Fatih Doğan KOCA | Water Management

Assoc Prof Dr  Fatih Doğan  KOCA: Leading Research in Water Management 
Assoc. Prof. Dr. at  Erciyes University, Turkey

🌱🔬Dr. Fatih Dkoca is an Associate Professor at Erciyes University, specializing in Environmental Biology and Hydrobiology. He holds a Ph.D. in Biology/Hydrobiology, with a focus on the biosynthesis, characterization, and genotoxic effects of CuO, ZnO, and TiO2 nanoparticles using Mentha aquatica L. plant extract. Dr. Dkoca’s postgraduate research explored the biological response of Ceratophyllum demersum L. to Cr(II) and Cr(VI) exposure.🌍🌾

Publication Profile:🌟👨‍🎓
👨‍🎓 Education:
  • Ph.D., Erciyes University, Biology, 2017
  • M.Sc., Erciyes University, Biology, 2012
  • B.Sc., Erciyes University, Biology, 2009
📚 Dissertations:

Ph.D. Bio-synthesis and Characterization of CuO, ZnO, and TiO2 Nanoparticles using Mentha aquatica L. Plant Extract and Their Genotoxic Effects, 2017.M.Sc.: Biological Response of Ceratophylum demersum L. to Cr(II) and Cr(VI) Exposure: Concentration and Application Period Effects, 2012

🔍 Research Areas:

Life Sciences, Environmental Biology, Environmental Pollution, Hydrobiology, Fresh-Water Biology, Natural Sciences

👨‍🏫 Academic Titles:

Associate Professor, Erciyes University, Veterinary Faculty, Preclinical Sciences, 2022 – Present-Assistant Professor, Erciyes University, Veterinary Faculty, Preclinical Sciences, 2018 – 2022-Research Assistant, Erciyes University, Faculty of Science, Biology, 2011 – 2017

Research Focus 🌱🔬

Dr. Fatih D. Koca’s research primarily revolves around the fascinating intersection of nanotechnology and environmental biotechnology. With a focus on organic@inorganic hybrid nanoflowers, his work delves into diverse applications. From catalytic and antimicrobial activities utilizing cucumber leaf and Desmarestia menziesii algae extracts to the synthesis of hybrid nanoflowers using lichen and macroalga extracts, Dr. Koca explores the potential of these nanostructures in diverse fields. His investigations extend to organic-inorganic hybrid nanocomposites, emphasizing green synthesis and their neurotoxic effects. This research contributes significantly to the fields of nanoscience, biopolymers, and materials with promising environmental implications. 🌱🔍

 

Publications:🌐🔬

Xu Wu | Water Resources

Dr Xu Wu: Leading Researcher in Water Resources
Senior Lecturer at  School of Civil Engineering, North Minzu University, China

🏆Congratulations, Dr Xu Wu, on winning the esteemed Best Researcher Award from ResearchW! Your dedication, innovative research, 🎉  your dedication and innovative contributions in the field of renewable energy and agriculture are truly inspiring! Your work in advancing solar energy technologies and addressing crucial issues like postharvest losses demonstrates your commitment to positive change. ☀️

💧Dr. Xu Wu is a distinguished researcher in water resources and a Senior Lecturer at the School of Civil Engineering, North Minzu University, China. He recently received the prestigious Best Researcher Award from ResearchW for his groundbreaking contributions to renewable energy and agriculture. 🌟

📚 Professional Profiles:

Explore the wealth of knowledge and research contributions! 🌐🔬 #ResearcherProfiles #AcademicJourney

Education: 📚

Sep.2020 –Jul.2023 Ningxia University Ph.D degree of Water Resources and Hydropower Engineering Research topic: Effective Utilization of Water Resource Sep.2013–Jul.2015 China Institute of Water Resources and Hydropower Research Master degree of Water Resources Research topic: Water Resources Allocation Technology Sep.2008–Jul.2012 Northwest Agriculture and Forestry University Bachelor degree of Hydrology and Water Resources Engineering Research topic: Effective Utilization of Water Resource 🌿

WORKING EXPERIENCE: 💼

School of Civil Engineering, North Minzu University Senior Lecturer Sept. 2023-Now Zhejiang Institute of Hydraulics & Estuary Intermediate Engineer Aug. 2016- Aug. 2020

Research focus: 🌟🔬

Dr. Xu Wu is a prominent researcher specializing in lithium metal anodes for rechargeable batteries and high-performance lithium metal batteries. His groundbreaking work, spanning over a decade, encompasses critical aspects such as dendrite-free lithium deposition, electrolyte additives for fast charging, and pathways for long-cycling lithium metal batteries. His expertise extends to the exploration of ionic liquids, hierarchically porous graphene for lithium-air batteries, and advancements in high-voltage lithium-metal batteries enabled by localized high-concentration electrolytes. Dr. Wu’s focus on energy storage technologies, particularly lithium metal batteries, has significantly advanced the understanding and development of sustainable and efficient energy solutions for the future.

Publications Top Notes: