1. S. Sakthinathan, T. Kokulnathan, S. M. Chen, T. W. Chiu, Simple sonochemical synthesis of cupric oxide sphere decorated reduced graphene oxide composite for the electrochemical detection of flutamide drug in biological samples, J. Electrochem. Soc, 166 (2) B1-B8 (2019). (IF=3.662, Rank=2/19-Energy, Fuel)
2.B. Y. Hwang, S. Sakthinathan, T. W. Chiu, Production of hydrogen from steam reforming of methanol carried out by self-combusted CuCr1-xFexO2 (x = 0-1) nanopowders catalyst, Int. J. Hydrog. Energy, 44 (2019) 2848-2856. (IF=4.229, Rank=8/28-Energy, Fuel).
3.M. X. Lin, S. Sakthinathan, T. W. Chiu, H. Y. Chang, Y. M. Wang, Preparation of IT-SOFC with Pr2NiO4 cathode and hybrid Ce0.8Sm0.2O1.9 electrolytes, J. Ceram. Soc. Jpn, 4 (2019) 127 [4].
4.S. Y. Su, S. S. Wang, S. Sakthinathan, T. W. Chiu, J. H. Park, Preparation of CuAl2O4 submicron tubes from electrospun Al2O3 fibers, Ceramics International, 45 (2019) 1439-1442. (IF=3.05, Rank=2/27-Material Science, Ceramics).
5.P. Tamizhdurai, S. Sakthinathan, P. S. Krishnan, A. Ramesh, V. L. Mangesh, A. Abilarasu, S. Narayanan, K. Shanthi, T. W. Chiu, Catalytic activity of ratio-dependent SBA-15 supported zirconia catalysts for highly selective oxidation of benzyl alcohol to benzaldehyde and environmental pollutant heavy metal ions detection, Journal of Molecular Structure, 1176 (2019) 650-661. (IF=2.011, Rank=86/147-Chemistry, Physical)
6.T. Kokulnathan, T. W. Chen, S. M. Chen, J. V. Kumar, S. Sakthinathan, E.R. Nagarajan, Hydrothermal synthesis of silver molybdate/reduced graphene oxide hybrid composite: An efficient electrode material for the electrochemical detection of tryptophan in food and biological samples, Composites Part B 169 (2019) 249–257.2018.
7.P. Tamizhdurai, S. Sakthinathan, A. Ramesh, A. Abilarasu, V.L. Mangesh, S. Narayanan, K. Shanthi, Te-Wei Chiu, Highly selective oxidation of benzyl alcohol over Pt-sulphated zirconia supported on SBA-15 catalyst by using a high-pressure fixed bed reactor, Polyhedron, 155 (2018) 390–397. (IF=1.87, Rank=18/45-Chemistry, Inorganic Nuclear)
8.B. Mutharani, S. Sakthinathan, S. M. Chen, T. W. Chen, T. W. Chiu, Preparation of Samarium Oxide Nanoparticles Decorated Functionalized Multiwall Carbon Nanotubes Modified Electrode for the Electrochemical Determination of Catechol, Int. J. Electrochem. Sci, 13 (2018) 6996 – 7007. (IF=1.36, Rank=19/29-Electrochemistry).
9.R. Karthik, J. V. Kumar, S. M. Chen, T. Kokulnathan, T. W. Chen, S. Sakthinathan, T. W. Chiu, V. Muthuraj, Development of novel 3D flower-like praseodymium molybdate decorated reduced graphene oxide: An efficient and selective electrocatalyst for the detection of acetylcholinesterase inhibitor methyl parathion, Sens. Actuator B-Chem. 270 (2018) 353–361. (IF=5.6, Rank=4/28-Electrochemistry)
10.J. V. Kumar, R. Karthik, S. M. Chen, K. H. Chen, S. Sakthinathan, V. Muthuraj, T. W. Chiu, Design of novel 3D flower-like neodymium molybdate: An efficient and challenging catalyst for sensing and destroying pulmonary toxicity antibiotic drug nitrofurantoin, Chemical Engineering Journal, 346 (2018) 11–23. (IF=6.73, Rank=7/137-Engineering, Chemical).
11.T. W. Chiu, C. H. Chen, H. Y. Shih, H. Y. Chang, Y. M. Wang, S. Sakthinathan, Electrospinning of Pr2CuO4 Fiber and its Cathode Application in Solid Oxide Fuel Cell, Trans. Mat. Res. Soc. Japan, 43[2] 43-47 (2018).
12.T. Kokulnathan, S. Sakthinathan, S. M. Chen, R. Karthik, T. W. Chiu, Hexammine cobalt(III) coordination complex grafted reduced graphene oxide composite for sensitive and selective electrochemical determination of morin in fruit samples, Inorg. Chem. Front., 2018,5, 1145-1155. (IF=5.106, Rank=3/45- Chemistry, Inorganic and Nuclear).
