Dr. Ashok K. Sundramoorthy

Research Department:

Research Faculty Profile Image: 
Education: 
M.Sc., M.Phil., Ph.D
Designation: 
Research Assistant Professor
About: 

The main goal of research in the Ashok group is to fabricate highly selective (bio) chemical sensing devices. For instances, we are faced with the problem of detecting multiple analytes present in the same sample. However, detecting individual analyte with high selectivity and sensitivity is not easy and might require sample pretreatment and separation. To improve the sensitivity, selectivity, and reduce the interference effects, it may be required to use functionalized nanomaterials (carbon nanotubes, graphene, 2D layered inorganic materials, polymer nanocomposites etc.) which could improve the performance of the devices.

Dr. Ashok’s group is interested in synthesising nanomaterials, nanocomposites and biocompatible nanomaterials for various applications such as: biosensors, catalysis, energy harvesting/storage, biodegradable electronics, and flexible electronics. He intends to develop prototype chemical and biosensing devices for detection of chemical, organic contamination, microorganism detection, like bacteria and viruses in food, and environmental samples. He is also interested in functional carbon nanomaterials derived from agri-products for various applications, including for catalysis, energy harvesting/storage (flexible battery and supercapacitors), biodegradable films. For the extended Webpage please visit:  Electrochemical & Bioelectronics Lab

Education:

  • Ph.D., Engineering (Electrochemistry), National Taipei University of Technology (2009), TAIWAN
  • M.Phil., Analytical Chemistry, University of Madras (2004), INDIA
  • M.Sc., Industrial Chemistry, Bharathidasan University (2002), INDIA

Academic/Research Experience:

  • Assistant Professor, SRM Research Institute & Department of Chemistry, SRM Institute of Science and Technology (formerly known as SRM University), Chennai, India (July 2016 - Present).
  • Postdoc. Research Associate, University of Wisconsin-Madison, USA (Aug. 2013 - May 2016).
  • Postdoc. Research Associate, Nanyang Technological University, Singapore (May 2010 - Aug. 2013).
  • Postdoc. Research Associate, National Taipei University of Technology, Taiwan (Feb. 2009 - April 2010).

Achievements and Awards:  

  • Winner of the Wisconsin Alumni Research Foundation (WARF) Discovery Challenge Research Award Competition (2014) consists of a $7500 mini-grant.
  • Editorial Board Member of Advanced Materials Reviews from Jan. 2016.
  • Editorial Board Member of Journal of Nanomaterials (IF: 1.644).
  • Editorial Board Member of Journal of Chemistry (2013-2017) (IF: 0.772).
  • Associate Editor of Frontiers in Materials from May 2014. (IF: 1.211)
  • Guest Editor of Special Issue on "New Developments on Nanomaterials for Electrochemical Applications, Micro and Nanosystems, 2012, Vol. 4. No. 3
  • Recognised in "Marquis Who's Who" 2009 Edition of Science and Engineering.
  • Received Best Researcher Awards in 2007 and 2008 from National Taipei University of Technology (1st position in top 20 selected researchers).
  • Taiwan scholarship recipients (Ministry of Education) for Research Program (2005-2008).

 

Weight: 
14
Research Interests: 

  • Graphene and 2D layered Materials Synthesis and Applications
  • Carbon Nanomaterials (Semiconducting and metallic CNTs separation)
  • Flexible Transparent Conductors and Field-Effect Transistors
  • Electrochemistry and Biosensors
  • Flexible Supercapacitors and Energy Storage Devices
  • Biomaterials
Group: 

Members

PI: Dr. Ashok K. Sundramoorthy

Ph.D Research Scholars:

1. Mr. T.H. Vignesh Kumar (Ph.D. student) (M.Sc. in Appl. Chemistry) (2017)

2. Ms. Ramila Devi N  (Ph.D. student) (M.Sc. Chemistry) (2017)

3. R. Jerome (Ph.D. student) (M.Sc. Chemistry) (2018)

4. M. Preethika (Ph.D. student) (M.Sc. Chemistry) (2018)

Post-Doctoral Rsearch Fellow

5. Dr. N. Murugan (Ph.D. in Chemistry) (2017)

Master Students

6. Mr. Rajesh (II-M.Sc Chemistry Student) (2017-2019)

7. C. A. Naveen Kumar (II-M.Sc Chemistry Student, Madras Christian College) (2017-2019)

8. N. Murugesan (II-M.Sc Chemistry Student, Madras Christian College)

 

