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“எண்ணிய முடிதல் வேண்டும்,

நல்லவே எண்ணல் வேண்டும்;

திண்ணிய நெஞ்சம் வேண்டும்,

தெளிந்தநல் லறிவு வேண்டும்;”

        - மகாகவி சி. சுப்பிரமணிய பாரதி

“Let my thoughts bloom into action;

Let me think only noble thoughts;

Let me have valiant heart;

Let me have a clear wisdom;"

         - Mahakavi C. Subramania Bharathiar

PROFILE

Dr. T. Selvaraju
Associate Professor
Research Area
  • Electrodics
  • New Materials
  • Water Splitting

0422-2428315

94430-23600

ACADEMIC IDENTITY Scopus   ORCID   Google Scholar   Publons   Vidwan / IRINS

Research Area

  • Electrodics
  • New Materials
  • Water Splitting

Featured Publications

Courses Teaching

  • Physical Chemistry-I
  • Physical Chemistry-II
  • Physical Chemistry-III
  • Analytical Chemistry
  • Physical Chemistry Laboratory
  • Physical Methods in Chemistry
  • Environmental Chemistry
  • Applied Chemistry
  • Polymer Chemistry
  • Organic Photochemistry & Spectroscopy

EDUCATION & CAREER

Dr. T. Selvaraju
Associate Professor
Research Area
  • Electrodics
  • New Materials
  • Water Splitting

0422-2428315

94430-23600

ACADEMIC IDENTITY Scopus   ORCID   Google Scholar   Publons   Vidwan / IRINS

Education

Ph. D.
Subject : Chemistry
Institution : Madurai Kamaraj University
Affiliated University : Madurai Kamaraj University
Year of Award : 2006

M.Phil.,
Subject :  Physical Chemistry
Institution : University of Madras
Affiliated University : University of Madras
Year of Award : 2000

M. Sc.,
Subject: Chemistry
Institution : Guru Nanak College, Chennai
Affiliated University : University of Madras
Year of Award : 1999

Career

At Bharathiar University (Reverse Order)
Associate Professor : 2016 to  Till date

Past Experience
Postdoctoral Fellow : 2007 to 2008 at Pusan National University, Busan, S. Korea
Postdoctoral Fellow : 2008 to 2009 at Pusan National University, Busan, S. Korea
Assistant Professor (Selection Grade) : 2009 to 2016 at Karunya University, Coimbatore

 

RESEARCH AREAS

Dr. T. Selvaraju
Associate Professor
Research Area
  • Electrodics
  • New Materials
  • Water Splitting

0422-2428315

94430-23600

ACADEMIC IDENTITY Scopus   ORCID   Google Scholar   Publons   Vidwan / IRINS

PUBLICATIONS

Dr. T. Selvaraju
Associate Professor
Research Area
  • Electrodics
  • New Materials
  • Water Splitting

0422-2428315

94430-23600

ACADEMIC IDENTITY Scopus   ORCID   Google Scholar   Publons   Vidwan / IRINS

1.    Anchoring γ MnO2 within β NiCo(OH)2 as an interfacial electrode material for boosting power density in an asymmetric supercapacitor device and for oxygen evolution catalysis,
A. Gowrisankar and T. Selvaraju*,    
Langmuir, 37, 5964–5978 (2021).
 

2.    Hexacyanoferrate complex derived NiFe2O4/CoFe2O4heterostructures-MWCNTs for efficient oxygen evolution reaction,
    T. Saravanakumar, S. SathiyaBama,T. Selvaraju,* and S. J. SardharBasha,
EnergyFuels, 35, 5372–5382 (2021).
 

3.    Visible light sensitive hexagonal boron nitride (hBN) decorated Fe2O3photocatalyst for the degradation of methylene blue,
    A. Sakunthala, Manjula R Shenoy, B. Vidhya, S. Rajesh, R. Nandhakumar, P. Senthil Kumar, M. Sasikumar, K. Govindan, T. Saravanakumar, T. Selvaraju, J. Suryakanth, M. V. Reddy, Venkatashamy Reddy,
    Journal of Materials Science: Materials in Electronics,32, 4766–4783 (2021).
   