13.J. V. Kumar, R. Karthik, S. M. Chen, T. Kokulnathan, S. Sakthinathan, V. Muthuraj, T. W. Chiu, T. W. Chen, Highly selective electrochemical detection of antipsychotic drug chlorpromazine in drug and human urine samples based on peas-like strontium molybdate as an electrocatalyst, Inorg. Chem. Front., 2018, 5, 643-655. (IF=5.106, Rank=3/45- Chemistry, Inorganic and Nuclear)
14.S. Sakthinathan, T. Kokulnathan, S. M. Chen, R. Karthik, T. W. Chiu, Ecofriendly preparation of graphene sheets decorated with an ethylenediamine copper(II) complex composite modified electrode for the selective detection of hydroquinone in water, Inorg. Chem. Front., 2018,5, 490-500. (IF=5.106, Rank=3/45- Chemistry, Inorganic and Nuclear)2017
15.S. Sakthinathan, S. Kubendhiran, S. M. Chen, M. Govindasamy, F. M.A. A. Hemaid, M. A. Ali, P. Tamizhdurai, S. Sivasanker, Metallated porphyrin noncovalent interaction with reduced graphene oxide‐modified electrode for amperometric detection of environmental pollutant hydrazine, Appl Organometal Chem. 31(2017) 3703, https:// doi.org/ 10.1002/ aoc.3703. (IF=3.581, Rank=19/72-Chemistry, Applied)
16.S. Sakthinathan, T. Kokulnathan, S. M. Chen, T. W. Chen, T. W. Tseng, X. Liu, W. C. Liao, A highly selective and sensitive detection of ellagic acid by using ethylenediamine ligand based cobalt (II) complex modified glassy carbon electrode, Int. J. Electrochem. Sci. 12 (2017) 6829-6841. (IF=1.369, Rank=19/29-Electrochemistry).
17.M. Govindasamy, S. Sakthinathan, S. M. Chen, T. W. Chiu, A. Sathiyan, J. P. Merlin, Reduced graphene oxide supported cobalt bipyridyl complex for sensitive detection of methyl parathion in fruits and vegetables, Electroanalysis, 29 (2017)1950 -1960. (IF=2.851, Rank=11/29-Electrochemistry)
18.S. Sakthinathan, S. Kubendhiran, S. M. Chen, C. Karuppiah, T. W. Chiu, Novel bifunctional electrocatalyst for ORR activity and methyl parathion detection based on reduced graphene oxide/palladium tetraphenylporphyrin nanocomposite, J. Phys Chem. C, 121 (2017) 14096-14107 (IF=4.48, Rank=31/146-Chemistry, Physical)
19.S. Sakthinathan, S. Kubendhiran, S. M. Chen, Hydrothermal Synthesis of Three dimensional graphene-multiwalled carbon nanotube nanocomposite for enhanced electrocatalytic oxidation of caffeic acid, Electroanalysis, 29 (2017) 1103-1112. (IF=2.851, Rank=11/29-Electrochemistry)
20.S. Kubendhiran, S. Sakthinathan, S. M. Chen, P. Tamizhdurai, K. Shanthi, C. Karuppiah, Green reduction of reduced graphene oxide with nickel tetraphenyl porphyrin nanocomposite modified electrode for enhanced electrochemical determination of environmentally pollutant nitrobenzene, J. Colloid Interface Sci, 497 (2017) 207-216. (IF=5.091, Rank = 44/135-Chemistry, Physical)
21.P. Tamizhdurai, S. Sakthinathan, S. M. Chen, K. Shanthi, S. Sivasanker, P. Sangeetha, Environmentally friendly synthesis of CeO2 nanoparticles for the catalytic oxidation of benzyl alcohol to benzaldehyde and selective detection of nitrite, Sci Rep, 7 (2017) 46372, DOI: 10.1038/srep46372. (IF=4.122, Rank=10/64-Multidisciplinary Sciences)
22.S. Sakthinathan, S. Kubendhiran, S. M. Chen, P. Sireesha, C. Karuppiah, C. Su, Functionalization of Reduced Graphene Oxide with β-cyclodextrin Modified Palladium Nanoparticles for the Detection of Hydrazine in Environmental Water Samples, Electroanalysis, 29 (2017) 587-594. (IF=2.851, Rank=11/29-Electrochemistry)
23.S. Sakthinathan, S. M. Chen, W. C. Liao, Multiwalled carbon nanotube supported Schiff base copper complex inorganic nanocomposite for enhanced electrochemical detection of dopamine, Inorg. Chem. Front, 4 (2017) 809-819. (IF=5.106, Rank=3/45- Chemistry, Inorganic and Nuclear)
24.S. Sakthinathan, S. Kubendhiran, S. M. Chen, K. Manibalan, M. Govindasamy, P. Tamizhdurai, S. T. Huang, Reduced graphene oxide non-covalent functionalized with zinctetra Phenyl Porphyrin Nanocomposite for Electrochemical Detection of Dopamine in Human Serum and Rat Brain Samples, Electroanalysis, 28 (2016) 2126-2135. (IF=2.851, Rank=11/29-Electrochemistry)