Alumni:

Mr. Christopher J  (M.Tech. Student in Nano Tech.) (2016-2018)

Mr. Rajesh (II-M.Sc, Chemistry Student) (2016-2018)

Mr. Vignesh V ((II-M.Sc Chemistry Student, Madras Christian College) (2016-2018)

 

Publications: 

Patents

  • S. Gunasekaran and A.K. Sundramoorthy, Transparent Conducting Films Containing Single-Walled Carbon Nanotubes Dispersed in an Azo Dye, US Pat. 20150318070. (Pub. date: 5 Nov 2015).
  • B.E.M. Chan and A.K. Sundramoorthy, Method of Enriching Different Species of Carbon Nanotubes, US Pat. 2014308194-A1. (Pub. date: 16 Oct. 2014).
  • B.E.M. Chan, A.K. Sundramoorthy, and J. Wang, Self-Assembly of Calix[4]arene-Dispersed Oxidized Graphene For Transferable Transparent Conductive Thin Films, US Pat. Appl. 62/021,767, 2014.
  • S.-F. Wang, C.-K. Yang, S. Ashok Kumar# and I-l. Ho, Dispersing Agent of MWCNTs and the Method for Preparation and Application of Homogeneous MWCNTs Dispersion, US Pat. 20120070566 A1. (Pub. date: 22 Mar 2012).

(#also known as: S. Ashok Kumar in my earlier publications).

Books, Edited Volumes

  • S. Ashok Kumar, S. Thiagarajan, S.–F. Wang. (2010). Biocompatible Nanomaterials: Synthesis, Characterization and Applications, N.Y., Nova Science. (ISBN: 978-1-61668-677-2).
  • U. Yogeswaran, S. Ashok Kumar and S. –M. Chen. (2009). Nanostructured Materials for Electrochemical Biosensors, N.Y., Nova Science. (ISBN: 978-1-60741-706-4).

Scientific Peer-Reviewed Journal Papers (SCI)

  • (57) O. Sadak, A. K. Sundramoorthy, S. Gunasekaran, Facile and green synthesis of highly conductive graphene paper, Carbon, Nov. 2018, 138, 108-117. (IF:6.337).
     
    (56) N. Ramila Devi, T.H. Vignesh Kumar, A.K. Sundramoorthy*, Electrochemically exfoliated carbon quantum dots modified electrodes for detection of dopamine neurotransmitter, J. Electrochem. Soc. 2018 165(12): G3112-G31192018. (IF:3.662).
     
    (55) N. Murugan and A. K. Sundramoorthy*, Synthesis of fluorescent carbon dots from Borassus flabellifer flowers for label-free highly selective and sensitive detection of Fe3+ ions, New J. Chem., 2018,42, 13297-13307  (RSC,IF:3.201).
     
    (54) N. Ramila Devi, M. Sasidharan, and A.K. Sundramoorthy*, Gold Nanoparticles-Thiol-Functionalized Reduced Graphene Oxide Coated Electrochemical Sensor System for Selective Detection of Mercury Ion, J. Electrochem. Soc. 165 (2018) B3046-B3053 [IF: 3.259]. 
     
    (53) N. Murugan, C. Murugan and A.K. Sundramoorthy*, In vitro and in vivo characterization of mineralized hydroxyapatite/polycaprolactone-graphene oxide based bioactive multifunctional coating on Ti alloy for bone implant applications, Arabian Journal of Chemistry, (2018) 11, 959–969 [IF: 2.969].
     
    (52) T. H. Vignesh Kumar and Ashok K. Sundramoorthy*, Non-Enzymatic Electrochemical Detection of Urea on Silver Nanoparticles Anchored Nitrogen-Doped Single-Walled Carbon Nanotube Modified Electrode, J. Electrochem. Soc. 165 (2018) B3006-B3016 [IF: 3.259]
     
    (51) V. Sharma, A. Sundaramurthy and A.K. Sundramoorthy*, Graphene nanoplatelets-silver nanorods-polymer based in-situ hybrid electrode for electroanalysis of dopamine and ascorbic acid in biological samples, Applied Surface Science, 449, 2018, Pages 558-566 [IF: 3.387].
     