4.    In situ integrated 2D reduced graphene oxide nanosheets with MoSSefor hydrogen evolution reaction and supercapacitor application,
A. Gowrisankar, J. Antonette Luciana Sherryn, T. Selvaraju*,
Applied Surface Science Advances, 3, 100054(2021).
 

5.    One pot in situ synthesis of nano Au−Pd core-shells embedded on reduced graphene oxide for the oxygen reduction reaction,
    P. Gnanaprakasam, A. Gowrishankar, S. Senthil Kumar, A. Murugadoss and 
T. Selvaraju*,R.V. Mangalaraja,
Mater.Sci. Eng. B 264, 114924(2021).
 

6.    The effect of morphology dependent surface charges of iron oxide on the visible light photocatalytic degradation of methylene blue dye,
A. Sakunthala, J. AroutChelvane, K. Govindan, M.V. Reddy, T. Selvaraju,Manjula.R. Shenoy, T. Saravanakumar, Stefan Adams,
Journal of Materials Science: Materials in Electronics, 31,17703 – 17717(2020).
    

7.    BifunctionalCoSn(OH)6/MnO2 composite for solid-state asymmetric high power density supercapacitor and for an enhanced OER,
A.Gowrisankar and T. Selvaraju*,
Electrochim.Acta, 344, 136141(2020).

8.    Exploring the synergistic effect of NixSn2xS4x thiospinel with MWCNTs by the enhanced performance at dye sensitized solar cells, hydrogen evolution reaction and as supercapacitor,
T. Saravanakumar,T. Selvaraju*,K.B. Bhojanaa, M. Ramesh, A. Pandikumar, R. Akilan, R. Shankar, and S.J. SardharBasha*,
Dalton Trans., 49, 5336-5351(2020).

9.    Impact of morphological variation by phase oriented MnO2 based hierarchical ternary composites for the fabrication of solid state symmetric supercapacitor,
A. Gowrisankar, J. Antonette Luciana Sherryn, T. Selvaraju*,
Ionics 26, 2563-2579 (2020).

10.    Preparation and characterization of porous iron oxide dendrites for photocatalytic application,
A. Sakunthala, J. AroutChelvane, K. Govindan, M.V. Reddy, T. Selvaraju, Manjula.R. Shenoy, T. Saravanakumar, Stefan Adams,
Solid State Sciences, 95, 105939(2019).
    
11.    Enhanced electrocatalytic and photocatalytic activity of ball milled copper tin sulphide by incorporating GO and rGO, 
V. Maheskumar, I. Sheebha, B. Vidhya, J.P. Deebasree, T. Selvaraju, and Akash Krishnan,
Applied Surface Science, 484, 265-275 (2019).

12.    Exploring the corrosion inhibition of magnesium by coatings formulated with nano CeO2 and ZnO particles,
T. Saravanakumar, V. Kavimani, K. SooryaPraksh and T. Selvaraju*,
Progress in Organic Coatings, 129, 32-42(2019).

13.    Influence of solvent in solvothermal synthesis of Cu3SnS4: morphology and band gap dependantelectrocatalytic hydrogen evolution reaction and photocatalytic dye degradation,    
    V. Maheskumar, T. Selvaraju and B. Vidya, 
International Journal of Hydrogen Energy, 43, 22861-22873(2018).

14.    Investigation on the electrocatalytic activity of hierarchical flower like architectured Cu3SnS4 for hydrogen evolution reaction,
V. Maheskumar, P. Gnanaprakasam, T.Selvaraju and B. Vidya, 
Journal of Electroanalytical Chemistry,826, 38-45 (2018).