25.S. Kubendhiran, S. Sakthinathan, S. M. Chen, C. M. Lee1, B. Lou, P. Sireesha, C. Su, Electrochemically Activated Screen Printed Carbon Electrode Decorated with Nickel Nano Particles for the Detection of Glucose in Human Serum and Human Urine Sample, Int. J. Electrochem. Sci, 11(2016) 7934-7946. (IF=1.369, Rank: 19/29-Electrochemistry)
26.S. Sakthinathan, S. Kubendhiran, S. M. Chen, F. M. A. A. Hemaid, W. C. Liao, P. Tamizhdurai S. Sivasanker, M. A. Alic, A. A. Hatamlehc, A non-covalent interaction of Schiff base copper alanine complex with green synthesized reduced graphene oxide for highly selective electrochemical detection of nitrite, RSC Adv, 6 (2016) 107416-107425. (IF=2.963, Rank=56/166-Chemistry, Multidisciplinary)
27.S. Sakthinathan, H. F. Lee, S. M. Chen, P. Tamizhdurai, Electrocatalytic oxidation of dopamine based on non-covalent functionalization of manganese tetraphenylporphyrin /reduced graphene oxide nanocomposite, J. Colloid Interface Sci. 468 (2016) 120-127. (IF=5.091, Rank=44/135-Chemistry, Physical)
28.S. Sakthinathan, S. Kubendhiran, S. M. Chen, P. Tamizhdurai, Reduced graphene oxide/goldtetra phenyl porphyrin (RGO/Au–TPP) nanocomposite as an ultrasensitive amperometric sensor for environmentally toxic hydrazine, RSC Adv. 6 (2016) 56375-56383. (IF=2.963, Rank=56/166-Chemistry, Multidisciplinary)
29.S. Palanisamy, S. Sakthinathan, S. M. Chen, B. Thirumalraj, T. H. Wu, B. S. Lou, X. Liu, Preparation of β-cyclodextrin entrapped graphite composite for sensitive detection of dopamine, Carbohydr Polym. 135 (2016) 267–273. (IF=5.32, Rank=4/72-Chemistry, Applied)
30.C. Karuppiah, S. Sakthinathan, S. M. Chen, K. Manibalan, S. M. Chen, S. T. Huang, A non-covalent functionalization of copper tetraphenylporphyrin/chemically reduced graphene oxide nanocomposite for the selective determination of dopamine, Appl Organometal Chem, 30 (2016) 40-46. (IF=3.581, Rank=19/72-Chemistry, Applied) 2015
31.K. Nagaraj, K. Senthilmurugan, P. Thangamuniyandi, S. Sakthiunathan, Microheterogeneous mediated electron transfer reaction (ETR) of surfactant cobalt (III) complexes by Fe2+: Effect of pyridine substituent as co-ligand, Arabian Journal of Chemistry (2015), https://doi.org/10.1016/j.arabjc.2014.11.062 (IF=4.008, Rank =31/166-Chemistry, Multidisciplinary)
32.K. Nagaraj, K. Senthilmurugan, P. Thangamuniyandi, S. Sakthinathan, Kinetics and thermodynamics of formation and electron-transfer reactions of surfactant cobalt (III) complexes containing polypyridyl ligands with Fe(CN)64− in microheterogeneous environment, Chemical Kinetics, 47(2015) 174-182. (IF=1.416, Rank=106/146-Chemistry, Physical)
33.K. Nagaraj, S. Sakthinathan, S. Arunachalam, Synthesis, CMC determination and nucleic acid-binding interaction of a surfactant copper (II) complex containing amino acid–Schiff base ligand: [Cu(sal-ala) (bpy)(DA)], J. Iran Chem Soc, 12 (2015) 267-275. (IF=1.593, Rank =101/166-Chemistry, Multidisciplinary)
34.M. Velmurugan, S. Sakthinathan, S. M. Chen, C. Karuppiah, Direct electron transfer of glucose oxidase and electrocatalysis of glucose based on gold nanoparticles/ electro activated graphite nanocomposite, Int. J. Electrochem. Sci, 10 (2015) 6663-6671. (IF=1.369, Rank=19/29- Electrochemistry)
35.S. Sakthinathan, S. Palanisamy, S. M. Chen, P. S. Wu, L. Yao, B. S. Lou, Electrochemical detection of phenol in industrial pollutant absorbed molecular sieves by electrochemically activated screen printed carbon electrode, Int. J. Electrochem. Sci, 10 (2015) 3319-3328. (IF=1.369, Ranking=19/29-Electrochemistry)
36.S. Sakthinathan, S. M. Chen, Graphene supported nanocomposite for electrochemical detection of pollutant materials: A short review, Int. J. Electrochem. Sci, 10 (2015) 6527-6536. (IF=1.369, Ranking =19/29-Electrochemistry)
37.K. Sugumar, K. Nagaraj, K. S. Murugan, P. Thangamuniyandi, S. Sakthinathan, P. Vijayakumar, A Comparative study on the electron transfer reaction (ETR) of surfactant cobalt (III) complexes of aliphatic/aromatic ligands in microheterogeneous media: A thermodynamic approach, RSC Adv, 5 (2015) 48079-48085. (IF = 2.963, Rank = 56/166-Chemistry, Multidisciplinary)