    (50) T.H. Vignesh Kumar, V. Sivasankar, N. Fayou, H. Abou Oualid, A.K. Sundramoorthy*, Synthesis and characterization of coral-like hierarchical MgO incorporated fly ash composite for the effective adsorption of azo dye from aqueous solution, Applied Surface Science, Volume 449, 2018, Pages 719-728 [IF: 3.387].
     
    (49) A. Sundaramurthy and A.K. Sundramoorthy, Polyelectrolyte capsules preloaded with interconnected alginate matrix: An effective capsule system for encapsulation and release of macromolecules, International Journal of Biological Macromolecules, 107, Par B (2018) 2251-2261 [IF: 3.671].  
     
    (48) M. Govindasamy, V. Mani, S.-M. Chen, T.-W. Chen, and A. K. Sundramoorthy
    Methyl parathion detection in vegetables and fruits using silver@graphene nanoribbons nanocomposite modified screen printed electrode
    Scientific Reports 2017; 7: 46471. (IF: 5.228)
      
    (47) Highly selective colorimetric and electrochemical sensing of iron (III) using Nile red functionalized graphene film
    O. Sadak, A. K. Sundramoorthy, S. Gunasekaran
    Biosensors and Bioelectronics 89 (2017) 430-436. (IF: 7.476)
     
    (46) MnO2 Nanorods/SiO2 sphere coated on single-wall carbon nanotubes as supercapacitor electrode for high energy storage applications,  
    Zaharaddeen S Iro, Kesavan T, Subramani C, Dash SS, Sasidharan Manickam and Ashok K. Sundramoorthy*, Materials Research Express, 4 (2017) 124004 [IF: 1.068]
     
    (45) Graphene Oxide/Oxidized Carbon Nanofiber/Mineralized Hydroxyapatite Based Hybrid Composite for Biomedical Applications, N. Murugan, A Sundaramurthy, S.-M. Chen, A.K. Sundramoorthy*, Materials Research Express, 4 (2017)124005  [IF: 1.068]
     
    (44) Anisotropic Noble Metal Nanoparticles: Synthesis, Surface Functionalization and Applications in Biosensing, Bioimaging, Drug Delivery and Theranostics, G. Paramasivam, N. Kayambu, A. M. Rabel, A.K Sundramoorthy, A. Sundaramurthy, Acta Biomaterialia, 49, 2017, 45-65 (IF: 6.008)
     
    (43) Synthesis of poly(8-aminopyrene-1,3,6-trisulfonic acid)/CNT Nanocomposite for Electrochemical Detection of Caffeine
    A.K. Sundramoorthy, O. Sadak, S. Anandhakumar and S. Gunasekaran, Journal of The Electrochemical Society, 163 (13) B638-B643 (2016) (IF: 3.4)
     
    (42) Simultaneous reduction and covalent grafting of polythiophene on graphene oxide sheets for excellent capacitance retention
    SK Yadav, R Kumar, AK Sundramoorthy, RK Singh, CHM Koo, RSC Adv., 2016,6, 52945-52949   (IF: 3.84)
     
    (41) Reduced Graphene Oxide-Poly(3,4-ethylenedioxythiophene) Polystyrene Sulfonate Based Dual-Selective Sensor for Iron in Different Oxidation States
    Ashok K. Sundramoorthy, Bhagya S. Premkumar, and Sundaram Gunasekaran, ACS Sensors, 2016, 1 (2), pp 151–157.
     
    (40) Low-temperature solution process for preparing flexible transparent carbon nanotube film for use in flexible supercapacitors
    Ashok K. Sundramoorthy, Yi-Cheng Wang, and Sundaram Gunasekaran*, Nano Research, 2015, 8, 3430-3445 (IF: 7.010)
     
    (39) Lateral assembly of oxidized graphene flakes into large-scale transparent conductive thin films with a three-dimensional surfactant 4-sulfocalix[4]arene, Ashok K. Sundramoorthy, Yilei Wang, Jing Wang, Jianfei Che, Ya Xuan Thong, Albert Chee W. Lu & Mary B. Chan-Park*
    Scientific Reports, 2015, 5, 10716. (IF: 5.078)
     
    (38) Azo Dye Functionalized Graphene Nanoplatelets for Selective Detection of Bisphenol A and Hydrogen Peroxide
    N. Yasri, Ashok K. Sundramoorthy, and Sundaram Gunasekaran, RSC Advances, 2015, 5, 87295-87305   (IF: 3.84)
     