15.    Comparative studies on the electrocatalytic hydrogen evolution property of Cu2SnS3 and Cu4SnS4 ternary alloys prepared by solvothermal method,
V. Maheskumar, P. Gnanaprakasam, T. Selvaraju and B. Vidya, 
International Journal of Hydrogen Energy, 43, 3967-3975(2018).

16.    Unusual attempt of architecturing the direct growth of Pt by electroless Cu exchange at bimetallic Ag@Cunanorods on electrochemically reduced graphene oxide nanosheets for an efficient alcohol oxidation,
    S.E. Jeena, P. Gnanaprakasam and T. Selvaraju*,
Journal of Nanoparticle Research,19,1-13(2017).

17.    Electroreduction of nitroaromatic compounds at electrochemically reduced graphene oxide supported bimetallic Ag@Pdnanorods modified electrodes,
    S.E. Jeena, P. Gnanaprakasam and T. Selvaraju*,
Electroanalysis, 28, 1984-1991(2016).

18.    Simple and robust green synthesis of Au NPs on reduced graphene oxide for the simultaneous detection of toxic heavy metal ions and bioremediation using bacterium as the scavenger,
P.Gnanaprakasam, S.E. Jeena, D. Premnath and T. Selvaraju*,
Electroanlaysis,28, 1885-1893(2016).

19.    Facile synthesis of Pt at graphene supported Ag based bimetallic nanorods by galvanic displacement for an enhanced hydrazine oxidation,
S. E. Jeena and T. Selvaraju*, 
Journal of Chemical Sciences,128, 357-363 (2016).

20.    Synergistic effect of bimetallic Ag@Cunanorods modified electrode for enhanced electrochemical sensing of thiocyanate ions,
S.E. Jeena, P. Gnanaprakasam and T. Selvaraju*, 
Research on Chemical Intermediate,42, 2539-2551(2016).


21.    Hierarchical electrolessPtdeposition at Au decorated reduced grapheneoxide via galvanic exchanged process: electrocatalyticnanocomposite with enhanced mass activity for methanol and ethanol oxidation,
    P. Gnanaprakasam, Jeena Susan Easow and T. Selvaraju*, 
J. Mat. Chem.A, 3,18010–18018(2015).

22.    Tuning the direct growth of Agseeds into bimetallic Ag@Cunanorods on surface functionalized electrochemically reduced graphene oxide: Enhanced nitrite detection,
S.E. Jeena,P. Gnanaprakasam, D. Arun and T. Selvaraju*, 
RSC Advances,5, 48236–48245(2015).

23.    Green synthesis of self-assembled silver nanowires decorated reduced graphene oxide for efficient nitroarenes reduction,
    P. Gnanaprakasam and T. Selvaraju*, 
RSC Advances,4, 24518–24525(2014).

24.    Signal amplification of dopamine usinglanthanum hexacyanoferrate modified electrode,
    T. Selvaraju* and R. Ramaraj, 
Journal of Chemical Sciences, 126, 11–16(2014).

25.    Unzipped catalytic activity of copper in realizing bimetallic Ag@Cu nanowires as a better amperometric H2O2 sensor,
    Jeena Susan Easow and T. Selvaraju*, 
ElectrochimicaActa, 112, 648–654(2013).

26.    Electrocatalytic reduction of hydrogen peroxide at copper nanoparticles coated glassy  
carbon electrode,
T. Selvaraju and R. Ramaraj, 
Journal of Applied Electrochemistry, 39, 321–327 (2009).

27.    Nanocatalyst-based assay using DNA-conjugated Au nanoparticles for electrochemical DNA detection,
    T. Selvaraju, J. Das, K. Jo, K. Kwon, C.-H. Huh, T.K. Kim and H. Yang,         Langmuir,24, 9883–9888(2008).

28.    Ultrasensitive electrochemical immunosensing using magnetic beads and gold nanocatalysts,
T. Selvaraju, J. Das, S. W. Han, and H. Yang, 
Biosensors and Bioelectronics,23, 932–938(2008).