38.K. Nagaraj, S. Sakthinathan, S. Arunachalam, Biophysical insights into the intercalative interaction of surfactant cobalt (III) complexes of certain diimine ligands bound to yeast tRNA: Effects of hydrophobicity, Spectrochim. Acta Mol. Biomol. Spectrosc. 147 (2015) 93-98. (IF=2.880, Rank = 12/42-Spectroscopy)
39.K. Nagaraj, K. S. Murugan, P. Thangamuniyandi, S. Sakthinathan, Electron-transfer reactions of cobalt (III) complexes. 1. The kinetic investigation of the reduction of various surfactant cobalt (III) complexes by iron (II) in surface active ionic liquids, Spectrochim. Acta Mol. Biomol. Spectrosc, 143 (2015) 101-106. (IF=2.880, Rank= 12/42-Spectroscopy)
40.K. Nagaraj, S. Sakthinathan, S. Arunachalam, Thermodynamics and kinetic investigation of electron transfer reactions of surfactant cobalt (III) complexes containing diimine ligands with iron (II) in the presence of liposome vesicles and amphiphilic salt media, RSC Adv, 4, (2014) 56068-56073. (IF=2.936, Rank=56/166-Chemistry, Multidisciplinary)
41.K. Nagaraj, K. Senthilmurugan, P. Thangamuniyandi, S. Sakthinathan, Synthesis, micellization behavior, DNA/RNA binding and biological studies of a surfactant cobalt (III) complex with dipyrido [3,2-a:2′,4′-c] (6,7,8,9-tetrahydro) phenazine, J Fluoresc, 24 (2014) 1701-1714. (IF=1.66, Rank=51/76-Chemistry, Analytical)
42.K. Nagaraj, S. Ambika, S. Rajasri, S. Sakthinathan, S. Arunachalam, Synthesis, micellization behavior, antimicrobial and intercalative DNA binding of some novel surfactant copper(II) complexes containing modified phenanthroline ligands, Colloids Surf. B, 122 (2014) 151-157. (IF=3.997, Rank=16/73-Biophysics)
43.K. Nagaraj, K. Senthilmurugan, P. Thangamuniyandi, S. Sakthinathan, Nucleic acid binding study of surfactant copper (II) complex containing dipyrido [3,2-a:20-30-c] phenazine ligand as an intercalator: in vitro antitumor activity of complex in human liver carcinoma (HepG2) cancer cells, RSC Adv, 4 (2014) 56084–56094. (IF=2.936, Rank=56/166-Chemistry, Multidisciplinary)
44.K. Nagaraj, G. Velmurugan, S. Sakthinathan, P. Venuvanalingam, S. Arunachalam, Influence of self-assembly on intercalative DNA binding interaction of double-chain surfactant Co (III) complexes containing imidazo [4,5-f] [1,10] phenanthroline and dipyrido[3,2-d:2’-3’-f] quinoxaline ligands: experimental and theoretical study, Dalton Trans, 43 (2014) 18074-18086. (IF=4.099, Rank = 7/46-Chemistry, Inorganic, Nuclear)
45.K. Nagaraj, S. Sakthinathan, S. Arunachalam, Effect of hydrophobicity on intercalative binding of some surfactant copper(II) complexes with tRNA, Monatsh Chem, 145 (2014) 1897-1902. (IF = 1.285, Rank =106/166-Chemistry, Multidisciplinary)
46.K. Nagaraj, S. Sakthinathan, S. Arunachalam, Synthesis, CMC determination, antimicrobial activity and nucleic acid binding of a surfactant copper(II) complex containing phenanthroline and alanine Schiff-base, J Fluoresc, 24 (2014) 589-598. (IF=1.665, Rank = 51/76-Chemistry, Analytical)
47.T. Kokulnathan, T. W. Chen, S. M. Chen, V. Kumar, S. Sakthinathan, E. R. Nagarajan, Hydrothermal synthesis of silver molybdate/reduced graphene oxide hybrid composite: An efficient electrode material for the electrochemical detection of tryptophan in food and biological samples, Composites Part B Engineering
48.S. Nehru, S. Sakthinathan*, P. Tamizhdurai, Te-Wei Chiu*, K. Shanthi, Reduced graphene oxide/multiwalled carbon nanotube composite decorated with Fe3O4 magnetic nanoparticles for electrochemical determination of hydrazine in environmental water, Journal of Nanoscience and Nanotechnology, 2019. (Accepted) (IF=1.354, Rank=75/92- Nanoscience and Nanotechnology)
49.T. C. Chao, S. Sakthinathan, T. W. Chiu, Y. Fu, Anisotropic delafossite-type CuFeO2 thin films deposited by electrospinning with rotating collector, J CERAM SOC JPN, 2019 (Accepted).