    (37) Partially Oxidized Graphene/Metallic Single-Walled Carbon Nanotubes Film-Coated Electrode for Nanomolar Detection of Dopamine
    Ashok K. Sundramoorthy and Sundaram Gunasekaran*, Electroanalysis, 2015, 27, 1811–1816.  (IF: 2.138)
     
    (36) Applications of graphene in quality assurance and safety of food, Ashok K. Sundramoorthy and Sundaram Gunasekaran*, Trends in Analytical Chemistry, 2014, 60, 36–53. (IF: 6.351)
     
    (35) Gel Electrophoresis using a Selective Radical for Separation of Single Walled Carbon Nanotubes
    Sara Mesgari,   Ashok K. Sundramoorthy,   Leslie S. Loo* and    Mary Chan-Park* , Faraday Discussions, 2014, 173, 351-363 (IF: 4.194)
     
    (34) Solution-processed flexible transparent conductors based on carbon nanotubes and silver grid hybrid films
    J. Wang, J. Zhang, Ashok K. Sundramoorthy, Peng Chen* and Mary B. Chan-Park* , Nanoscale, 2014,6, 4560-4565 (IF: 6.233)
     
    (33) Highly Selective Mercury Detection at Partially Oxidized Graphene/Poly(3,4-ethylenedioxythiophene):Poly(styrenesulfonate) Nanocomposite Film Modified Electrode
    N. Yasri, Ashok K. Sundramoorthy, Woo-Jin Chang and Sundaram Gunasekaran, Frontiers in Materials 2014, 1, 33. (IF: 1.311)
     
    (32) Scalable and Effective Enrichment of Semiconducting Single-Walled Carbon Nanotubes by a Dual Selective Naphthalene-Based Azo Dispersant
    Ashok K. Sundramoorthy, Sara Mesgari, Jing Wang, Raj Kumar, Mahasin Alam Sk., Siew Hooi Yeap, Qing Zhang, Siu Kwan Sze, Kok Hwa Lim,*, and Mary B. Chan-Park*, Journal of the American Chemical Society, 2013, 135 (15), pp 5569–5581 (IF: 10.677)
     
    (31) Disposable Redox Polymer Coated Screen-Printed Carbon Electrode for NADH Sensing
    Ashok K. Sundramoorthy, Szu-Ling Chen, Shen-Ming Chen, Micro and Nanosystems, 2012, Volume 4 Issue 3, pp.172-179 (8)
        
    (30)  New Developments on Nanomaterials for Electrochemical Applications 
    Ashok K. Sundramoorthy, Micro and Nanosystems, 2012, Volume 4 Issue 3, pp.171-171 (1)
      
    (29) Electrochemical properties of myoglobin deposited on multi-walled carbon nanotube/ciprofloxacin film
    Kumar, S.A., Wang, S.-F., Chang, Y.-T., Lu, H.-C., Yeh, C.-T. (2011) Colloids and Surfaces B: Biointerfaces, 82 (2), pp. 526-531. [IF: 3.554]
     
    (28) Direct electron transfer of cytochrome C and its electrocatalytic properties on multiwalled carbon nanotubes/ciprofloxacin films
    Kumar, S.A., Wang, S.-F., Yeh, C.-T., Lu, H.-C., Yang, J.-C., Chang, Y.-T. (2010) Journal of Solid State Electrochemistry, 14 (11), pp. 2129-2135. [IF: 2.279]
     
    (27) Electrochemical sensing of H2O2 at flavin adenine dinucleotide/chitosan/CNT nanocomposite modified electrode
    Kumar, S.A.*, Chen, S.-L., Chen, S.-M. (2010) Electrochemical and Solid-State Letters, 13 (10), pp. K83-K86. [IF: 2.010]
     
    (26) Synthetic antibacterial agent assisted synthesis of gold nanoparticles: Characterization and application studies
    Kumar, S.A.*, Chang, Y.-T., Wang, S.-F., Lu, H.-C. (2010) Journal of Physics and Chemistry of Solids, 71 (10), pp. 1484-1490. [IF: 1.527]
     
    (25) Acid yellow 9 as a dispersing agent for carbon nanotubes: Preparation of redox polymer-carbon nanotube composite film and its sensing application towards ascorbic acid and dopamine
    Kumar, S.A., Wang, S.-F., Yang, T.C.-K., Yeh, C.-T. (2010) Biosensors and Bioelectronics, 25 (12), pp. 2592-2597. [IF: 5.437]
     
