Debapriya Pradhan | Nanomaterial in water treatment | Excellence in Research

Mr. Debapriya Pradhan | Nanomaterial in water treatment | Excellence in Research 

Centurion University of Technology and Management | India

AUTHOR PROFILE

EARLY ACADEMIC PURSUITS

Mr. Debapriya Pradhan’s academic journey in nanomaterials in water treatment began with an Integrated MSc in Applied Chemistry from BPUT Odisha, where he demonstrated his foundational skills in chemistry. His studies continued with an MPhil from Centurion University Bhubaneswar, which further honed his expertise in nanomaterials. He is currently pursuing a PhD at SOA University Bhubaneswar, focusing on the synthesis and application of nanocomposites, particularly in the context of photocatalytic activity and supercapacitor applications. His early academic achievements laid a strong foundation for his future contributions in nanomaterials for water treatment.

PROFESSIONAL ENDEAVORS

Mr. Pradhan’s professional experience encompasses diverse roles related to nanomaterials in water treatment. As a Research Associate at Centurion University of Technology and Management, he is engaged in synthesizing various nanocomposites and exploring their applications across different fields. His research includes the study of spinel nanocomposites at SOA University, focusing on their photocatalytic activity and supercapacitor applications. Additionally, his roles at Sai Biocare Pvt Ltd and Ramky Enviro Engineers Ltd involved lab analysis and waste management, including water analysis and solid waste analysis. These roles have provided him with practical experience in applying nanomaterials in water treatment and related fields.

CONTRIBUTIONS AND RESEARCH FOCUS

Mr. Pradhan’s research contributions are centered on nanomaterials in water treatment. His project on the photocatalytic degradation of toxic organic dyes using spinel nanocomposites under solar light highlights his focus on developing cost-effective and efficient materials for environmental applications. By synthesizing and characterizing various spinel composites, he has contributed to understanding their morphological, optical, and electrical properties, and their effectiveness in dye degradation and supercapacitor applications. His work on Co3O4 nanocomposites, which demonstrated superior photocatalytic activity under solar radiation, underscores his contributions to advancing nanomaterials in water treatment.

CITATIONS

  • Citations   76
  • h-index     04
  • i10-index  03

IMPACT AND INFLUENCE

Mr. Pradhan’s impact in the field of nanomaterials in water treatment is evidenced by his successful publication of ten research papers in well-established journals and his participation in international conferences. His research on Co3O4 nanocomposites and their application in dye degradation and supercapacitors has contributed valuable insights into the field. The NABL certification for his lab work reflects his commitment to maintaining high standards in research and analysis. His findings on the photocatalytic activity of modified cobalt oxide nanocomposites have the potential to influence future developments in water treatment technologies.

ACADEMIC CITATIONS

Mr. Pradhan’s academic work is likely to be cited in research related to nanomaterials in water treatment, particularly his studies on spinel nanocomposites and their photocatalytic applications. His publications in reputable journals and presentations at international conferences contribute to the body of knowledge in the field and provide a basis for future research and development.

LEGACY AND FUTURE CONTRIBUTIONS

As Mr. Pradhan continues his research and professional endeavors, his legacy in nanomaterials in water treatment is expected to grow. His work on nanocomposites, particularly their applications in photocatalysis and supercapacitors, positions him as a key contributor to advancements in environmental and energy technologies. Future contributions may include further development of cost-effective nanomaterials for water treatment and exploration of new applications for nanocomposites. His ongoing research and practical experience will likely lead to significant innovations in the field of nanomaterials in water treatment.

NANOMATERIALS IN WATER TREATMENT 

Mr. Pradhan’s career and research are deeply intertwined with nanomaterials in water treatment. His projects and contributions emphasize the synthesis and application of nanocomposites for improving water treatment technologies. The focus on nanomaterials in water treatment is evident in his research on photocatalytic degradation and supercapacitor applications, which highlight the potential of nanocomposites in addressing environmental challenges. His future work is anticipated to continue advancing the field of nanomaterials in water treatment through innovative solutions and applications.

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