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              AuthorsTitleReference
1M.V. Sangaranarayanan and S.K. RangarajanMicroscopic Modelling of Adsorption and the Generalized Surface Layer HypothesisCan. J. Chem 59 (1981) 2072 – 2079
2M.V. Sangaranarayanan and S.K. RangarajanAdsorption Isotherms – Some New resultsJ.Electroanal.Chem. 130 (1981) 339 – 344
3M.V. Sangaranarayanan and S.K. RangarajanExtrapolation and Series Acceleration Procedures – hard spheres and discs as illustrationsPhys. Lett. A 96 (1983) 339 – 343.
4M.V. Sangaranarayanan and S.K. RangarajanAn e-Convergence method for evaluation of critical parametersChem. Phys. Lett. 101 (1983) 49 -54.
5M.V. Sangaranarayanan and S.K. RangarajanAdsorption Isotherms for neutral organic compounds – a hierarchy in Modelling – Part IJ.Electroanal.Chem. 176 (1984) 1 – 27.
6M.V. Sangaranarayanan and S.K. RangarajanAdsorption Isotherms for neutral organic compounds – a hierarchy in Modelling – Part IIJ.Electroanal.Chem. 176 (1984) 29 – 44.
7M.V. Sangaranarayanan and S.K. RangarajanAdsorption Isotherms for neutral organic compounds – a hierarchy in Modelling – Part IIIJ. Electroanal. Chem. 176 (1984) 45 – 64.
8M.V. Sangaranarayanan and S.K. RangarajanAdsorption Isotherms for neutral organic compounds – a hierarchy in Modelling – Part IVJ. Electroanal. Chem. 176 (1984) 65 – 98.
9M.V. Sangaranarayanan and S.K. RangarajanAdsorption Isotherms for neutral organic compounds – a hierarchy in Modelling – Part VJ. Electroanal. Chem. 176 (1984) 99 -118.
10M.V. Sangaranarayanan and S.K. RangarajanAdsorption Isotherms – Microscopic Modelling – Part IIJ. Electroanal. Chem. 176 (1984) 119 -137.
11M.V. Sangaranarayanan and S.K. RangarajanPerturbation expansions and series acceleration procedures – Part IPramana –J.Physics  22 (1984) 183 -201.
12M.V. Sangaranarayanan and S.K. RangarajanPerturbation expansions and series acceleration procedures – Part IIPramana- J.Physics 22 (1984) 407 -419.
13M.V. SangaranarayananDouble Layer as a composite medium – a NoteElectrochim. Acta. 32 (1987) 725 – 726.
14M.V. SangaranarayananInfluence of short range interactions on the standard Gibbs Energy of adsorptionJ.Electroanal.Chem. 297 (1991) 565 -569.
15M.V. SangaranarayananModelling charge transport in chemically modified electrodesBull. Electrochem. 8 (1992) 91 – 94.
16

C.A. Basha and

M.V. Sangaranarayanan

On the evaluation of current function in Linear Sweep VoltammetryJ. Electroanal. Chem. 261 (1989)  431 – 436.
17

C. A. Basha and

M.V. Sangaranarayanan

Analysis of a generalised spin – 1/2 Ising model for two-dimensional condensationJ.Electroanal. Chem. 291 (1990) 261 – 267.
18

K.L.N.Phani and

M.V. Sangaranarayanan

A note on the evaluation of homogeneous cross exchange electron transfer rate constantsJ.Electroanal.Chem. 328 (1992) 321 – 325.
19

L.S.Mohan and

M.V. Sangaranarayanan

A Generalized diffusion migration equation for long distance electron hopping between redox centresJ.Electroanal. Chem. 323(1992) 375 – 379.
20

R. Aldrin   Denny and

M.V. Sangaranarayanan

Diffusion in a bias electric field – Phenomenological equations and Kinetic Ising model versionsChem. Physics. Lett. 239 (1995) 131 – 135.
21

R. Aldrin   Denny and

M.V. Sangaranarayanan

Dynamics of competing diffusion processesJ. Solid State Electrochem. 2 (1998) 67 – 72.
22

