| Dual channel selective fluorescence detection of Al (III) and PPi in aqueous media with an ‘off–on–off’switch which mimics molecular logic gates (INHIBIT and EXOR gates) S Goswami, A Manna, S Paul, K Aich, AK Das, S Chakraborty Dalton Transactions 42 (22), 8078-8085, 2013 | 123 | 2013 |
| A new pyrene based highly sensitive fluorescence probe for copper (II) and fluoride with living cell application S Goswami, S Chakraborty, S Paul, S Halder, S Panja, SK Mukhopadhyay Organic & Biomolecular Chemistry 12 (19), 3037-3044, 2014 | 84 | 2014 |
| Highly reactive (< 1 min) ratiometric probe for selective ‘naked-eye’detection of cyanide in aqueous media S Goswami, A Manna, S Paul, K Aich, AK Das, S Chakraborty Tetrahedron Letters 54 (14), 1785-1789, 2013 | 67 | 2013 |
| A simple quinoxaline-based highly sensitive colorimetric and ratiometric sensor, selective for nickel and effective in very high dilution S Goswami, S Chakraborty, S Paul, S Halder, AC Maity Tetrahedron Letters 54 (37), 5075-5077, 2013 | 57 | 2013 |
| Environmental applications of boron‐doped diamond electrodes: 2. Soil remediation and sensing applications C Trellu, S Chakraborty, PV Nidheesh, MA Oturan ChemElectroChem 6 (8), 2143-2156, 2019 | 54 | 2019 |
| Field observation on the biology and ecology of the lesser bandicoot rat, Bandicota bengalensis (Gray) in West Bengal S Chakraborty Proc. All India Rodent Seminar, 102-12, 1975 | 49 | 1975 |
| Detection of cyanide ion by chemosensing and fluorosensing technology S Chakraborty, S Paul, P Roy, S Rayalu Inorganic Chemistry Communications 128, 108562, 2021 | 48 | 2021 |
| A highly selective ratiometric chemosensor for Ni2+ in a quinoxaline matrix BPSS Shyamaprosad Goswami,*a Shampa Chakraborty,a Monoj Kumar Adak,a ... NJC 38, 6230-35, 2014 | 43* | 2014 |
| Detection of iron (III) by chemo and fluoro-sensing technology S Chakraborty, M Mandal, S Rayalu Inorganic Chemistry Communications 121, 108189, 2020 | 35 | 2020 |
| Selective colorimetric and ratiometric probe for Ni (II) in quinoxaline matrix with the single crystal X-ray structure S Goswami, S Chakraborty, AK Das, A Manna, A Bhattacharyya, CK Quah, ... RSC Advances 4 (40), 20922-20926, 2014 | 35 | 2014 |
| Detection of nickel by chemo and fluoro sensing technologies S Chakraborty, S Rayalu Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy 245, 118915, 2021 | 24 | 2021 |
| Computational study of urea and its homologue glycinamide: conformations, rotational barriers, and relative interactions with sodium chloride A Singh, S Chakraborty, B Ganguly Langmuir 23 (10), 5406-5411, 2007 | 24 | 2007 |
| Design of an ion trap for trapping single 171 Yb+ S De, N Batra, S Chakraborty, S Panja, AS Gupta Current Science 106 (10), 1348-1352, 2014 | 16 | 2014 |
| Mat-related features from sandstones of the Vindhyan Supergroup in central India PK Bose Atlas of microbial mat features preserved within the siliciclastic rock …, 2007 | 14 | 2007 |
| Revision of the Subspecies of the Lesser Bandicoot Rat Bandicota bengalensis (Gray) (Rodentia : Muridae) VC Agarwal, S Chakraborty Records of the Zoological Survey of India, 267-274, 1971 | 13 | 1971 |
| Health beneficial effects of cucumber S Chakraborty, S Rayalu IntechOpen, 2021 | 11 | 2021 |
| C2‐Chiral Substituted cis‐1,3,5,7‐Tetraazadecalins as Proton Sponges:A Computational Study A Singh, S Chakraborty, B Ganguly European journal of organic chemistry 2006 (21), 4938-4942, 2006 | 10 | 2006 |
| The Indian ‘mole-rat’or lesser bandicoot rat, Bandicota bengalensis (Gray) S Chakraborty Rodents in Indian agriculture 1, 173-192, 1992 | 10 | 1992 |
| detection of fluoride ion by chemosensing and fluorosensing technology shampa chakraborty Results in Chemistry, 2023 | 9 | 2023 |
| Optical sensing of copper and its removal by different environmental technologies S Chakraborty, V Ravindran, PV Nidheesh, S Rayalu ChemistrySelect 5 (34), 10432-10474, 2020 | 7 | 2020 |
Sadhana S. RayaluNational Environmental Engineering Research Institute在 neeri.res.in 的电子邮件经过验证
