Dr. C. Venkateswara Raju
Qualification : Ph.D., (CSIR-CECRI)
Details of Educational Qualification:
| Course | Specialization | Group | College Name/University | Year of Passing |
|---|---|---|---|---|
| Ph.D. | Chemical Sciences | Chemistry | Academy of Scientific & Innovative Research, CSIR-CECRI Campus | 2020 |
| M.Sc. | Chemistry | M.Sc. | Sri Venkateswara University | 2012 |
| B.Sc. | Chemistry | B.Sc. | Sri Venkateswara University | 2009 |
List of Publications
| S.No | Title of the Paper | Full Details of Journal Name / Conference Name, Volume number, page number, Date |
|---|---|---|
| 1 | “Highly Sensitive Marine Biotoxin Detection Using a Bimetallic Platinum and Ruthenium Nanoparticle-Decorated Metal–Organic Framework-Based Electrode” | Journal of Hazardous Materials (I.F. 14.22) Under Review |
| 2 | “Highly sensitive and label-free electrochemical detection of C-reactive protein on a peptide receptor-gold nanoparticle-black phosphorous nanocomposite modified electrode” | Biosensors and Bioelectronics (I.F. 12.54) Under Review |
| 3 | “Emerging insights into the use of carbon- based nanomaterials for the electrochemical detection of heavy metal ions” | Coordination Chemistry Reviews, 476 (2023) 214920 (I.F. 24.83). |
| 4 | “Recent advances in the use of graphitic carbon nitride-based composites for the electrochemical detection of hazardous contaminants” | Coordination Chemistry Reviews 470 (2022) 214708 (I.F. 24.83). |
| 5 | “Current Insight into 3D Printing in Solid-State Lithium-Ion Batteries: A Perspective, | Batteries & Supercaps 5 (2022) e202200223 (I.F. 6.04). |
| 6 | “Flow Injection Analysis-Based Electrochemiluminescence: An Overview of Experimental Design and Its Biosensing Applications”. | ECS Sensors Plus 1 (2022) 031604. |
| 7 | Understanding the endocrine disruptor and determination of bisphenol A by functional Cu-BTABB-MOF/rGO composite as facile rapid electrochemical sensor: an experimental and DFT investigation”. | Anal. Methods, 14 (2022) 560-573(I.F. 3.53). |
| 8 | “Highly sensitive novel cathodic electrochemiluminescence of tris(2,2’-bipyridine)ruthenium(II) using glutathione as a co- reactant. | Chemical Communications 53 (2017) 6593-6596 (I.F. 6.22). |
| 9 | “Phosphorous Doped Carbon Quantum Dots as an Efficient Solid-State Electrochemiluminescence Platform for Highly Sensitive Turn-on Detection of Cu2+ ions” | ElectrochemicaActa331 (2020) 135391-135399 (I.F. 7.33). |
| 10 | “Unraveling the reaction mechanism of co-reactant free in-situ cathodic solid-state ECL of Ru(bpy)32+molecule immobilized on Nafion coated nanoporous gold electrode | Electrochimica Acta 358 (2020)136920-136927 (I.F. 7.33). |
| 11 | “Co-reactant-free novel self- enhanced solid-state electrochemiluminescence platform based on polyluminol-gold nanocomposite for signal-on detection of mercury ion” | Scientific Reports 11 (2021) 6932- 6943 (I.F. 4.99). |
| 12 | “Bimodal Electrogenerated-Chemiluminescence of the Luminol/Dicyclohexylamine (DCHA) system: A Novel and Highly Sensitive detection of DCHA via ECL-Flow Injection Analysis, | Analytical Chemistry 93 (2021) 6472-6480 (I.F. 8.00). |
| 13 | “Electrogenerated Chemiluminescence of Phosphate-Modified Polymeric Carbon Nitride for Sensing of NADH: Role of Luminophore–Coreactant Interactions in Enhancing the Signal” | Journal of The Electrochemical Society166 (2019) H565-H572 (I.F. 4.31). |
| 14 | “Impact of Aminated Carbon Quantum Dots as a Novel Co-reactant for Ru(bpy)32+: Resolving Specific Electrochemiluminescence for Butein Detection” | Analytical and Bioanalytical Chemistry 412 (2020) 539-546 (I.F. 3.28). |
| 15 | “Synthesis of poly(N-vinyl-2-pyrrolidone) adsorbed-AuPt/C bimetallic nanoparticles and their unusual electrocatalytic activity towards methanol tolerant oxygen reduction reaction”. | Journal of Solid State Electrochemistry 20 (2016) 579–587 (I.F. 3.49). |
| 16 | “Au-Pd bimetallic nanoparticles anchored on α-Fe2O3 nonenzymatic hybrid nano electrocatalyst for simultaneous electrochemical detection of dopamine and uric acid in the presence of ascorbic acid” | Journal of Material Chemistry B 4 (2016) 2516-2569 (I.F. 6.33). |
| 17 | “Cerium doped nickel-oxide nano structures for riboflavin biosensing and antibacterial Applications” | New journal of chemistry (2016) 402741-2748 (I.F. 3.59). |
| 18 | “Electrochemical Detection of Alloxan on Reduced Graphene oxide Modified Glassy Carbon Electrode” | Electro analysis32 (2020) 1273-1279 (I.F. 4.46). |
Book Chapter
- Chikkili Venkateswara Raju, M. Sornambigai, and S. Senthil Kumar “Ruthenium-Tris- Bipyridine Derivatives as a Divine Complex for Electrochemiluminescence Based Biosensor Applications Intech Open 2021. DOI: 10.5772/intechopen.96819.
- Gokana Mohana Rani, Pooja Rawat, Jebiti Haribabu, Priya Ranjan Sahoo, Raman Kumar, Chikkili Venkateswara Raju, and Reddicherla Umapathi, Polymer-ceramic based solid composite membranes as potential electrolytes for the lithium batteries. Advanced Ceramics for Versatile Interdisciplinary Applications, Elsevier, 2022, Pages 181-200. https://doi.org/10.1016/B978-0-323-89952-9.00002-6.