Surface chemistry Archives - Best Paper Awards

Summary:

Dr. Ikrar Ahmad is a chemist specializing in nanomaterials and electrochemistry, with a focus on energy storage technologies. He completed his Ph.D. in Chemistry at IIT Roorkee, where his research centered on the development of advanced graphene-based materials for high-performance supercapacitors and sensors. His work emphasizes sustainable and green chemistry approaches, and he has contributed to addressing key issues in supercapacitor performance, such as energy density, potential window expansion, and environmental impact. Dr. Ahmad’s expertise includes synthesis, characterization, and electrochemical analysis of nanomaterials, and he has presented his research at international conferences.

Professional Profile:

👩‍🎓Education:

Dr. Ikrar Ahmad completed his Ph.D. in Chemistry from the Department of Chemistry at the Indian Institute of Technology Roorkee (IIT Roorkee) in December 2023. His doctoral research, supervised by Prof. Anil Kumar, focused on the in situ synthesis of heteroatom(s) (N/S/P) co-doped porous reduced graphene oxide for applications in high-performance aqueous symmetric supercapacitors and electrochemical sensors. Prior to his Ph.D., he earned his M.Sc. in Chemistry from Gurukul Kangri University Haridwar in 2014 with a 71.6% score and his B.Sc. in Chemistry from Sahu Jain (PG) College, affiliated with M.J.P.R.U. Bareilly, in 2012, achieving 61.4%.

🏢 Professional Experience:

Dr. Ahmad is currently serving as a Research Associate at the Department of Chemistry, IIT Roorkee, under the mentorship of Prof. M. Sankar. He has previously held positions as a Senior Research Fellow (July 2019 – December 2023) and Junior Research Fellow (July 2017 – June 2019) at IIT Roorkee. Dr. Ahmad has extensive experience in nanomaterials and electrochemistry, focusing on developing advanced electrode materials for energy storage and catalysis. His research is rooted in green chemistry principles, employing environmentally friendly methods and avoiding harmful dopants.

Research Interests:

Dr. Ahmad’s research interests lie in the synthesis and characterization of advanced nanomaterials, with a focus on heteroatom-doped reduced graphene oxide for supercapacitor applications, energy storage, and electrocatalysis. His work addresses key challenges in the field, including improving the energy density of supercapacitors, achieving wider electrochemical stable potential windows, and enhancing the sustainability of energy storage devices. He is currently exploring triazine- and porphyrin-based metal organic frameworks (MOFs) and covalent organic frameworks (COFs) for energy storage and electrocatalysis, particularly in hydrogen evolution reactions (HER), oxygen evolution reactions (OER), and oxygen reduction reactions (ORR).

Author Metric:

Dr. Ahmad’s research has been published in peer-reviewed journals, and his work has gained recognition within the scientific community. He has received awards such as the Excellence in Doctoral Research Award (2023-24) and the Prof. V.K. Gupta Memorial Impactful Young Researcher Award (2023-24) from IIT Roorkee. His research contributions span various topics, including supercapacitors, nanomaterials, and electrocatalysis.

Top Noted Publication:

Title: Flexible Linker-Based Triazine-Functionalized 2D Covalent Organic Frameworks for Supercapacitor and Gas Sorption Applications
Authors: Y. Kumar, I. Ahmad, A. Rawat, R.K. Pandey, P. Mohanty, R. Pandey
Journal: ACS Applied Materials & Interfaces
Volume: 16, Issue 9
Pages: 11605-11616
Year: 2024
Citations: 8
Title: Nucleotide(s)-mediated simultaneous N, P co-doped reduced graphene oxide (N, P-rGO) porous nanohybrids as high-performance electrode materials for designing sustainable binder-free supercapacitors
Authors: I. Ahmad, A. Kumar
Journal: Sustainable Energy & Fuels
Volume: 6, Issue 18
Pages: 4169-4182
Year: 2022
Citations: 3
Title: Synthesis, characterization, and breakthrough modeling of low-cost graphene oxide-sand supported adsorbent filter for the separation of lead and chromium ions
Authors: M.A. Shaida, S. Ali, M.S. Badar, M.S. Mahtab, M.U. Khan, S.U. Khan, I. Ahmad, et al.
Journal: Journal of Molecular Liquids
Article Number: 124611
Year: 2024
Citations: 2
Title: In-situ synthesis of N, S co-doped electrode material by an environmentally benign method towards designing high-voltage (3.0 V) binder-free sustainable aqueous symmetric supercapacitors
Authors: I. Ahmad, A. Kumar
Journal: Chemical Engineering Journal
Volume: 477
Article Number: 146972
Year: 2023
Citations: 2
Title: Heteroatom (S)(N, S, P) Co‐Doped Reduced Graphene Oxide‐Based Binder‐Free Novel Energy Storage Electrode Material for High Energy Density Supercapacitor
Authors: I. Ahmad, A. Kumar
Journal: Advanced Sustainable Systems
Year: 2024

Assist Prof Dr. Layla Hazeem: Leading Researcher in Toxicological studies

🎉 Congratulations Assist Prof Dr. Layla Hazeem on Winning the Best Paper Award! 🏆 Your dedication to research, mentorship, and collaboration with international teams is truly commendable. This award is a testament to your outstanding work and the impact it has on the broader community.