29.    Electrochemical and in situ spectroelectrochemical studies of gold nanoparticles immobilized Nafion matrix modified electrode,
T. Selvaraju, S. Sivagami, S. Thangavel and R. Ramaraj, 
Bulletin of Materials Science,31, 487–494(2008).

30.    Selective determination of catechol in the presence of hydroquinone at bare indium tin oxide electrodes via peak-potential separation and redox cycling by hydrazine,    
            Md. A. Aziz, T. Selvaraju and H. Yang, 
Electroanalysis, 19, 1543–1546(2007).

31.    Simultaneous detection of ascorbic acid, uric acid and homovanillic acid at copper modified electrode,
    T.Selvaraju and R. Ramaraj, 
Electrochim.Acta,52, 2998–3005(2007).

32.    Electrochemically deposited nanostructured platinum on Nafion coated electrode for sensor applications,    
T.Selvaraju and R. Ramaraj, 
Journal of Electroanalytical Chemistry, 585,290–300 (2005).

33.    Nanostructured copper particles-incorporated Nafon-modified electrode for oxygen  reduction,    
    T.Selvaraju and R. Ramaraj, 
Pramana – Journal of Physics, 65, 713–722(2005).

34.    Simultaneous determination of ascorbic acid, dopamine and serotonin at poly(phenosafranine) modified electrode,    
T.Selvaraju and R. Ramaraj, 
Electrochemistry Communication, 5, 667–672(2003).

35.    Simultaneous determination of dopamine and serotonin in the presence of ascorbic acid and uric acid at poly(o-phenylenediamine) modified electrode,
T.Selvaraju and R. Ramaraj, 
Journal Applied Electrochemistry, 33, 759–762(2003).

TEACHING

Dr. T. Selvaraju
Associate Professor
Research Area
  • Electrodics
  • New Materials
  • Water Splitting

0422-2428315

94430-23600

ACADEMIC IDENTITY Scopus   ORCID   Google Scholar   Publons   Vidwan / IRINS

PROJECTS

Dr. T. Selvaraju
Associate Professor
Research Area
  • Electrodics
  • New Materials
  • Water Splitting

0422-2428315

94430-23600

ACADEMIC IDENTITY Scopus   ORCID   Google Scholar   Publons   Vidwan / IRINS

Funded Projects (National Level)

1.Design and development of low cost electrocoagulation batch reactor system for efficient industrial effluent treatment,
Principal Investigator: Dr. T. Selvaraju
Co-Investigator:Dr.S.J. SardharBasha, D. Nataraj, P. Sakthivel
TANSHE Project, Department of Higher Education, Government of Tamil Nadu
Time Period: 2021 – 2024
Sanctioned Amount, (Rs.87.58 Lakhs)

2.Synthesis and application of anticancer compounds,
Principal Investigator: Dr. T. Selvaraju, Co-Investigator: NIL 
RUSA 2.0: BCTRC, Bharathiar University 
Time Period: 2021-2022
Sanctioned Amount,(Rs.7.43 lakhs)

3.Development &commercialization of high tensile strength bioplastics,
Principal Investigator: Dr. T. Selvaraju, Co-Investigator: NIL
RUSA Phase-II: Bharathiar Entrepreneurship, Innovation & Career Hub, 2019
Time Period: 2020-2021
Sanctioned Amount,(Rs.6 lakhs)

1.Hybrid reduced graphene oxide supported bimetallic porous nanostructures syntheses and its applications,
Principal Investigator: Dr. T. Selvaraju, Co-Investigator: NIL
DST-SERB, New Delhi under EMR Scheme, 
Time Period: 2016-2019
Sanctioned Amount,(Rs.32.59 lakhs)

2.Synthesizing functionalized biocompatible core-shell nanoparticles for potential applications,
Principal Investigator: Dr. T. Selvaraju, Co-Investigator: NIL
DST-SERB, New Delhi - Start up grant, 
Time Period: 2012-2016
Sanctioned Amount, (Rs.25.30 lakhs)

 

Consultancy Projects
Ongoing Consultancy Project Informations
Completed Consultancy Project Informations

 

RESEARCH GUIDANCE

Dr. T. Selvaraju
Associate Professor
Research Area
  • Electrodics
  • New Materials
  • Water Splitting

0422-2428315

94430-23600

ACADEMIC IDENTITY Scopus   ORCID   Google Scholar   Publons   Vidwan / IRINS

Ongoing

Title

Name

Completed

Title

Name

 

Ongoing

Sample Data.

