Govindh Boddeti | Chemistry Applications | Excellence in Research

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Dr. Govindh Boddeti | Chemistry Applications | Excellence in Research

Site Investigation Team Member at Dr Reddy’s Labaratories, India

Dr. Govindh Boddeti is a highly skilled chemist specializing in Organic, Nano, and Fluorine Chemistry. He currently serves as a Team Member in the Site Investigation Team (QA) at Dr. Reddy’s Laboratory in Pydibhimavaram, India, where he is involved in investigating incidents and ensuring quality assurance through root cause analysis and reporting. Dr. Boddeti has significant experience in synthesizing fluorine-containing organic molecules and has contributed to projects aimed at developing environmentally friendly fire extinguishers and methodologies for synthesizing fluorocarbons as alternatives to HALONS. He holds a Ph.D. in Organic Chemistry from Andhra University, where he also completed his Master of Science and Bachelor of Science degrees, both with first-class honors. Dr. Boddeti has a strong research background, having participated in various projects related to chemical technology and the development of novel organic molecules. His work has resulted in multiple publications and patents, reflecting his commitment to advancing the field of chemistry and contributing to public health through his research initiatives.

Profile:

Education:

Dr. Govindh Boddeti has a solid educational foundation in the field of chemistry. He earned his Doctor of Philosophy (Ph.D.) in Organic Chemistry from Andhra University, where he conducted research from 2008 to 2012. Prior to that, he obtained his Master of Science (M.Sc.) in Chemistry with first-class honors from Andhra University between 2005 and 2007. He also completed his Bachelor of Science (B.Sc.) degree in Chemistry, graduating with first-class honors from the same university from 2002 to 2005. Dr. Boddeti’s academic journey has equipped him with a deep understanding of organic chemistry and its applications, laying the groundwork for his extensive research career in organic, nano, and fluorine chemistry.

Professional Experience:

Dr. Govindh Boddeti possesses extensive professional experience in the field of chemistry, particularly in Organic and Fluorine Chemistry. He is currently a Team Member of the Site Investigation Team (QA) at Dr. Reddy’s Laboratory in Pydibhimavaram, India, where he plays a critical role in investigating level 2 and 3 incidents. His responsibilities include conducting root cause analysis, writing reports, and collaborating with cross-functional teams to ensure compliance with quality standards. Prior to this role, Dr. Boddeti served as a Research Associate and Co-Principal Investigator on a DRDO project at Andhra University, focusing on the design and development of methodologies for synthesizing fluorocarbons as HALON alternatives. His earlier positions included postdoctoral research, where he synthesized fluorescent dyes for underwater studies, and work as a Project Fellow on a DRDO initiative aimed at developing coated optode films for detecting toxic chemicals in water. Throughout his career, Dr. Boddeti has demonstrated a commitment to research and innovation, contributing to various significant projects and publications in his field.

Research Interests:

Dr. Govindh Boddeti’s research interests lie primarily in the synthesis and characterization of fluorocarbons with low global warming potential, as well as the development of innovative foam-blowing agents that minimize ozone depletion. His work includes synthesizing third-generation firefighting agents and nano fire extinguishers, focusing on creating environmentally friendly alternatives to conventional agents. Additionally, he is keen on exploring the morphological and dimensional control of organic molecules capped with nanomaterials for various applications, including biomedical and photophysical uses. Dr. Boddeti is also dedicated to developing new, high-efficiency organic molecules for bioassays and designing optode films for the detection of toxic chemicals in water and food samples. His commitment to advancing chemical technology aligns with his goal of contributing to sustainable practices in chemistry.

Skills:

Dr. Govindh Boddeti possesses a diverse skill set in organic and nano chemistry, with extensive hands-on experience in the synthesis and characterization of fluorocarbons and other organic molecules. He is proficient in various analytical techniques, including Nuclear Magnetic Resonance (NMR), Fourier Transform Infrared Spectroscopy (FT-IR), Ultraviolet-Visible Spectroscopy (UV-Vis), High-Performance Liquid Chromatography (HPLC), and fluorescence spectroscopy. Dr. Boddeti has demonstrated expertise in handling specialized equipment such as autoclave bomb reactors for fluorination reactions and has a solid understanding of green synthesis methodologies. His skills also encompass the development and realization of novel organic molecules for applications in biomedical fields and environmental monitoring. Additionally, he excels in investigating chemical incidents and performing root cause analysis, showcasing his analytical abilities and commitment to maintaining high standards in research and quality assurance.

Conclusion:

Dr. Govindh Boddeti’s extensive background in fluorine chemistry, nano-materials, and organic synthesis, combined with his involvement in high-impact defense and environmental projects, makes him a strong candidate for recognition in “Excellence in Research.” His innovative contributions, including green chemistry initiatives, patents, and development of new methodologies, demonstrate his commitment to advancing scientific knowledge and solving complex real-world problems.