    (24) Poly(BCB)/Au-nanoparticles hybrid film modified electrode: Preparation, characterization and its application as a non-enzymatic sensor
    Kumar, S.A., Wang, S.-F., Chang, Y.-T. (2010) Thin Solid Films, 518 (20), pp. 5832-5838. [IF: 1.604]
     
    (23) Synthesis of gold nanorods/nanobelts and their potent electrocatalytic properties toward ethanol oxidation
    Kumar, S. A., Wang, S.-F., Yang, J.-C., Yeh, C.-T., Lu, H.-C. (2010) Chemistry Letters, 39 (1), pp. 74-75. [IF: 1.594]
     
    (22) Preparation and characterization of copper nanoparticles/zinc oxide composite modified electrode and its application to glucose sensing
    Kumar, S.A., Cheng, H.-W., Chen, S.-M., Wang, S.-F. (2010) Materials Science and Engineering C, 30 (1), pp. 86-91. [IF: 2.404]    
     
    (21) Selective detection of uric acid in the presence of ascorbic acid and dopamine using polymerized luminol film modified glassy carbon electrode
    Kumar, S.A.*, Cheng, H.-W., Chen, S.-M. (2009) Electroanalysis, 21 (20), pp. 2281-2286. [IF: 2.817]
     
    (20) Adsorption of ciprofloxacin and its role for stabilizing multi-walled carbon nanotubes and characterization
    Kumar, S.A., Wang, S.-F. (2009) Materials Letters, 63 (21), pp. 1830-1833.  [IF: 2.224]    
     
    (19) Amperometric sensor for detection of the reduced form of nicotinamide adenine dinucleotide using a poly(pyronin B) film modified electrode
    Kumar, S.A., Chen, S.-L., Chen, S.-M. (2009) Electroanalysis, 21 (12), pp. 1379-1386. [IF: 2.817]
     
    (18) Electrochemical analysis of H2 O2 and nitrite using copper nanoparticles/poly(o -phenylenediamine) film modified glassy carbon electrode
    Kumar, S. A., Lo, P.-H., Chen, S.-M. (2009) Journal of the Electrochemical Society, 156 (7), pp. E118-E123. [IF: 2.588]
     
    (17) Electroanalysis of ascorbic acid (vitamin C) using nano-ZnO/poly(luminol) hybrid film modified electrode
    Kumar, S. A., Cheng, H.-W., Chen, S.-M., (2009) Reactive and Functional Polymers, 69 (6), pp. 364-370.  [IF: 2.505]  
     
    (16) Electrochemical preparation, characterization, and electrocatalytic studies of Nafion-ruthenium oxide modified glassy carbon electrode
    Ti, C.-C., Kumar, S.A., Chen, S.-M, (2009) Journal of Solid State Electrochemistry, 13 (3), pp. 397-406. [IF: 2.279]
     
    (15) Electrochemical selective determination of ascorbic acid at redox active polymer modified electrode derived from direct blue 71
    Kumar, S.A., Lo, P.-H., Chen, S.-M, (2008) Biosensors and Bioelectronics, 24 (4), pp. 518-523.  [IF: 5.437]
     
    (14) Amperometric determination of H2O2 at nano-TiO2/DNA/thionin nanocomposite modified electrode
    Lo, P.-H., Kumar, S.A., Chen, S.-M, (2008) Colloids and Surfaces B: Biointerfaces, 66 (2), pp. 266-273. [IF: 3.554]
     
    (13) Zinc oxide/redox mediator composite films-based sensor for electrochemical detection of important biomolecules
    Tang, C.-F., Kumar, S.A., Chen, S.-M., (2008) Analytical Biochemistry, 380 (2), pp. 174-183. [IF: 2.582]
     
    (12) Electroanalytical determination of acetaminophen using nano-TiO2/polymer coated electrode in the presence of dopamine
    Kumar, S.A., Tang, C.-F., Chen, S.-M. (2008) Talanta, 76 (5), pp. 997-1005.  [IF: 3.498]                                                     
     
    (11) Electrochemical synthesis and characterization of TiO2 nanoparticles and their use as a platform for flavin adenine dinucleotide immobilization and efficient electrocatalysis
    Kumar, S. A.*, Lo, P.-H., Chen, S.-M. (2008) Nanotechnology, 19 (25), art. no. 255501. [IF: 3.842]
     