50.P. Tamizhdurai, A. Ramesh, S. Sakthinathan, S. Narayanan, C. Ragupathy, K. Shanthi*, and, Te-Wei Chiu*, Highly effective Pt/mordenite catalyst for cyclohexene oxidation, HELIYON, (Revision submitted).
2.B. Y. Hwang, S. Sakthinathan, T. W. Chiu, Production of hydrogen from steam reforming of methanol carried out by self-combusted CuCr1-xFexO2 (x = 0-1) nanopowders catalyst, Int. J. Hydrog. Energy, 44 (2019) 2848-2856. (IF=4.229, Rank=8/28-Energy, Fuel).
3.M. X. Lin, S. Sakthinathan, T. W. Chiu, H. Y. Chang, Y. M. Wang, Preparation of IT-SOFC with Pr2NiO4 cathode and hybrid Ce0.8Sm0.2O1.9 electrolytes, J. Ceram. Soc. Jpn, 4 (2019) 127 [4].
4.S. Y. Su, S. S. Wang, S. Sakthinathan, T. W. Chiu, J. H. Park, Preparation of CuAl2O4 submicron tubes from electrospun Al2O3 fibers, Ceramics International, 45 (2019) 1439-1442. (IF=3.05, Rank=2/27-Material Science, Ceramics).
5.P. Tamizhdurai, S. Sakthinathan, P. S. Krishnan, A. Ramesh, V. L. Mangesh, A. Abilarasu, S. Narayanan, K. Shanthi, T. W. Chiu, Catalytic activity of ratio-dependent SBA-15 supported zirconia catalysts for highly selective oxidation of benzyl alcohol to benzaldehyde and environmental pollutant heavy metal ions detection, Journal of Molecular Structure, 1176 (2019) 650-661. (IF=2.011, Rank=86/147-Chemistry, Physical)
6.T. Kokulnathan, T. W. Chen, S. M. Chen, J. V. Kumar, S. Sakthinathan, E.R. Nagarajan, Hydrothermal synthesis of silver molybdate/reduced graphene oxide hybrid composite: An efficient electrode material for the electrochemical detection of tryptophan in food and biological samples, Composites Part B 169 (2019) 249–257.2018.
7.P. Tamizhdurai, S. Sakthinathan, A. Ramesh, A. Abilarasu, V.L. Mangesh, S. Narayanan, K. Shanthi, Te-Wei Chiu, Highly selective oxidation of benzyl alcohol over Pt-sulphated zirconia supported on SBA-15 catalyst by using a high-pressure fixed bed reactor, Polyhedron, 155 (2018) 390–397. (IF=1.87, Rank=18/45-Chemistry, Inorganic Nuclear)
8.B. Mutharani, S. Sakthinathan, S. M. Chen, T. W. Chen, T. W. Chiu, Preparation of Samarium Oxide Nanoparticles Decorated Functionalized Multiwall Carbon Nanotubes Modified Electrode for the Electrochemical Determination of Catechol, Int. J. Electrochem. Sci, 13 (2018) 6996 – 7007. (IF=1.36, Rank=19/29-Electrochemistry).
9.R. Karthik, J. V. Kumar, S. M. Chen, T. Kokulnathan, T. W. Chen, S. Sakthinathan, T. W. Chiu, V. Muthuraj, Development of novel 3D flower-like praseodymium molybdate decorated reduced graphene oxide: An efficient and selective electrocatalyst for the detection of acetylcholinesterase inhibitor methyl parathion, Sens. Actuator B-Chem. 270 (2018) 353–361. (IF=5.6, Rank=4/28-Electrochemistry)
10.J. V. Kumar, R. Karthik, S. M. Chen, K. H. Chen, S. Sakthinathan, V. Muthuraj, T. W. Chiu, Design of novel 3D flower-like neodymium molybdate: An efficient and challenging catalyst for sensing and destroying pulmonary toxicity antibiotic drug nitrofurantoin, Chemical Engineering Journal, 346 (2018) 11–23. (IF=6.73, Rank=7/137-Engineering, Chemical).
11.T. W. Chiu, C. H. Chen, H. Y. Shih, H. Y. Chang, Y. M. Wang, S. Sakthinathan, Electrospinning of Pr2CuO4 Fiber and its Cathode Application in Solid Oxide Fuel Cell, Trans. Mat. Res. Soc. Japan, 43[2] 43-47 (2018).
12.T. Kokulnathan, S. Sakthinathan, S. M. Chen, R. Karthik, T. W. Chiu, Hexammine cobalt(III) coordination complex grafted reduced graphene oxide composite for sensitive and selective electrochemical determination of morin in fruit samples, Inorg. Chem. Front., 2018,5, 1145-1155. (IF=5.106, Rank=3/45- Chemistry, Inorganic and Nuclear).