R. Aldrin   Denny and

M.V. Sangaranarayanan

Flux-Force formalism for charge transport through supra molecular structures Part IJ. Phys. Chem. B 102 (1998) 2131 – 2137.
23

R. Aldrin   Denny and

M.V. Sangaranarayanan

Flux-Force formalism for charge transport through supra molecular structures Part IIJ. Phys. Chem. B 102 (1998) 2138 – 2148.
24

R. Aldrin   Denny and

M.V. Sangaranarayanan

Electron Self exchange in redox polymers – Part IJ. Phys. Chem. B 102 (1998) 8670 – 8677.
25

R. Aldrin   Denny and

M.V. Sangaranarayanan

Electron self exchange in redox polymers – Part IIJ.Phys. Chem. B 102 (1998) 8678 – 8685.
26

R. Aldrin   Denny and

M.V. Sangaranarayanan

Dynamics of competing diffusion processes in a bias electric field

J. Physics  A (Mathematical and General)

31 (1998) 7671 – 7683.

27

R. Saradha and

M.V. Sangaranarayanan

Lattice models for dipolar adsorption at metal/electrolyte interfaces using Bethe approximationJ. Chem. Phys. 105 (1996) 4284 – 4288.
28

R. Saradha and

M.V. Sangaranarayanan

Quasichemical approximation for solvent dipoles at metal/electrolyte interfaceJ. Colloid & Interface Sci. 183 (1996) 610 – 613.
29

R. Saradha and

M.V. Sangaranarayanan

Limitations of Multistate Solvent models at Electrode/electrolyte Interface: A numerical study using Bethe  approximation Langmuir 13 (1997)5470 – 5475.
30

R. Saradha and

M. V. Sangaranarayanan

Crystal Face specificity of Electronic and electrochemical properties of a neutral interfaceJ. Phys. Chem. B 102 (1998) 5099 – 5106.
31

R. Saradha and

M. V. Sangaranarayanan

Theories of electrified Interfaces: A combined analysis using density functional approach and Bethe approximationJ. Phys. Chem. B 102 (1998) 5468 – 5475.
32K.Pushpalatha and M.V. SangaranarayananTwo dimensional condensation of organic adsorbates at Hg-aqueous solution interface – A global analysis of critical parameters using Ising model formalismJ. Electroanal. Chem. 425 (1997) 39 – 48.
33

K.Pushpalatha and

M.V. Sangaranarayanan

Critical exponents for two-dimensional condensationSurf.  Sci. 345 (1997) 218 – 223
34

K.Pushpalatha and

M.V. Sangaranarayanan

Phase transitions at Electrochemical interfaces: Evaluation of Critical exponents for condensation of organic adsorbatesChem. Phys. Lett. 288 (1998) 216 – 224
35

L.Rajendran and

M.V. Sangaranarayanan

A two-point Pade Approximation for non steady state chronoamperometric current at ultramicrodisc electrodesJ. Electroanal Chem. 392 (1995) 75 – 78
36

L.Rajendran and

M.V. Sangaranarayanan

Diffusion at ultramicroelectrodes: Chronoamperometric currentresponse using Pade’ AppromiationJ. Phys. Chem. B 101 (1997)  4583 – 4587.
37

L.Rajendran and

M.V. Sangaranarayanan

Diffusion at Ultramicro disc electrodes: Chronoamperometric current for steady state EC’   reactionsJ. Phys Chem. B 103 (1999) 1518 – 1524.
38

L.Rajendran and

M.V. Sangaranarayanan

Steady state chronoamperometric current at ultramicrodisc electrodesJ. Electrochem. Soc (India) 45 (1996)135 -140.
39

L.Rajendran and

M.V. Sangaranarayanan

Chronoamperometric Current at Ultramicrospheroidal electrodes for steady state EC’ reactions-A two-point Pade’ ApproximantIndian J. Chem A 39 (2000) 356 – 363.
40

J.UmaMaheswari and

M.V. Sangaranarayanan

Charge transport through chemically modified electrodes: a general analysis for ion exchange and covalently attached redox polymersJ. Phys. Chem. B 103 (1999) 5687 -5697
41

J.UmaMaheswari and

M.V. Sangaranarayanan

Non-equilibrium thermodynamics formalism for charge transport through redox polymer electrodesJ. Phys. Chem. B 105 (2001) 2465 – 2473
42

S.Harinipriya and

M.V. Sangaranarayanan

Electron transfer reactions at metal electrodes : Influence of work function on free  energy of activation and exchange current densityJ. Chem. Phys. 115 (2001) 6173 – 6178.
43

S.Harinipriya and

M.V. Sangaranarayanan

Two-dimensional condensation of nucleobases at mercury/aqueous solution interface-A structural perspective using hydrogen bonding considerationsJ. Colloid & Interface Sci. 250 (2002) 201 – 212.
44

S.Harinipriya and

M.V. Sangaranarayanan

Influence of work function on electron transfer processes at metals: Application to Hydrogen Evolution ReactionLangmuir 18 (2002) 5572 – 5578.
45

S.Harinipriya and

M.V. Sangaranarayanan

Hydrogen Evolution Reaction on electrodes: Influence of work function, dipolar adsorption and desolvation energiesJ. Phys. Chem. B 106 (2002) 8681 – 8688.
46

S.Harinipriya and

M.V. Sangaranarayanan

Hardness of metals from electron transfer reactions at electrode surfacesJ. Chem. Phys 117 (2002) 8959 – 8965.
47

S.Harinipriya and

M.V. Sangaranarayanan

Estimation of the electron affinities of nucleobases using thermochemical data  and structural considerationsJ. Mol. Structure 644 (2003)133 – 138.
48

S.Harinipriya and

M.V. Sangaranarayanan

Estimation of activation energies for heterogeneous      catalytic processes from thermodynamic and structural      considerationsJ. Mol. Catalysis A 207 (2004) 105 – 114.
49

S.Harinipriya and

M.V. Sangaranarayanan

Order-disorder transitions of water dipoles at mercury electrodesIndian J. Chem., Sect. A 42 (2003) 965 – 967.
50

S.Harinipriya and

M.V. Sangaranarayanan

Electron transfer processes across liquid/liquid interfaces-Estimation of the equilibrium free energy of activationJ. Phys.Chem. B 108 (2004)1660 – 1666
51

V.Sudha and

M.V. Sangaranarayanan

Underpotential Deposition of Metals from Thermodynamic and Structural ConsiderationsJ. Phys. Chem. B 106 (2002) 2699 – 2707.
52

V.Sudha and

M.V. Sangaranarayanan

Underpotential Deposition of metals from Thermodynamic and structural Considerations –Part –II – Non-aqueous solventsJ. Phys. Chem B 107 (2003) 3907 – 3913.
53

M.Arun Prasad and

M.V. Sangaranarayanan

Analysis of diffusion layer thickness, equivalent circuit

and conductance behaviour for reversible electron

transfer processes in linear sweep voltammetry

Electrochim. Acta 49 (2004) 445-453.
54

M.Arun Prasad and

M.V. Sangaranarayanan

Evaluation of the Gibbs free energy of transfer of electrolytes from aqueous to organic solvents-A novel application of the quadratic activation-driving force relationChem. Phys. Lett. 382 (2003)325 – 331.
55

S.Harinipriya, V.Sudha and

M.V. Sangaranarayanan

Dehydration energies of alkali metal halides- A new simulation methodology involving mean nearest neighbor distances and thermodynamic forcesLangmuir 20 (2004) 1871-1876.
56

S.Harinipriya and

M.V. Sangaranarayanan

Estimation of exchange current density for ferric/ferrous reaction-Influence of ionic desolvation..J. Colloid & Interface Sci. 273 (2004) 247 – 255.
57

M.ArunPrasad,V.Aravind

and M.V. Sangaranarayanan

Doping behaviour of ions on polypyrrole-coated Platinum in binary solvents

Proc. Indian National Science Academy –Special issue on Electrochemistry

70 A (2004)463 – 468.

58

M.Arun Prasad and

M.V. Sangaranarayanan

Current function for irreversible electron transfer processes in linear sweep voltammetry for reactions obeying Marcus kineticsChem. Phys. Lett. 387(2004) 317 – 321.
59

M.Arun Prasad and

M.V.Sangaranarayanan

Formulation of a simple analytical expression for irreversible electron transfer processes in LSV and its experimental verificationElectrochim. Acta  49 (2004) 2569 – 2579.
60

M.Arun Prasad and

M.V. Sangaranarayanan

Solvent effect on the electrochemical reductive cleavage of CCl4Chem. Phys. Lett. 390 (2004) 261-267.
61

M.Arun Prasad and

M.V. Sangaranarayanan

Cleavage of an aromatic carbon-heteroatom bond in a single step or successive steps?-A mechanistic distinction in the reduction of 5-bromo –1,3-dichloro –2-iodobenzeneTetrahedron Lett. 45 (2004) 4741 – 4744.
62

M.Arun Prasad and

M.V. Sangaranarayanan

Electrochemical reductive cleavage of carbon tetrachlorideJ. Electroanal. Chem. 569 (2004) 127 – 134.
63

V.Sudha ,S.Harinipriya and

M.V. Sangaranarayanan

Hydration energies of trihalides of Lanthanide and actinide series-a novel simulation methodologyJ. Mol. Struct. (Theochem) 683 (2004) 159 – 165.
64

V.Sudha ,S.Harinipriya and

M.V. Sangaranarayanan

A simple simulation methodology for estimation of dehydration energies and surface potentials of concentrated NaCl solutionsJ. Colloid & Interface Sci. 280 (2004) 139 – 148.
65

M. Arun Prasad and

M.V. Sangaranarayanan

Electrochemical reductive cleavage of carbon-halogen bonds in 5-bromo-1,3-dichloro-2-iodobenzeneTetrahedron 60 (2004)10967 – 10972.
66

M.Arun Prasad and

M.V. Sangaranarayanan

5-bromo-1,3-dichloro-2-iodobenzene

ActaCrystallogr. Sect. E: Struct. Rep. Online E

60 (2004)1933-1934.

67

S.Harinipriya and

M.V.Sangaranarayanan

Stability of scanning tunneling microscopy tip-induced bimetallic nanoclusters:  cohesive energiesJ. Phys. Chem.B 108 (2004)13944-3947.
68

S.Harinipriya and

M.V. Sangaranarayanan

Reply to “Stability of scanning tunneling microscopy tip induced bimetallic nanaoclusters”J. Phys.Chem. B 109 (2005) 22080-22080.
69

T.C.Girija and

M.V. Sangaranarayanan

Anion-induced adsorption of thallium complex on  silver  electrodesJ. Colloid & Interface Sci. 282 (2005) 92-101.
70

T.C.Girija and

M.V. Sangaranarayanan

Extraction of Electrochemical Quartz Crystal Microbalance Frequencies from  cyclic Voltammetric dataJ. Solid State Electrochem 9 (2005) 621-626.
71

M.Arun Prasad and

M.V. Sangaranarayanan

Distinction between stepwise and concerted mechanisms in reductive cleavage reactionsTetrahedron 61 (2005) 1785-1791.
72

M.Arun Prasad and

M.V. Sangaranarayanan

4-bromo-2,6-dichloroaniline

ActaCrystallogr. Sect. E: Struct. Rep. Online E

61 (2005) o758-o759.

73

V.Sudha,S.Harinipriya and

M.V. Sangaranarayanan

Dehydration energies of alkaline earth metal halides-a novel simulation methodologyChem. Phys. 310 (2005) 59-66
74

V.Sudha,S.Harinipriya and

M.V. Sangaranarayanan

Hydration energies of Thallium (I) halides – A novel simulation

Methodology

J. Mol. Struct. 750 (2005)621-626
75

M.Arun Prasad and

M.V. Sangaranarayanan

Hammett-type relationship for the cleavage of radical anions of aromatic chlorides and bromidesTetrahedron 61 (2005) 3755-3758
76

T.C.Girija and

M.V. Sangaranarayanan

Development of Electrochemical Supercapacitors using UnderpotentialDeposition of thallium on silverIndian J. Chem., Sect. A 44 (2005)1395-1397.
77

M.Arun Prasad and

M.V. Sangaranarayanan

Electrochemical reductive cleavage of carbon-chlorine bond in

1-chloro,2,4-dinitrobenzene

Electrochim.Acta 51 (2005)242-246
78

M.Arun Prasad and

M.V. Sangaranarayanan

Evidence for the formation of radical anion in the reductive cleavage of carbon-bromine bond.Chem. Phys. Lett. 414 (2005) 55-60.
79

V.Sudha and

M.V. Sangaranarayanan

Underpotential Deposition of metals-Progress and Prospects in modelingJ. Chem. Sci. 117 (2005) 207-218.
80

T.C.Girija and

M.V. Sangaranarayanan

Underpotential Deposition of thallium in presence of bromide ionsJ. Appl. Electrochem. 36 (2006) 531- 538.
81

T.C.Girija and

M.V. Sangaranarayanan

Analysis of polyaniline-based nickel electrodes for electrochemical supercapacitorsJ. Power Sources 156 (2006) 705-711.
82

T.C.Girija and

M.V. Sangaranarayanan

Polyaniline-based Nickel electrodes for Electrochemical supercapacitors-Influence of Triton-X-100J. Power Sources 159 (2006) 1519-1526.
83M.Arun Prasad and M. V. SangaranarayananLinear Kinetic and free energy correlations for intramolecular dissociative electron transfer processesChem.Phys.Lett. 421(2006)193-197.
84A.Muthukrishnan and M.V. SangaranarayananDifferential Capacitance of liquid/liquid interfaces-A lattice gas model approachJ. Colloid & Interface Sci. 296 (2006) 624-633.
85

S.Harinipriya and

M.V. Sangaranarayanan

Analysis of electron transfer processes across liquid/liquid interfaces-Estimation of equilibrium free energy of activation using diffuse boundary modelLangmuir 22 (2006) 1347-1355.
86V.Sudha,S.Harinipriya and M.V. SangaranarayananEstimation of desolvation energies of lanthanum and uranium trihalides in heavy waterJ.Mol.Struct. (Theochem) 765 (2006) 71-76.
87

T.C.Girija and

M.V. Sangaranarayanan

Investigation of polyaniline-based stainless steel electrodes for Electrochemical supercapacitorsSynth. Met. 156 (2006) 244.
88

A.Muthukrishnan and

M.V. Sangaranarayanan

Hydration energies of C60 and C70 fullerenes-A novel Monte Carlo simulation studyChem. Phys. 331(2007) 200.
89

A.Muthukrishnan and

M.V. Sangaranarayanan

Electrochemical reduction of carbon-fluorine bond in

4-fluorobenzonitrile-Mechanistic Analysis employing Marcus-Hush quadratic activation-driving force relation

Chem. Phys. Lett. 446 (2007) 297-303.
90

R.Ramya and

M.V. Sangaranarayanan

Analysis of polypyrrole-coated stainless steel electrodes –Estimation of specific capacitances and construction of equivalent circuitsJ. Chem. Sci. 120 (2008) 25-31.
91

RichaSethi and

M.V. Sangaranarayanan

Non-Equilibrium Thermodynamics formalism for Marcus theory of heterogeneous and self-exchange electron transfer rate constantsJ. Phys. Chem. A 112 (2008) 4308-4313.
92

A.Muthukrishnan and

M.V. Sangaranarayanan

Mechanistic Analysis of the reductive cleavage of carbon-halogen bonds in halopentafluorobenzenesJ. Electrochem. Soc 156 (2009) F23- F28.
93

G.Nandhini and

M.V. Sangaranarayanan

Extraction of electron density profiles from X-ray reflectivity data of liquid metalsChem. Phys. Lett 470 (2009) 224-227.
94

G.Nandhini and

M.V. Sangaranarayanan

Partition function of nearest neighbourIsing models-Some new insightsJ. Chem. Sciences 121 (2009) 595-599.
95

A.Muthukrishnan and

M.V. Sangaranarayanan

Analysis of C-F bond cleavages in methylfluorbenzoates-Fragmentation and dimerization of anion radicals using convolution potential sweep voltammetryElectrochim. Acta 55 (2010) 1664-1669.
96

A.Muthukrishnan,

M.V. Sangaranarayanan,

Vadim P.Boyarsky and Irina Boyarskaya

Regioselective electrochemical reduction  of 2,4,dichlorobiphenyl- Distinct standard reduction potentials for carbon-chlorine bonds using convolution potential sweep voltammetryChem. Phys. Lett 490 (2010)148-153.
97

Vadim P.Boyarsky,

M.V. Sangaranarayanan,

T.S.Khaibulova and

Irina Boyarskaya

Reduction of mono and

Diochlorobiphenyls with sodium-naphthalene complex

Russ. J. General Chem 80 (2010) 800-808.
98

R.Sivasubramanian and

M. V. Sangaranarayanan

Detection of lead ions in pico molar concentration range using underpotential deposition on silver nano particle deposited on glassy carbon electrodeTalanta 85 (2011) 2142-2147.
99

M Vinoth Kumar,

G Nandhini and

M. V. Sangaranarayanan

Partition function of two-dimensional nearest neighbourIsing models in a non-zero magnetic fieldJ. Chem. Sci. 124 (2012)105-113.
100

V Divya and

M. V. Sangaranarayanan

A facile synthetic strategy for mesoporous crystalline copper-polyaniline nanocompositesEur. Polym. J. 48 (2012) 560-568.
101

A.Muthukrishnan,

Vadim P.Boyarsky,

M. V. Sangaranarayanan and Irina Boyarskaya

Mechanism and Regioselectivity in polychlorobiphenyls-Kinetic analysis for successive reduction of chlorines from dichlorobiphenylsJ. Phys. Chem. C 116 (2012) 655-664.
102

R.Ramya and

M. V. Sangaranarayanan

Polypyrrolenanofibres synthesized with QuilajaSaponin for sensing of catecholSens. Actuators B: Chemical 173 (2012) 40-51.
103

R.Sivasubramanian and

M. V. Sangaranarayanan

Boric acid assisted electrosynthesis of hierarchical three-dimensional  cobalt dendrites and microspheresMater. Chem. Phys. 136 (2012) 448-454.
104

R.Ramya, R. Sivasubramanian and

M. V. Sangaranarayanan

Conducting polymers based electrochemical supercapacitors-Progress and prospectsElectrochim. Acta 101 (2013)109-129.
105SubrataMondal and M. V. SangaranarayananA novel non-enzymatic sensors for urea using a polypyrrole-coated platinum electrodeSens. Actuators B: Chemical 177 (2013) 478-486.
106

R.Sivasubramanian and

M. V. Sangaranarayanan

Electrodeposition of silver nanostructures: From polygons to dendritesCrystEnggComm. 15 (2013) 2052-2056.
107

R.Ramya and

M. V. Sangaranarayanan

Electrochemical sensing of glucose using polyaniline nanofiber dendrites-amperometric and impedimetric analysisJ. Appl. Poly. Sci. 129 (2013) 735-747.
108

S.Harinipriya,V.Sudha,

M.V.Sangaranarayanan and E.J Padmamalar

Adsorption of enantiomers on metal surfaces-Application to D and L-Alanine on Cu,Ni and Zn electrodes

J.Electrochem.Soc 160(2013)G102-G108.

 

109R.Sivasubramanian and M.V.SangaranarayananElectrochemical sensing of nitrite ions using tin-submicroparticles modified glassy carbon electrodeElectroanalysis 26 (2014) 2358-2364.
110K. Saravanakumar, L. Rajendran and M.V.SangaranarayananCurrent-potential response and concentration profiles of redox polymer mediated enzyme catalysis in biofuels-Estimation of Michaelis-Menten constantsChem. Phys. Lett. 621 (2015) 117-123.
111AshishDas and M.V.SangaranarayananElectroanalytical sensor based on unmodified screen printed carbon electrode for the determination of Levo-ThyroxineElectroanalysis 27 (2015) 360-367.
112V.Divya  and M.V.SangaranarayananNanomaterials at Liquid/Liquid Interfaces-A reviewJ.Nanosci and Nanotechnology 15(2015)6863-6882.
113R.Sivasubramanian and M.V.SangaranarayananA facile formation of indium tin oxide surfaces using electrodeposition and amperometric sensing of hydrazineSens. Actuators B 213 (2015) 92-101.
114SubrataMondal and M. V. SangaranarayananA novel rapid synthetic protocol for controllable sizes, conductivities and monomer units of soluble polypyrroleEuropean Polymer Journal 71(2015)596-611.
115