Publication Top Noted:

  • Antibacterial activity emphasized sulphamerazine capped silver nanoparticles with their synthesis & characterization
    • Published in: International Journal of Scientific and Technology Research (2019)
    • Volume: 8, Issue: 11, Pages: 1411–1414
    • Contributors: Nagababu, U.; Boddeti, G.; Diwakar, B.S.; Chatterjee, A.
    • Citations: 2
  • Synthesis and characterization of Bi0.9Ba0.1FeO3 nanostructures by solution method
    • Published in: Materials Today: Proceedings (2019)
    • Volume: 18, Pages: 2178–2181
    • Contributors: Shanmukhi, P.S.V.; Govindh, B.; Diwakar, B.S.; Swaminadham, V.; Chandramouli, K.
    • Citations: 1
  • Experimental investigation of cutting parameters using nano lubrication on turning AISI 1040 steel
    • Published in: Materials Today: Proceedings (2019)
    • Volume: 18, Pages: 2095–2101
    • Contributors: Krishna Kanth, V.; Sreeramulu, D.; Srikiran, S.; Jagdeesh, K.E.; Govindh, B.
    • Citations: 9
  • Synthesis & characterization of biologically active Gigantic swallow-wort mediated silver nanoparticles
    • Published in: Materials Today: Proceedings (2019)
    • Volume: 18, Pages: 2102–2106
    • Contributors: Nagababu, U.; Govindh, B.; Diwakar, B.S.; Kiran Kumar, G.; Chatterjee, A.
    • Citations: 1
  • Review on nanomaterials: Synthesis and applications
    • Published in: Materials Today: Proceedings (2019)
    • Volume: 18, Pages: 2182–2190
    • Contributors: Kolahalam, L.A.; Kasi Viswanath, I.V.; Diwakar, B.S.; Reddy, V.; Murthy, Y.L.N.
    • Citations: 375
  • Synthesis and optical characterization of luminescent ZnO NP’s using Tinospora crispa stem – a green perspective
    • Published in: Rasayan Journal of Chemistry (2018)
    • Volume: 11, Issue: 4, Pages: 1587–1593
    • Contributors: Nagababu, U.; Govindh, B.; Diwakar, B.S.; Kiran Kumar, G.; Chatterjee, A.
    • Citations: 3

Vinoth Kumar Jothi | Material Chemistry

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Dr. Vinoth Kumar Jothi: Leading Researcher in Material Chemistry

👨‍🔬 Dr. Vinoth Kumar Jothi is a dynamic Research Assistant Professor with a passion for advancing science and technology. Currently a Postdoctoral Researcher at Kyung Hee University in Seoul, South Korea, he focuses on the development of innovative sulfur quantum dots composite materials for environmental applications. Driven by academic excellence, his doctoral thesis, supervised by Dr. N. Abirami, explored the realms of surface-functionalized fluorescent carbon nanodots for catalytic reduction of ionic dyes and anti-counterfeiting applications. Previously, as an Assistant Professor at Agni College of Technology in India, he contributed to the academic landscape. Dr. Jothi is dedicated to leveraging his education and expertise for continuous learning and teaching. 🌐🔬📚

Professional Profiles:

Scopus

Google Scholar

Education:

👨‍🎓 Dr. Vinoth Kumar Jothi, a dedicated scholar and researcher, earned his Ph.D. in Chemistry from SRM Institute of Science and Technology, Kattankulathur, Chengalpattu, Tamil Nadu, India, in 2023, receiving commendations for his outstanding work. His research prowess is complemented by an M.Sc. in Chemistry from St. Joseph’s College of Arts & Science, Cuddalore, affiliated with Thiruvalluvar University, where he achieved a notable 72.4% in 2019. Dr. Jothi embarked on his academic journey with a B.Sc. in Chemistry from the same institution, graduating in 2015 with a commendable 61.5%.

His educational foundation traces back to Municipal Higher Secondary School, Cuddalore, where he completed his HSC in 2011 with a commendable 68.7%. Driven by academic excellence, he commenced his scholastic journey at St. Joseph’s Higher Secondary School, Cuddalore, securing a commendable 63.1% in SSLC in 2009. Dr. Jothi’s academic trajectory reflects his commitment to learning and achieving excellence at every educational milestone. 🎓🔬📚

Experience:

👨‍🏫 Dr. Vinoth Kumar Jothi’s professional journey is marked by a rich tapestry of experiences. As an Assistant Professor at Agni College of Technology in Chennai from August 2022 to March 2023, he played a pivotal role in shaping the I-year BE/B.Tech Chemical Engineering Syllabus. Serving as the Coordinator for NBA & NAAC, and Department ERP Coordinator showcased his commitment to academic excellence.