    (10) Electroanalysis of NADH using conducting and redox active polymer/carbon nanotubes modified electrodes-a review [FULL TEXT AVAILABLE-PDF] (click here)
    Kumar, S.A., Chen, S.-M. (2008) Sensors, 8 (2), pp. 739-766. (Invited Review Article) [IF: 1.953]
     
    (9) Poly(4-amino-1-1′-azobenzene-3, 4′-disulfonic acid) coated electrode for selective detection of dopamine from its interferences
    Kumar, S.A., Tang, C.-F., Chen, S.-M. (2008) Talanta, 74 (4), pp. 860-866. [IF: 3.498]                                              
     
    (8) Nanostructured zinc oxide particles in chemically modified electrodes for biosensor applications
    Kumar, S.A., Chen, S.-M. (2008) Analytical Letters, 41 (2), pp. 141-158. (Invited Review Article) [IF: 0.965]
     
    (7) Electrocatalytic reduction of oxygen and hydrogen peroxide at poly(p-aminobenzene sulfonic acid)-modified glassy carbon electrodes
    Kumar, S.A., Chen, S.-M. (2007) Journal of Molecular Catalysis A: Chemical, 278 (1-2), pp. 244-250. [IF: 3.187]
     
    (6) Electrocatalysis and amperometric detection of the reduced form of nicotinamide adenine dinucleotide at toluidine blue/zinc oxide coated electrodes
    Kumar, S.A., Chen, S.-M. (2007) Electroanalysis, 19 (18), pp. 1952-1958. [IF: 2.817]
     
    (5) Electrochemical, microscopic, and EQCM studies of cathodic electrodeposition of ZnO/FAD and anodic polymerization of FAD films modified electrodes and their electrocatalytic properties
    Kumar, S.A., Chen, S.-M. (2007) Journal of Solid State Electrochemistry, 11 (7), pp. 993-1006. [IF: 2.279]
     
    (4) Fabrication and characterization of Meldola's blue/zinc oxide hybrid electrodes for efficient detection of the reduced form of nicotinamide adenine dinucleotide at low potential
    Kumar, S.A., Chen, S.-M. (2007) Analytica Chimica Acta, 592 (1), pp. 36-44. [IF: 4.387]
     
    (3) Electrochemically polymerized composites of conducting poly(p-ABSA) and flavins (FAD, FMN, RF) films and their use as electrochemical sensors: A new potent electroanalysis of NADH and NAD+
    Kumar, S.A., Chen, S.-M. (2007) Sensors and Actuators, B: Chemical, 123 (2), pp. 964-977. [IF: 3.535]
     
    (2) Electrochemical preparation of poly(acriflavine) film-modified electrode and its electrolcatalytic properties towards NADH, nitrite and sulfur oxoanions
    Chen, S.-M., Liu, M.-I., Kumar, S.A. (2007) Electroanalysis, 19 (9), pp. 999-1007. [IF: 2.817]
     
    (1) Myoglobin/arylhydroxylamine film modified electrode: Direct electrochemistry and electrochemical catalysis
    Kumar, S.A., Chen, S.-M. (2007) Talanta, 72 (2), pp. 831-838. [IF: 3.498]
     
    (Please note: In my earlier publications from 2007 to 2011, my name was published as S. Ashok Kumar; *Corresponding authors; (1st authors equal contribution).

Book Chapters

  • Ashok K. Sundramoorthy, T. H. Vignesh Kumar, Sundaram Gunasekaran
    Graphene-Based Nanosensors and Smart Food Packaging Systems for Food Safety and Quality Monitoring
    Chapter 12:  Graphene Bioelectronics, 2018, Pages 267-306
    A volume in Advanced Nanomaterials, Elsevier
  • S. Ashok Kumar, S.-F. Wang, Y.–T. Chang. (2010). Chemical Synthesis of Gold Nanoparticles using Fluoroquinolone and their Characterizations, In S.A. Kumar, S. Thiagarajan and S.-F. Wang (Ed.), Biocompatible Nanomaterials: Synthesis, Characterization and Applications, pp. 285-296, NY, Nova Science.
  • S. Ashok Kumar, S.–F. Wang, C.–T. Yeh, H.-C. Lu. (2010). Direct Electron Transfers of Cytochrome c and Its Electrocatalytic Properties on Multi-Walled Carbon Nanotube Films, In S.A. Kumar, S. Thiagarajan and S.-F. Wang (Ed.), Biocompatible Nanomaterials: Synthesis, Characterization and Applications, pp. 337-346, NY, Nova Science.