13.J. V. Kumar, R. Karthik, S. M. Chen, T. Kokulnathan, S. Sakthinathan, V. Muthuraj, T. W. Chiu, T. W. Chen, Highly selective electrochemical detection of antipsychotic drug chlorpromazine in drug and human urine samples based on peas-like strontium molybdate as an electrocatalyst, Inorg. Chem. Front., 2018, 5, 643-655. (IF=5.106, Rank=3/45- Chemistry, Inorganic and Nuclear)
14.S. Sakthinathan, T. Kokulnathan, S. M. Chen, R. Karthik, T. W. Chiu, Ecofriendly preparation of graphene sheets decorated with an ethylenediamine copper(II) complex composite modified electrode for the selective detection of hydroquinone in water, Inorg. Chem. Front., 2018,5, 490-500. (IF=5.106, Rank=3/45- Chemistry, Inorganic and Nuclear)2017
15.S. Sakthinathan, S. Kubendhiran, S. M. Chen, M. Govindasamy, F. M.A. A. Hemaid, M. A. Ali, P. Tamizhdurai, S. Sivasanker, Metallated porphyrin noncovalent interaction with reduced graphene oxide‐modified electrode for amperometric detection of environmental pollutant hydrazine, Appl Organometal Chem. 31(2017) 3703, https:// doi.org/ 10.1002/ aoc.3703. (IF=3.581, Rank=19/72-Chemistry, Applied)
16.S. Sakthinathan, T. Kokulnathan, S. M. Chen, T. W. Chen, T. W. Tseng, X. Liu, W. C. Liao, A highly selective and sensitive detection of ellagic acid by using ethylenediamine ligand based cobalt (II) complex modified glassy carbon electrode, Int. J. Electrochem. Sci. 12 (2017) 6829-6841. (IF=1.369, Rank=19/29-Electrochemistry).
17.M. Govindasamy, S. Sakthinathan, S. M. Chen, T. W. Chiu, A. Sathiyan, J. P. Merlin, Reduced graphene oxide supported cobalt bipyridyl complex for sensitive detection of methyl parathion in fruits and vegetables, Electroanalysis, 29 (2017)1950 -1960. (IF=2.851, Rank=11/29-Electrochemistry)
18.S. Sakthinathan, S. Kubendhiran, S. M. Chen, C. Karuppiah, T. W. Chiu, Novel bifunctional electrocatalyst for ORR activity and methyl parathion detection based on reduced graphene oxide/palladium tetraphenylporphyrin nanocomposite, J. Phys Chem. C, 121 (2017) 14096-14107 (IF=4.48, Rank=31/146-Chemistry, Physical)
19.S. Sakthinathan, S. Kubendhiran, S. M. Chen, Hydrothermal Synthesis of Three dimensional graphene-multiwalled carbon nanotube nanocomposite for enhanced electrocatalytic oxidation of caffeic acid, Electroanalysis, 29 (2017) 1103-1112. (IF=2.851, Rank=11/29-Electrochemistry)
20.S. Kubendhiran, S. Sakthinathan, S. M. Chen, P. Tamizhdurai, K. Shanthi, C. Karuppiah, Green reduction of reduced graphene oxide with nickel tetraphenyl porphyrin nanocomposite modified electrode for enhanced electrochemical determination of environmentally pollutant nitrobenzene, J. Colloid Interface Sci, 497 (2017) 207-216. (IF=5.091, Rank = 44/135-Chemistry, Physical)
21.P. Tamizhdurai, S. Sakthinathan, S. M. Chen, K. Shanthi, S. Sivasanker, P. Sangeetha, Environmentally friendly synthesis of CeO2 nanoparticles for the catalytic oxidation of benzyl alcohol to benzaldehyde and selective detection of nitrite, Sci Rep, 7 (2017) 46372, DOI: 10.1038/srep46372. (IF=4.122, Rank=10/64-Multidisciplinary Sciences)
22.S. Sakthinathan, S. Kubendhiran, S. M. Chen, P. Sireesha, C. Karuppiah, C. Su, Functionalization of Reduced Graphene Oxide with β-cyclodextrin Modified Palladium Nanoparticles for the Detection of Hydrazine in Environmental Water Samples, Electroanalysis, 29 (2017) 587-594. (IF=2.851, Rank=11/29-Electrochemistry)
23.S. Sakthinathan, S. M. Chen, W. C. Liao, Multiwalled carbon nanotube supported Schiff base copper complex inorganic nanocomposite for enhanced electrochemical detection of dopamine, Inorg. Chem. Front, 4 (2017) 809-819. (IF=5.106, Rank=3/45- Chemistry, Inorganic and Nuclear)
24.S. Sakthinathan, S. Kubendhiran, S. M. Chen, K. Manibalan, M. Govindasamy, P. Tamizhdurai, S. T. Huang, Reduced graphene oxide non-covalent functionalized with zinctetra Phenyl Porphyrin Nanocomposite for Electrochemical Detection of Dopamine in Human Serum and Rat Brain Samples, Electroanalysis, 28 (2016) 2126-2135. (IF=2.851, Rank=11/29-Electrochemistry)