Assist Prof Dr. Layla Hazeem is a distinguished researcher in the field of Toxicological studies, celebrated for winning the Best Paper Award. With a wealth of knowledge and expertise, she serves as an Assistant Professor of Marine Molecular Biology.

Professional Profile:

Scopus Profile

Current Position: Assistant Professor of Marine Molecular Biology

Education:

PhD in Marine Molecular Biology, National Oceanography Centre, University of Southampton, UK (2005-2009)
MSc in Oceanography, National Oceanography Centre, University of Southampton, UK (2002-2003)
BSc in Biology and Education, Department of Biology, College of Science, University of Bahrain, Bahrain (1989-1995)

Work Experience:

Assistant Professor, Department of Biology, University of Bahrain (2009-date)
Teaching and Research Assistant, Department of Biology, University of Bahrain (2000-2002)
Lab Technician, Department of Biology, University of Bahrain (1995-2000)

Research Interests:

Molecular methods for identifying and detecting algal species in seawater samples
Isolation of unialgal cells and maintenance in mono-specific cultures
Effect of Nanoparticles on Microalgae
Temporal and spatial variation of Macroalgae
Environmental Assessment and Biological Responses of the Pearl Oyster Pinctada Radiata
Population genetics of Pearl Oyster in the Kingdom of Bahrain

Publication Top Noted:

“Molecular techniques for investigating toxic dinoflagellates species” (2011)
“First Successful Isolation and Cultivation of Dunaliella salina” (2014)
“Effect of magnetic iron oxide nanoparticles on the growth and photosynthetic pigment content” (2015)
“Toxicity of graphene oxide on growth and photosynthetic pigment of the marine alga Picochlorum sp.” (2017)
“Thermally induced oxygen related defects in eco-friendly ZnFe2O4 nanoparticles” (2022)

The study titled “Investigation of the toxic effects of different polystyrene micro-and nanoplastics on microalgae Chlorella vulgaris by analysis of cell viability, pigment content, oxidative stress, and ultrastructural changes” explores the impact of polystyrene micro- and nanoplastics on the microalga Chlorella vulgaris. The research employs various analyses to assess the consequences on Chlorella vulgaris, including cell viability, pigment content, oxidative stress levels, and ultrastructural changes.

Here are key findings and highlights from the study:

Cell Viability Analysis:

The research evaluates the effects of polystyrene micro- and nanoplastics on the viability of Chlorella vulgaris cells.

Findings reveal insights into how exposure to different types of plastics influences the overall health and survival of the microalgae.

Pigment Content Assessment:

The study investigates alterations in pigment content within Chlorella vulgaris cells due to exposure to polystyrene micro- and nanoplastics.

Changes in pigment concentrations provide valuable information about the physiological responses and photosynthetic activities of the microalgae.

Oxidative Stress Analysis:

The research delves into the oxidative stress levels induced by polystyrene micro- and nanoplastics on Chlorella vulgaris.

Understanding the oxidative stress response is crucial in comprehending the cellular impact and potential damage caused by plastic exposure.

Ultrastructural Changes Examination:

The study explores alterations in the ultrastructure of Chlorella vulgaris cells caused by exposure to different types of polystyrene plastics.

Ultrastructural changes provide insights into the cellular damage and morphological transformations induced by plastic particles.

Environmental Implications:

The research sheds light on the broader environmental implications of micro- and nanoplastic pollution, particularly in aquatic ecosystems.

Understanding how plastics affect microalgae, as primary producers, contributes to our knowledge of potential cascading effects on higher trophic levels.

Policy and Mitigation Considerations:

The findings of this study contribute valuable information for policymakers and environmentalists working towards mitigating the impact of plastic pollution.

Insights gained from the research can inform strategies for reducing plastic use and developing effective waste management practices.

In conclusion, this study significantly enhances our understanding of the intricate interactions between microalgae and plastic pollution, paving the way for more informed environmental stewardship and sustainable practices.

Ikrar Ahmad | Chemistry | Research Excellence Endeavor Award

Dr. Ikrar Ahmad | Chemistry | Research Excellence Endeavor Award

Summary:

Professional Profile:

👩‍🎓Education:

🏢 Professional Experience:

Research Interests:

Author Metric:

Top Noted Publication:

Layla Hazeem | Toxicological studies

Assist Prof Dr. Layla Hazeem: Leading Researcher in Toxicological studies

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