Completed

Sample Data.

 

Ongoing

Sample Data.

Completed

Sample Data.

 

Ongoing

Sample Data.

Completed

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INSTITUTIONAL RESPONSIBILITIES

Dr. T. Selvaraju
Associate Professor
Research Area
  • Electrodics
  • New Materials
  • Water Splitting

0422-2428315

94430-23600

ACADEMIC IDENTITY Scopus   ORCID   Google Scholar   Publons   Vidwan / IRINS

ADMINISTRATIVE (BHARATHIAR UNIVERSITY)

{Posting Name}
Period : {from Date - to Date}
Nature of Responsibility: *****************

{Posting Name}
Period : {from Date - to Date}
Nature of Responsibility: *****************

ALUMINI REFLECTIONS

Dr. T. Selvaraju
Associate Professor
Research Area
  • Electrodics
  • New Materials
  • Water Splitting

0422-2428315

94430-23600

ACADEMIC IDENTITY Scopus   ORCID   Google Scholar   Publons   Vidwan / IRINS

Awards
  • CSIR-Senior Research Fellowship, CSIR-New Delhi, April, 2004.
  • Brain Korea 21 (BK21) Fellowship, S. Korea, For Postdoctoral Research, January, 2007.
  • SERB-ITS travel grant Award 1.2 lakhs – P. Gnanaprakasam, S.E. Jeena, T. Selvaraju*, NANOTECH FRANCE, International Nanotechnology Conference held at PôleUniversitaire Léonard de Vinci, La Défense Paris, France, JUNE 2016
  • Best Achievers Award, Karunya University, Coimbatore, For External Funding, July, 2016.
  • Best Outstanding Scientist Award, Venus International Research Foundation, For Significant Contribution in Research, Chennai, November, 2016.
  • Certificate of Appreciation as Reviewer – American Chemical Society, Royal Chemical Society & Elsevier Journals.
Membership

 

 

AWARDS & MEMBERSHIPS

Dr. T. Selvaraju
Associate Professor
Research Area
  • Electrodics
  • New Materials
  • Water Splitting

0422-2428315

94430-23600

ACADEMIC IDENTITY Scopus   ORCID   Google Scholar   Publons   Vidwan / IRINS

Awards
  • CSIR-Senior Research Fellowship, CSIR-New Delhi, April, 2004.
  • Brain Korea 21 (BK21) Fellowship, S. Korea, For Postdoctoral Research, January, 2007.
  • SERB-ITS travel grant Award 1.2 lakhs – P. Gnanaprakasam, S.E. Jeena, T. Selvaraju*, NANOTECH FRANCE, International Nanotechnology Conference held at PôleUniversitaire Léonard de Vinci, La Défense Paris, France, JUNE 2016
  • Best Achievers Award, Karunya University, Coimbatore, For External Funding, July, 2016.
  • Best Outstanding Scientist Award, Venus International Research Foundation, For Significant Contribution in Research, Chennai, November, 2016.
  • Certificate of Appreciation as Reviewer – American Chemical Society, Royal Chemical Society & Elsevier Journals.
Membership

 

 

VISITS / COLLABORATIONS / OTHERS

Dr. T. Selvaraju
Associate Professor
Research Area
  • Electrodics
  • New Materials
  • Water Splitting

0422-2428315

94430-23600

ACADEMIC IDENTITY Scopus   ORCID   Google Scholar   Publons   Vidwan / IRINS

Visits

 

Collaborators

 

Others

 

 

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