Debranjan Mandal, SubrataMondal, DulalSenapathy,BiswarupSatpathy and

M V Sangaranarayanan

Charge Density Modulated Shape-Dependent Electrocatalytic Activity of Gold Nanoparticles for the Oxidation of Ascorbic AcidJ.Phys.Chem C 119(2015)23103-23112
116SilapjaChandrasekar and M.V.SangaranarayananExact Enumeration of conformation of two and three dimensional lattice proteinsComputer Physics Comm 190(2016)8-11
117N.Aravindan and M.V.SangaranarayananInfluence of solvent composition on the anti-corrosion performance of copper-polypyrrole coated stainless steelProg. Org. Coat 95(2016)38-45
118N.Aravindan, M.Kanagaraj and M.V.SangaranarayananTuning the magnetic and structural properties of nickel-polypyrrole composites through moderate stirringMat. Chem. Phys 174(2016)6-10
119

Ashis Das and

M V Sangaranarayanan

Shape-controlled synthesis of three-dimensional triangular bismuth microstructures and sensing of H2O2CrystEnggComm 18(2016)1147-1155
120

V.Sudha,S.Harinipriya and

M.V.Sangaranarayanan

Grand canonical Monte Carlo coupled multi-scale simulation for electrochemical and solvent parameters of silver halide systems in water

Journal of Molecular Graphics and Modelling

68(2016)140-146.

121V. Divya and M. V. SangaranarayananMetal-polymer composites at liquid/liquid interfaces: new morphological investigations using ex situ and in situ studiesJ Polymer Research 23 (2016) 149-158.
122

SubrataMondal and

M.V.Sangaranarayanan

Perm-selectivity and thickness-dependent ion transport properties of over-oxidized polyaniline-A mechanistic investigationPhysChem and ChemPhys 18(2016)30705
123SubrataMondal, PiyaliBhanja, and M. V. SangaranarayananNon-Enzymatic Sensing of D-Sorbitol using Polyaniline-Coated Stainless Steel ElectrodesJ. Ind. Ins. Sci. 94(2016)273.
124

N.Aravindan and

M V Sangaranarayanan

Differential Pulse Voltammetry as an alternate technique for over oxidation of polymersJ ElectroanalChem 789(2017)148.
125

N.Aravindan, S.Preethi and

M V Sangaranarayanan

Non-Enzymatic Selective Determination of Catechol Using Copper Microparticles Modified Polypyrrole Coated Glassy Carbon ElectrodesJ ElectrochemSoc USA 164(2017) B274.
126Ashis Das and M V SangaranarayananA sensitive electrochemical detection of progesterone using tin-nanorods modified glassy carbon electrodes: Voltammetric and computational studies Sensors and Actuators B 256(2018)775-781.
127SubrataMondal, SukanyaBera and M V Sangaranarayanan

SubrataMondal, SukanyaBera and M V Sangaranarayanan

Electrodeposition of Polymer Nanostructures

using Three Diffuse Double Layers:

Synthetic metals 241(2018)69-76.
128V. Divya and M V Sangaranarayanan

Polymerization

beyond the Liquid/Liquid Interfaces

Electrochemical Energy Technology 4(2018)6-20.
129V.Divya , SubrataMondal and M V Sangaranarayanan

Shape-Controlled Synthesis of Palladium

Nanostructures from Flowers to Thorns:

Electrocatalytic Oxidation of Ethanol

Journal of Nanoscience and Nanotechnology 19(2019)758.
130SubrataMondal,N.Aravindan and M V SangaranarayananControlled growth of polypyrrolemicrotubes on disposable pencil graphite electrode and their supercapacitor behaviourElectrochimicaActa 324(2019)UNSP 134875
131R.Ramya and M V SangaranarayananElectrochemical Sensing of Anesthetics using Polythiophene Coated Glassy Carbon ElectrodesCHEMISTRYSELECT 4 (2019)9776.
132

P.Sivasakthi and

M V Sangaranarayanan

Pulse electrodeposited nickel with structure directing agents as an electrocatalyst for oxidation of glycerolNew Journal of Chemistry 43(2019)8352.