25.S. Kubendhiran, S. Sakthinathan, S. M. Chen, C. M. Lee1, B. Lou, P. Sireesha, C. Su, Electrochemically Activated Screen Printed Carbon Electrode Decorated with Nickel Nano Particles for the Detection of Glucose in Human Serum and Human Urine Sample, Int. J. Electrochem. Sci, 11(2016) 7934-7946. (IF=1.369, Rank: 19/29-Electrochemistry)
26.S. Sakthinathan, S. Kubendhiran, S. M. Chen, F. M. A. A. Hemaid, W. C. Liao, P. Tamizhdurai S. Sivasanker, M. A. Alic, A. A. Hatamlehc, A non-covalent interaction of Schiff base copper alanine complex with green synthesized reduced graphene oxide for highly selective electrochemical detection of nitrite, RSC Adv, 6 (2016) 107416-107425. (IF=2.963, Rank=56/166-Chemistry, Multidisciplinary)
27.S. Sakthinathan, H. F. Lee, S. M. Chen, P. Tamizhdurai, Electrocatalytic oxidation of dopamine based on non-covalent functionalization of manganese tetraphenylporphyrin /reduced graphene oxide nanocomposite, J. Colloid Interface Sci. 468 (2016) 120-127. (IF=5.091, Rank=44/135-Chemistry, Physical)
28.S. Sakthinathan, S. Kubendhiran, S. M. Chen, P. Tamizhdurai, Reduced graphene oxide/goldtetra phenyl porphyrin (RGO/Au–TPP) nanocomposite as an ultrasensitive amperometric sensor for environmentally toxic hydrazine, RSC Adv. 6 (2016) 56375-56383. (IF=2.963, Rank=56/166-Chemistry, Multidisciplinary)
29.S. Palanisamy, S. Sakthinathan, S. M. Chen, B. Thirumalraj, T. H. Wu, B. S. Lou, X. Liu, Preparation of β-cyclodextrin entrapped graphite composite for sensitive detection of dopamine, Carbohydr Polym. 135 (2016) 267–273. (IF=5.32, Rank=4/72-Chemistry, Applied)
30.C. Karuppiah, S. Sakthinathan, S. M. Chen, K. Manibalan, S. M. Chen, S. T. Huang, A non-covalent functionalization of copper tetraphenylporphyrin/chemically reduced graphene oxide nanocomposite for the selective determination of dopamine, Appl Organometal Chem, 30 (2016) 40-46. (IF=3.581, Rank=19/72-Chemistry, Applied) 2015
31.K. Nagaraj, K. Senthilmurugan, P. Thangamuniyandi, S. Sakthiunathan, Microheterogeneous mediated electron transfer reaction (ETR) of surfactant cobalt (III) complexes by Fe2+: Effect of pyridine substituent as co-ligand, Arabian Journal of Chemistry (2015), https://doi.org/10.1016/j.arabjc.2014.11.062 (IF=4.008, Rank =31/166-Chemistry, Multidisciplinary)
32.K. Nagaraj, K. Senthilmurugan, P. Thangamuniyandi, S. Sakthinathan, Kinetics and thermodynamics of formation and electron-transfer reactions of surfactant cobalt (III) complexes containing polypyridyl ligands with Fe(CN)64− in microheterogeneous environment, Chemical Kinetics, 47(2015) 174-182. (IF=1.416, Rank=106/146-Chemistry, Physical)
33.K. Nagaraj, S. Sakthinathan, S. Arunachalam, Synthesis, CMC determination and nucleic acid-binding interaction of a surfactant copper (II) complex containing amino acid–Schiff base ligand: [Cu(sal-ala) (bpy)(DA)], J. Iran Chem Soc, 12 (2015) 267-275. (IF=1.593, Rank =101/166-Chemistry, Multidisciplinary)
34.M. Velmurugan, S. Sakthinathan, S. M. Chen, C. Karuppiah, Direct electron transfer of glucose oxidase and electrocatalysis of glucose based on gold nanoparticles/ electro activated graphite nanocomposite, Int. J. Electrochem. Sci, 10 (2015) 6663-6671. (IF=1.369, Rank=19/29- Electrochemistry)
35.S. Sakthinathan, S. Palanisamy, S. M. Chen, P. S. Wu, L. Yao, B. S. Lou, Electrochemical detection of phenol in industrial pollutant absorbed molecular sieves by electrochemically activated screen printed carbon electrode, Int. J. Electrochem. Sci, 10 (2015) 3319-3328. (IF=1.369, Ranking=19/29-Electrochemistry)
36.S. Sakthinathan, S. M. Chen, Graphene supported nanocomposite for electrochemical detection of pollutant materials: A short review, Int. J. Electrochem. Sci, 10 (2015) 6527-6536. (IF=1.369, Ranking =19/29-Electrochemistry)
37.K. Sugumar, K. Nagaraj, K. S. Murugan, P. Thangamuniyandi, S. Sakthinathan, P. Vijayakumar, A Comparative study on the electron transfer reaction (ETR) of surfactant cobalt (III) complexes of aliphatic/aromatic ligands in microheterogeneous media: A thermodynamic approach, RSC Adv, 5 (2015) 48079-48085. (IF = 2.963, Rank = 56/166-Chemistry, Multidisciplinary)
