Dr. Patil Umesh Dilip - Environmental Remediation - Best Review Paper Award

Annasaheb Awate College,Manchar - India

Author Profile

🎓 Early academic pursuits

Dr. Patil Umesh Dilip began his academic journey with consistent dedication and a keen interest in the physical sciences. he completed his ssc in 2006 with a commendable 74% from nasik board, followed by his hsc in 2008. he then pursued his undergraduate studies in physics from north maharashtra university, jalgaon, securing an impressive 82% in 2011. his deepening curiosity in the field led him to complete his m.sc. in physics in 2014 with a b+ grade, and later, a b.ed. in 2015. he reached a significant academic milestone by earning his ph.d. from rabindranath tagore university, raisen, in 2023, graduating with excellence.

👨‍🏫 Professional endeavors

Dr. Dilip commenced his teaching career as an assistant professor at r.c. patel a.c.s. college, shirpur, from june 2015 to april 2016. he then served as a postgraduate teacher in sarvoday vidyamandir jr. college, prakasha shahada, until february 2020. currently, he is a granted postgraduate teacher at rayat shikshan sanstha's annasaheb awate college, manchar, since february 2020. throughout his academic tenure, he has combined effective teaching strategies with cutting-edge research insights to enrich students' understanding, especially in applied physics and emerging areas like power electronics.

🧪 Contributions and research focus

His research interests span across green synthesis of nanomaterials, environmental remediation, dye removal, and clean energy applications. he has actively worked on conducting polymers, supercapacitors, hydrogen evolution, and polymer-based gas sensors. noteworthy among his work is the fabrication of mos2–graphene composites and doped graphene materials for Environmental Remediation photocatalytic and adsorptive applications. his proficiency in nanomaterials has further advanced the field of power electronics, as his materials have shown promising electrochemical and energy conversion capabilities. he has also made remarkable contributions through his work in sonocatalysis and bio-inspired heteroatom doping techniques.

📘 Academic cites and publication record

Dr. Dilip has published multiple peer-reviewed journal articles, including research on quinoline-infused graphene carbon cages and the degradation of reactive blue 4 using green synthesized Environmental Remediation sulfur and nitrogen co-doped rgo. he has presented his work in conferences, notably on the electrochemical behavior of mos2-reduced graphene oxide electrodes for supercapacitors and the synthesis of nanocomposites. his scholarly output is a valuable resource for researchers in nanotechnology, environmental science, and power electronics.

🌱 Impact and influence

Through his pioneering work in nanomaterial synthesis and its environmental applications, dr. dilip has significantly influenced the way researchers approach sustainable material Environmental Remediation development. his hands-on experience in using advanced synthesis techniques like dip coating, spray pyrolysis, and sol-gel methods has been widely recognized by academic peers. his focus on clean energy and hydrogen evolution not only supports the academic ecosystem but also aligns with global sustainability goals.

🌟 Legacy and future contributions

Dr. Dilip envisions a future where eco-friendly materials will revolutionize clean energy systems, including sensors, capacitors, and hydrogen energy solutions. his future plans involve integrating polymer nanocomposites with renewable technologies, contributing to both scientific knowledge and societal benefit. his efforts are laying a solid foundation for next-generation researchers and setting a benchmark in academic excellence, especially in multidisciplinary fields that intersect physics and engineering.

Notable Publications

Title: Quinoline-infused graphene carbon cages: an ecofriendly approach towards environmental remediation
Author(s): U.D. Patil, S. Waghmode, S.S. Pingale, S. Gadale, V. Kalyankar, H. Meroliya, et al.
Journal: Research on Chemical Intermediates
Title: Predicting the one-particle density matrix with machine learning
Author(s): S. Hazra, U. Patil, S. Sanvito
Journal: Journal of Chemical Theory and Computation
Title: Visible active enhanced adsorptive performance of the green synthesized Sulphur and Nitrogen codoped reduced graphene Oxide towards Degradation of reactive blue 4
Author(s): U.D. Patil, D.M. Nerkar, N. Paliwal
Journal: Inorganic Chemistry Communications
Title: Sonocatalytic Degradation of Methylene Blue by MoS₂-RGO Nanocomposites
Author(s): D.R. Patil, K.M. Sarode, D.M. Nerkar, U.D. Patil, S.G. Bachhav, U.S. Sonawane, et al.
Journal: Russian Journal of Physical Chemistry A
Title: Synthesis and characterization of MoS₂-graphene nanocomposite
Author(s): K.M. Sarode, S.G. Bachhav, U.D. Patil, D.R. Patil
Journal: Techno-Societal 2016: Proceedings of the International Conference on...
Title: 3D MoS-graphene composite as catalyst for enhanced efficient hydrogen evolution
Author(s): K.M. Sarode, U.D. Patil, D.R. Patil
Journal: International Journal of Chemical and Physical Sciences (Int J Chemical Phys Sci)

🌱 Early academic pursuits

Huang Qiang’s academic journey was rooted in his passion for environmental science and sustainable materials. with a deep commitment to advancing knowledge in the field, he pursued a phd in science, laying the groundwork for a distinguished career in research and education. his early years were marked by a relentless curiosity and a drive to uncover innovative solutions for environmental challenges, which would later define his professional endeavors.

🏫 Professional endeavors

As a professor and doctoral supervisor at the school of materials science, yunnan university, huang qiang has dedicated his career to educating the next generation of scientists and researchers. his teaching responsibilities are complemented by his extensive research activities, which focus on the critical areas of biomass resource utilization, co2 capture technology, and environmental remediation. his role at the university has allowed him to combine academic instruction with cutting-edge research, fostering an environment of innovation and discovery.

🔬 Contributions and research focus

Huang Qiang’s research contributions have significantly advanced the fields of biomass resource utilization and environmental remediation. his work on co2 capture technology addresses one of the most pressing global challenges—climate change. he has authored and co-authored over 40 research and teaching papers as the first author or corresponding author, showcasing his Materials used for the removal of environmental toxins expertise and dedication to disseminating knowledge. his studies have not only enhanced scientific understanding but also provided practical solutions for sustainable development and environmental conservation.

🏆 Accolades and recognition

Throughout his career, huang qiang has garnered recognition for his impactful research and academic contributions. his publications in esteemed journals reflect his standing as a leading Materials used for the removal of environmental toxins figure in his field. the acknowledgment of his work by the scientific community highlights the significance of his contributions to environmental science and materials research.

🌍 Impact and influence

Huang Qiang’s work has had a profound influence on both academia and the broader scientific community. his research on co2 capture and environmental remediation technologies has paved the way for innovative approaches to mitigating environmental degradation. as an educator, he has inspired countless students to pursue careers in science and environmental sustainability, shaping the future of research and innovation.

✨ Legacy and future contributions

Huang Qiang’s legacy lies in his unwavering commitment to addressing global environmental challenges through science and education. his efforts have not only advanced knowledge in his Materials used for the removal of environmental toxins field but also set a standard for interdisciplinary research and collaboration. as he continues his work, his future contributions are poised to drive further innovations in sustainable materials and environmental technologies, leaving a lasting impact on the field and society at large.

Notable Publications

Title: Fe-catalyzed low-temperature hydrothermal liquefaction of coffee shells: Influence of operating parameters on bio-oil yield, distribution of bio-oil products
Authors: Guangrong Liu, Fangyue Chen, Kaihong Cao, Bangheng Jin, Li Rao, Xin Jin, Feifei He, Qiang Huang
Journal: Journal of the Energy Institute

Title: Energy-saving CO2 desorption from amine solution over Fe/SiO2/biochar catalysts: Desorption performance, structure-activity relationship, and mechanism
Authors: Li Rao, Bangheng Jin, Dong Chen, Xin Jin, Guangrong Liu, Zilin Huang, Kaihong Cao, Fangyue Chen, Qiang Huang
Journal: Chemical Engineering Journal

Title: Biochar-mediated release of CO2 from monoethanolamine/H2O solution with low energy requirement over ZrO2/SiO2/biochar ternary catalysts
Authors: Dong Chen, Li Rao, Bangheng Jin, Xin Jin, Guangrong Liu, Zilin Huang, Kaihong Cao, Fangyue Chen, Qiang Huang
Journal: Journal of Cleaner Production

Title: Efficient destruction of basic organo-nitrogenous compounds in liquid hydrocarbon fuel using ascorbic acid/H2O2 system under ambient condition
Authors: Xin Jin, Xiaohu Du, Guangrong Liu, Bangheng Jin, Kaihong Cao, Fangyue Chen, Qiang Huang
Journal: Journal of Hazardous Materials

Title: Ultrasound enhanced destruction of tetracycline hydrochloride with peroxydisulfate oxidation over FeS/NBC catalyst: Governing factors, strengthening mechanism and degradation pathway
Authors: Guangrong Liu, Chuangfu Song, Zilin Huang, Xin Jin, Kaihong Cao, Fangyue Chen, Bangheng Jin, Li Rao, Qiang Huang
Journal: Chemosphere