Invited Talk

(4) (Invited Speaker) Delivered an invited talk on "Electrochemical Synthesis of 2D Layered Materials and their promising Applications" at National Convention of Electrochemists, 7-8 June 2018 held at VIT University, Vellore with the co-operation of Society for Advancement of Electrochemical Science and Technology".  
 
(3) (Invited Speaker) Seminar presented at the School of Chemical and Biomedical Engineering, Nanyang Technological University, Date: 21-Dec-2017, Singapore.
Title:Green Synthesis of Carbon Quantum Dots
 
(2) (Invited Speaker) 3rd National Seminar on the “Concepts of Green Chemistry”, Department of Chemistry
VALLIAMMAI ENGINEERING COLLEGE (A member of SRM Group of Institutions), Venue: New Seminar Hall Date: 27th March 2017.
 
(1) (Invited Speaker) National Seminar on Recent Advances in Nanoscience and Technology, NANOMEET 2017 (29th to 30 th November 2017), Organized by Centre for Nanoscience and Technology, Anna University, Chennai-25, Venue: CRYSTAL AUDI, Crystal Growth Centre, Anna University.

Conferences/Seminars/Workshops Attended

  • Sundramoorthy, A. K. and Chan-Park, M.B. (2013, 30 Jun - 05 Jul). Highly-Selective and Scalable Chemical Approach for Separation of Semiconducting Singled-Walled Carbon Nanotubes for Field-Effect Transistors. Oral session presented at the meeting of ICMAT 2013-7th International Conferences on Materials for Advanced Technologies, Singapore.
  • Sundramoorthy, A.K. and Gunasekaran, S. (2014, 21 May). Preparing Transparent Conducting Film Using Single-Walled Carbon Nanotubes. Poster session presented at The 2014 Discovery Challenge Research Symposium, Wisconsin Institutes for Discovery, University of Wisconsin-Madison, WI.
  • Sundramoorthy, A.K. and Gunasekaran, S. (2015, 9 April). Nanomolar Detection of Neurotransmitter Dopamine. Poster session presented at The 2015 Discovery Challenge Research Symposium, Wisconsin Institutes for Discovery, University of Wisconsin-Madison, WI.
  • Sundramoorthy, A.K. and Gunasekaran, S. (2015, 7-12 June). Nanomolar detection of dopamine at oxidized graphene/metallic single-walled carbon nanotubes film-modified electrode. Poster session presented at Nanoscale Science & Engineering for Agriculture & Food Systems, Gordon Research Conference, Bentley University, Waltham, MA

 

 

Teaching: 
Teaching (current 2018) 
 
Principles of Analytical Chemistry (UCY15302) for B.Sc. (3rd semester).
 
Taught (previous semesters)   
 
Engineering Chemistry (15CY101) for B.Tech (I Semester). 
Analytical Chemistry (PCY15E51) for M.Sc Chemistry (II Semester).  
General Chemistry-I (UCY15101) for B.Sc Chemistry (I semester).
Principles of Environmental Science (15CY102) for B.Tech. (II Semester). 
NT2006-INDUSTRIAL TRENDS AND APPLICATIONS OF NANOTECHNOLOGY for Ph.D students.
Opportunities & Contact: 
Application is invited for Ph.D Program with monthly fellowship
 
If you have a Master Degree in Chemistry/Engineering/Nanoscience and Nanotechnology, you are welcome to submit your Ph.D application with your CV to my email (see below). If you are selected you will receive Ph.D Fellowship of Rs. 18000/month for upto three years. 
  • We believe that high impact research could be done by collaborative research only, so I am interested to collaborate with other researchers for a common goal.
  • We are looking for highly motivated under graduate,  graduate and Postdoc for various research projects. If you are interested, please contact via email with your CV to discuss further.

 

“The important thing is to never stop questioning”

Albert Einstein

Contact Details:

Dr. Ashok K. Sundramoorthy
Research Assistant Professor
Department of Chemistry and SRM Research Institute
R-1221, Central library building
SRM Institute of Science and Technology (formerly known as SRM University), Kattankulathur
Chennai – 603 203
Email: ashokkumar.sun@ktr.srmuniv.ac.in