Letters 2012, 53, 3245–3249

30. Hydration of alkynes using Brönsted acidic ionic liquids in the absence of Nobel metal catalyst/H2SO4; R. Kore, T.J. Dhilip Kumar, R. Srivastava; Journal of Molecular Catalysis A: Chemical 2012, 360, 61–70

31. Direct synthesis of metal Oxide incorporated mesoporous SBA-15 and their applications in non-enzymatic sensing of glucose; M.U. AnuPrathap, B. Kaur, Rajendra Srivastava; Journal Colloid and Interface Science 2012, 370, 144-154

32. Hydrothermal synthesis of CuO micro-/nanostructures and their applications in the oxidative degradation of methylene blue and non-enzymatic sensing of glucose/H2O2; M.U. AnuPrathap, Balwinder Kaur, Rajendra Srivastava; Journal Colloid and Interface Science 2012, 381, 143-151

33. Syntheses and catalytic activities of homogenous and hierarchical ZSM-5 grafted Pd(II) dicarbene complex of imidazole based ionic liquids; Rajkumar Kore, Mahesh Tumma, Rajendra Srivastava; Catalysis Today 2012, 198, 189–196

34. Synthesis of mesostructured polyaniline using mixed surfactants, anionic sodium dodecylsulfate and non-ionic polymers and their applications in H2O2 and glucose sensing; M.U. AnuPrathap, Bhawana Thakur, Shilpa N. Sawant, Rajendra Srivastava; Colloids and Surfaces B: Biointerfaces 2012, 89, 108-116

35. Synthesis of triethoxysilaneimidazolium based ionic liquids and their application in the preparation of mesoporous ZSM-5 Rajkumar Kore, Rajendra Srivastava; Catalysis Communication 2012, 18, 11-15

36. Synthesis of Dicationic Ionic Liquids and their Application in the preparation of Hierarchical Zeolite Beta; Rajkumar Kore, BiswarupSatpati, Rajendra Srivastava; Chemistry – A European Journal, 2011, 17, 14360-14365

37. Morphologically controlled synthesis of copper oxides and their catalytic applications in the synthesis of propargylamine and oxidative degradation of methylene blue; Rajendra Srivastava, AnuPrathap M. U., Rajkumar Kore; Colloids and Surfaces A: Physicochem. Eng. Aspects 2011, 392, 271–282

38. Synthesis and applications of novel imidazole and benzimidazole based sulfonic acid group functionalized Bronsted acidic ionic liquid catalysts; Raj Kumar Kore, Rajendra Srivastava; Journal of Molecular Catalysis A: Chemical 2011, 345, 117

39. Synthesis and applications of highly efficient, reusable, sulfonic acid group functionalized Brönsted acidic ionic liquid catalysts; Raj Kumar Kore, Rajendra Srivastava; Catalysis Communications 2011, 12, 1420-1424

40. Synthesis of nanoporous metal oxides through the self-assembly of phloroglucinol–formaldehyde resol and tri-block copolymer; M.U. AnuPrathap, R. Srivastava; Journal Colloid and Interface Science 2011, 358, 399-408

41. Morphological controlled synthesis of micro-/nano-polyaniline M.U. AnuPrathap, R. Srivastava; Journal of Polymer Research 2011, 18, 2455-2467

42. Eco-friendly and morphologically controlled synthesis of porous CeO2 microstructure and its application in water purification; Rajendra Srivastava; Journal Colloid and Interface Science 2010, 348, 600-607

43. Assessment of the Catalytic Activities of Novel Brönsted Acidic Ionic Liquid Catalysts; Rajendra Srivastava; Catalysis Letters,2010,139, 17-25

44. Synthesis of industrially important aromatic and heterocyclic ketones using hierarchical ZSM-5 and Beta zeolites Rajkumar Kore, Biswarup Satpati, and Rajendra Srivastava* Applied Catalysis A: Chemical (Accepted on January 2nd 2015)

45. Simple and Economical Synthesis of Alkyl Phenyl Ethers by the Reaction of Phenols and Alkyl Esters Using Nanocrystalline Beta Bhaskar Sarmah and Rajendra Srivastava*ACS Sustainable Chemistry and Engineering (Accepted 18th December 2014) DOI: 10.1021/sc5006582

46. Synthesis of NiCo2O4/Nano-ZSM-5 nanocomposite material with enhanced electrochemical properties for the simultaneous determination of ascorbic acid, dopamine, uric acid and tryptophan Balwinder Kaur, Biswarup Satpati, and Rajendra Srivastava* New Journal of Chemistry (Accepted 13th November 2014) DOI: 10.1039/c4nj01360c


Dr. Tharamani C.N.