38.K. Nagaraj, S. Sakthinathan, S. Arunachalam, Biophysical insights into the intercalative interaction of surfactant cobalt (III) complexes of certain diimine ligands bound to yeast tRNA: Effects of hydrophobicity, Spectrochim. Acta Mol. Biomol. Spectrosc. 147 (2015) 93-98. (IF=2.880, Rank = 12/42-Spectroscopy)
39.K. Nagaraj, K. S. Murugan, P. Thangamuniyandi, S. Sakthinathan, Electron-transfer reactions of cobalt (III) complexes. 1. The kinetic investigation of the reduction of various surfactant cobalt (III) complexes by iron (II) in surface active ionic liquids, Spectrochim. Acta Mol. Biomol. Spectrosc, 143 (2015) 101-106. (IF=2.880, Rank= 12/42-Spectroscopy)
40.K. Nagaraj, S. Sakthinathan, S. Arunachalam, Thermodynamics and kinetic investigation of electron transfer reactions of surfactant cobalt (III) complexes containing diimine ligands with iron (II) in the presence of liposome vesicles and amphiphilic salt media, RSC Adv, 4, (2014) 56068-56073. (IF=2.936, Rank=56/166-Chemistry, Multidisciplinary)
41.K. Nagaraj, K. Senthilmurugan, P. Thangamuniyandi, S. Sakthinathan, Synthesis, micellization behavior, DNA/RNA binding and biological studies of a surfactant cobalt (III) complex with dipyrido [3,2-a:2′,4′-c] (6,7,8,9-tetrahydro) phenazine, J Fluoresc, 24 (2014) 1701-1714. (IF=1.66, Rank=51/76-Chemistry, Analytical)
42.K. Nagaraj, S. Ambika, S. Rajasri, S. Sakthinathan, S. Arunachalam, Synthesis, micellization behavior, antimicrobial and intercalative DNA binding of some novel surfactant copper(II) complexes containing modified phenanthroline ligands, Colloids Surf. B, 122 (2014) 151-157. (IF=3.997, Rank=16/73-Biophysics)
43.K. Nagaraj, K. Senthilmurugan, P. Thangamuniyandi, S. Sakthinathan, Nucleic acid binding study of surfactant copper (II) complex containing dipyrido [3,2-a:20-30-c] phenazine ligand as an intercalator: in vitro antitumor activity of complex in human liver carcinoma (HepG2) cancer cells, RSC Adv, 4 (2014) 56084–56094. (IF=2.936, Rank=56/166-Chemistry, Multidisciplinary)
44.K. Nagaraj, G. Velmurugan, S. Sakthinathan, P. Venuvanalingam, S. Arunachalam, Influence of self-assembly on intercalative DNA binding interaction of double-chain surfactant Co (III) complexes containing imidazo [4,5-f] [1,10] phenanthroline and dipyrido[3,2-d:2’-3’-f] quinoxaline ligands: experimental and theoretical study, Dalton Trans, 43 (2014) 18074-18086. (IF=4.099, Rank = 7/46-Chemistry, Inorganic, Nuclear)
45.K. Nagaraj, S. Sakthinathan, S. Arunachalam, Effect of hydrophobicity on intercalative binding of some surfactant copper(II) complexes with tRNA, Monatsh Chem, 145 (2014) 1897-1902. (IF = 1.285, Rank =106/166-Chemistry, Multidisciplinary)
46.K. Nagaraj, S. Sakthinathan, S. Arunachalam, Synthesis, CMC determination, antimicrobial activity and nucleic acid binding of a surfactant copper(II) complex containing phenanthroline and alanine Schiff-base, J Fluoresc, 24 (2014) 589-598. (IF=1.665, Rank = 51/76-Chemistry, Analytical)
47.T. Kokulnathan, T. W. Chen, S. M. Chen, V. Kumar, S. Sakthinathan, E. R. Nagarajan, Hydrothermal synthesis of silver molybdate/reduced graphene oxide hybrid composite: An efficient electrode material for the electrochemical detection of tryptophan in food and biological samples, Composites Part B Engineering
48.S. Nehru, S. Sakthinathan*, P. Tamizhdurai, Te-Wei Chiu*, K. Shanthi, Reduced graphene oxide/multiwalled carbon nanotube composite decorated with Fe3O4 magnetic nanoparticles for electrochemical determination of hydrazine in environmental water, Journal of Nanoscience and Nanotechnology, 2019. (Accepted) (IF=1.354, Rank=75/92- Nanoscience and Nanotechnology)
49.T. C. Chao, S. Sakthinathan, T. W. Chiu, Y. Fu, Anisotropic delafossite-type CuFeO2 thin films deposited by electrospinning with rotating collector, J CERAM SOC JPN, 2019 (Accepted).
50.P. Tamizhdurai, A. Ramesh, S. Sakthinathan, S. Narayanan, C. Ragupathy, K. Shanthi*, and, Te-Wei Chiu*, Highly effective Pt/mordenite catalyst for cyclohexene oxidation, HELIYON, (Revision submitted).