Prior to academia, he delved into the industrial landscape, contributing as a Quality Control Junior Executive at Alchymars ICM SM Private Limited, mastering HPLC, UV, and FTIR instruments. His tenure at Tagros Chemicals saw him overseeing calibration, sampling, and analysis, successfully navigating IMS and RC audits. Dr. Jothi’s early career began as a Trainee in Production at Shasun Pharmaceuticals Limited, where he assumed responsibilities in the Sevelamer plant, laying the foundation for his versatile expertise. 🌐🔬📊

Research Interest:

🔬 Dr. Vinoth Kumar Jothi’s research interests encapsulate a dynamic blend of scientific exploration. His passion for catalysis drives innovative approaches to chemical transformations, while his expertise in bio-sensors delves into cutting-edge technologies for detecting and monitoring biological substances. The realm of food packaging becomes a focal point, as he seeks to enhance preservation and safety through advanced materials. Simultaneously, his commitment to environmental stewardship shines through in the development of functional nanomaterials, poised to address critical challenges and contribute to sustainable solutions. Dr. Jothi’s multidisciplinary pursuits underscore his dedication to advancing knowledge at the intersection of chemistry, materials science, and environmental applications. 🌐🧪🌱

Publication Top Note:
  • “Green synthesis of Copper oxide nanoparticles decorated with graphene oxide for anticancer activity and catalytic applications” .
  • “Construction of SnO2/g-C3N4 an effective nanocomposite for photocatalytic degradation of amoxicillin and pharmaceutical effluent”
  • “Green sources derived carbon dots for multifaceted applications”
  • “Ecofriendly and green synthesis of carbon nanoparticles from rice bran: characterization and identification using image processing technique”
  • “Green synthesis of self-passivated fluorescent carbon dots derived from rice bran for degradation of methylene blue and fluorescent ink applications”
  • “Ceria nanoparticles anchored on graphitic oxide sheets (CeO2-GOS) as an efficient catalyst for degradation of dyes and textile effluents”
  • “Cyan color-emitting nitrogen-functionalized carbon nanodots (NFCNDs) from Indigofera tinctoria and their catalytic reduction of organic dyes and fluorescent ink applications”
    • by JV Kumar, G Kavitha, R Arulmozhi, et al.
    • 🔵🌐 RSC Advances, 2021 – Cited 18 times.
  • “Novel metal-free fluorescent sensor based on molecularly imprinted polymer N-CDs@ MIP for highly selective detection of TNP”
    • by K Murugan, VK Jothi, A Rajaram, et al.
    • 🌐🔍 ACS omega, 2021 – Cited 17 times.
  • “Boron doped fluorescent carbon nano dots for the reduction of ionic dyes and as encryption/decryption QR security code labels”
  • “2D graphene supported nickel oxide nano-composite for fiber optic ethanol gas sensing, removal of azo dye, and biological activity”
  • “A facile synthesis of a fusiform-shaped three-dimensional Co/Mn@ cnds-MOF nanocomposite as an efficient electrocatalyst for oxygen evolution reaction in alkaline medium”
  • “Multiplex heteroatoms doped carbon nano dots with enhanced catalytic reduction of ionic dyes and QR code security label for anti-spurious applications”
    • by JV Kumar, G Kavitha, G Albasher, et al.
    • 🌐🔍 Chemosphere, 2022 – Cited 5 times.
  • “Biogenic synthesis of argentum nanocomposites for visible light photocatalyst of dye degradation”
  • “Detoxification of Toxic Organic Dye by Heteroatom-Doped Fluorescent Carbon Dots Prepared by Green Hydrothermal Method Using Garcinia mangostana Extract”
    • by V Arul, K Radhakrishnan, N Sampathkumar, JV Kumar, et al.
    • 🍵🌿 Agronomy, 2023 – Cited 3 times.
  • “Rational design of α-MnO2/HT-GCN nanocomposite for effective photocatalytic degradation of ciprofloxacin and pernicious activity”
  • “Apoptotic efficacy of biogenic argentum nanoparticles embedded by activated carbon on MCF-7 human breast cancer cell lines”
  • “In Silico Study of Traditional Chinese Medicinal Compounds Targeting Alzheimer’s Disease Amyloid Beta-Peptide (1-42)”
  • “Conducting polymer encrusted Cu/Mn-MOF-CNDs: A facile synthesis, characterization and its hydrogen evolution activity in alkaline media and seawater”
  • “Ultrathin 2D type-II heterojunctions ZCLDH/CN with a higher photocatalytic performance of ciprofloxacin under simulated light illumination”