1.  Mesoporous nitrogen-rich carbon materials as cathode catalysts in microbial fuel cells,YongtaeAhn, Ivan Ivanov, Tharamani C. Nagaiah, AnkurBordoloi, Bruce E. Logan  Journal of Power Sources, 2014, 269, 212-215
2.  Electrochemically deposited Pd-Pt and Pd-Au co-deposits on graphite electrodes for electrocatalytic H2O2 reduction Tharamani, C. Nagaiah; Schaefer, D.; Schuhmann, W.; Dimcheva, N. Anal. Chem. 201385, 7897–7903  (The IIT Ropar affiliation is at the end of the page in this journal).
3. Efficient Deposition of Semiconductor Powders for Photoelectrocatalysis by Airbrush Spraying R Gutkowski, D Schäfer, T C Nagaiah, JEY Heras… - Electroanalysis, 2014  DOI: 10.1002/elan.201400363


Dr. Yashveer Singh

1. Targeted drug delivery to central nervous system (CNS) for the treatment of neurodegenerative disorders: trends and advances, Kritika Goyal, Veena Koul, Yashveer Singh, Akshay Anand, Central Nervous System Agents in Medicinal Chemistry, 14, 2014, 43-591
2. Poly(ethylene glycol) (PEG)-lactic acid nanocarrier-based degradable hydrogels for restoring the vaginal microenvironment, Sujata SundaraRajan, YevgeniyTurovskiy, Yashveer Singh, Michael L. Chikindas, Patrick J. Sinko, Journal of Controlled Release, 194, 2014, 301-309

3. Poly(ethylene glycol) (PEG)-based hydrogels for the controlled release of the antimicrobial subtilosin, for prophylaxis of bacterial vaginosis, Sujata SundaraRajan, Veronica Cavera, Xiaoping Zhang, Yashveer Singh, Michael Chikindas, and Patrick Sinko, Antimicrobial Agents and Chemotherapy 58, 2014, 2747-2753

4. Novel monodispersePEGtidedendrons: design, fabrication, and evaluation of mannose receptor-mediated macrophage targeting, Jieming Gao, Peiming Chen, Yashveer Singh, Xiaoping Zhang, Zoltan Szekely, Stanley Stein, and Patrick J. Sinko, Bioconjugate Chemistry 24, 2013, 1332-1344 


Dr. Vimal K. Bhardwaj


1. Potassium induced stitching of a flexible tripodalligand into a bi-metallic two-dimensionalcoordination polymer for photo-degradation of organic dyes, Vimal K. Bhardwaj*,Dalton Trans., 44, 2015, 8801-8804.
2. 2-((E)-(2-Aminophenylimino)methyl)-6-isopropyl-3-methylphenol based fluorescent receptor for dual Ni2+ and Cu2+ recognition: Nanomolar Detection,
Shashikant Pawar, Umesh Fegade, Vimal K. Bhardwaj, Narinder Singh, Ratnamala Bendre, Anil Kuwar, Polyhedron, 87, 2015, 79-85.
3. Comparative DNA Binding Abilities and Phosphatase-Like Activities of Mono-, Di-, and Trinuclear Ni(II) Complexes: The Influence of Ligand Denticity, Metal-Metal Distance, and Coordinating Solvent/ Anion on Kinetics Studies, Vimal K. Bhardwaj
*, Ajnesh Singh, Inorganic Chemistry, 53, 2014,  10731–10742.
4. Ratiometric Fluorescent Probe for Biothiol in Aqueous Medium with Fluorescent Organic Nanoparticles, Vimal K. Bhardwaj, Hemant Sharma, and Narinder Singh, Talanta, 129, 2014, 198-202.

5. Fluorescent Organic Nanoparticles as Chemosensor for Nanomolar Detection of Cs+ in Aqueous Medium" Shweta Chopra, Narinder Singh, Pandiyan Thangarasu, Vimal K. Bhardwaj,* Navneet Kaur*, Dyes and Pigments, 106, 2014, 45-50.

6. Highly selective turn-on fluorescent sensor for nanomolar detection of biologically important Zn2+ based on isonicotinohydrazide derivative: Application in cellular imaging,
K. Tayade, S. K Sahoo, B. Bondhopadhyay, Vimal K. Bhardwaj, Narinder Singh, Anupam Basu, Ratnamala Bendre, Anil Kuwar, Biosensors and Bioelectronics,  61, 2014, 429-433.
7. Nanomolar Detection of AgI Ions in Aqueous Medium by Using Naphthalimide-Based Imine-Linked Fluorescent Organic Nanoparticles – Application in Environmental Samples,
Eur J. Inorg chem. ,Hemant Sharma, Vimal K. Bhardwaj , Narinder Singh, 2014, 5424–5431.
8. "Organic – Inorganic Nanohybrids and their applications in Silver Extraction, Chromogenic Cu2+ detection in Biological Systems, and Hemolytic Assay" Ajneesh Singh, Vimal K. Bhardwaj, M S Bakshi, KamalpreetKaurr, Narinder Singh, RSC Adv., 4, 2014, 21079–21088.   

9. Imine-Linked Chemosensors for the Estimation of Zn2+ in Biological Samples; Preeti Saluja, Vimal K. Bhardwaj, Thangarasu Pandiyan, Simanpreet Kaur, Navneet Kaur, Narinder Singh, RSC Adv., 4, 2014, 9784-9790.

10. Influence of surface modification by 2-aminothiophenol on optoelectronics properties of ZnO nanoparticles; Shashi B. Rana, Vimal K. Bhardwaj, Satbir Singh, Amarpal Singh,  Navneet Kaur, Journal of Experimental Nanoscience, 9, 2014, 877-891.

11. Fluorescent organic nanoparticles (FONs) of rhodamine-appended dipodal derivative: highly sensitive fluorescent sensor for the detection of Hg2+ in aqueous media, Vimal K. Bhardwaj*, Hemant Sharma, Navneet Kaur, Narinder Singh, New J. Chem., 37, 2013, 4192-4198 .

12. Benzthiazole-Based Multifunctional Chemosensor: Fluorescent Recognition of Fe3+ and Chromogenic Recognition of HSO4- ; Vimal K. Bhardwaj
, Preeti Saluja, Geeta Hundal, M. S. Hundal, Narinder Singh,  Doo Ok Jang; Tetrahedron, 2013, 69, 1606.
13. A benzimidazole-based Co3+ complex for electrochemical and spectroscopic recognition of I- and HSO4- in semi-aqueous media; Hemant Sharma , Vimal K. Bhardwaj , Navneet Kaur , Narinder
Singh , Doo Ok Jang, Tetrahedron Letters, 54, 2013, 5967–5970.
14. Differential recognition of anions with ZnO based urea-coupled sensors; Simanpreet Kaur, Vimal K. Bhardwaj, Amanpreet Kaur, Narinder Singh, Navneet Kaur. Materials Letters, 107, 2013, 154–157.

15. Fluorescent Primary Sensor for Zinc and Resultant Complex as Secondary Sensor towards Phosphorylated Biomolecules: INHIBIT Logic Gate;
Kamalpreet Kaur, Vimal K. Bhardwaj, Navneet Kaur, NarinderSingh, Inorganic Chim. Acta., 399, 2013, 1–5
16. Synthesis and optical characterization of ZnO nanoparticles capped with 2-aminothiols; Shashi B. Rana, Vimal K. Bhardwaj, Satbir Singh, Amarpal Singh,  Navneet Kaur; J Mater Sci: Mater Electron, 2012, DOI 10.1007/s10854-012-0767-9.

17. Fluorescent chemosensor for Al3+ and resultant complex as a chemosensor for perchlorate anion: First molecular security keypad lock based on Al3+ and ClO4 inputs; Kamalpreet Kaur, Vimal K. Bhardwaj, Navneet Kaur,Narinder Singh, Inorganic Chem. Comm., 26, 2012, 31-36.

18. Imine Linked Fluorescent Chemosensor for Al3+ and Resultant Complex as a Chemosensor for HSO4- Anion, Kamalpreet Kaur , Vimal K. Bhardwaj , Navneet Kaur , Narinder Singh; Inorganic Chem. Commun. 18, 2012, 79–82.