Aayoosh Singh | Materials Chemistry | Young Scientist Award

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Mr. Aayoosh Singh | Materials Chemistry | Young Scientist Award 

Research Scholar | Basnaras Hindu University | India

Mr. Aayoosh Singh is a research scholar and Ph.D. candidate at the Department of Chemistry, Banaras Hindu University (BHU), Varanasi, specializing in the design and development of multi-stimuli responsive optical materials for applications in sensing, imaging, and smart material technologies. His doctoral research, under the supervision of Prof. V. P. Singh, focuses on the design of coumarin-based multifunctional optical materials for the detection of Zn²⁺ and Cu²⁺ ions, with an emphasis on bioimaging. Mr. Aayoosh Singh possesses expertise in the multistep synthesis of both organic and inorganic optical materials, as well as extensive experience in photochemical sensing and the modulation of photophysical properties. He is proficient in advanced characterization techniques, including Single Crystal X-ray Diffraction (SC-XRD), FT-IR, NMR, HRMS, UV-Vis, fluorescence spectroscopy, and various electron microscopy methods. A skilled user of data analysis tools such as Origin, Olex2, and Gaussian, Aayoosh has contributed to several peer-reviewed publications in high-impact journals. His research has applications in environmental monitoring, medical diagnostics, and smart materials development. Apart from his research, Mr. Aayoosh Singh is involved in mentoring undergraduate and postgraduate students and has presented his work at national and international conferences. He has also been actively engaged in academic workshops focusing on research ethics and effective scientific writing. Mr. Aayoosh Singh work has garnered significant recognition, with 64 citations across 52 documents, 9 documents published, and an h-index of 4.

Featured Publications

  • Singh, A., Yadav, P., Singh, S., Kumar, P., Srikrishna, S., & Singh, V. P. (2023). A multifunctional coumarin-based probe for distinguishable detection of Cu²⁺ and Zn²⁺: Piezochromic, viscochromic, and AIE behavior with real sample analysis and bioimaging applications. Journal of Materials Chemistry C, 11(36), 13056–13066.

  • Singh, A., Yadav, P., Singh, A. K., Tamang, R., Koch, B., & Singh, V. P. (2025). Ultrasound defect-sensitive mechanochromic material with blue-shifted emission for the detection of Cu²⁺ in Alzheimer’s disease cells. Materials Chemistry Frontiers, 9, 1520–1533.

  • Singh, A., Singh, A. K., Yadav, P., Singh, A. K., Kumar, P., Srikrishna, S., & Singh, V. P. (2025). A stimuli-responsive multifunctional smart luminophore with aggregation-induced enhanced emission. Advanced Optical Materials (Revision submitted).

  • Singh, A. K., Singh, A., Patel, M., Singh, V. P., & Rosy, S. (2025). Metal-free graphitic carbon nitride nanosheet for dual-mode fluorescence and electrochemical detection of para-nitrophenol. Nanoscale, 17, 13238.

  • Singh, A. K., Yadav, P., Singh, A., Singh, A. K., Sharma, S. K., Sonkar, V. K., & Singh, V. P. (2025). A coumarin-derived multi-faceted optical material with molecular logic gate for bioimaging. Journal of Materials Chemistry C, 13, 12388–12399.

  • Gond, S., Yadav, P., Singh, A., Garai, S., Shekhar, A., Gupta, S. C., & Singh, V. P. (2023). A colorimetric and OFF–ON fluorometric chemosensor based on a rhodamine–pyrazole derivative for the detection of Al³⁺, Fe³⁺, and Cr³⁺ ions, and its intracellular application. Organic & Biomolecular Chemistry, 21(25), 4482–4490.

Nisrine Hammi | Materials science | Women Researcher Award

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Dr. Nisrine Hammi | Materials science | Women Researcher Award

Associate Professor | Anhui Normal University, China

Nisrine Hammi is a materials chemist and associate professor at Anhui Normal University, China, specializing in hybrid porous materials, metal-organic frameworks (MOFs), and green chemistry; fluent in Arabic, French, and English, she has completed international research training in France, Spain, and Morocco, and is recognized for her impactful contributions to sustainable material design and environmental catalysis, evidenced by prestigious publications and an SCF thesis award in 2020.

Profile

Scopus

🎓 Education

Hammi earned her PhD (2016–2020) in Materials Chemistry from University of Lille (France) and Abdelmalek Essaâdi University (Morocco) focusing on MOF-polysaccharide composites; she completed her Master’s in Energy & Environmental Chemistry (2013–2015) at University of Lille; received her Engineering degree in Materials Chemistry (2015–2017) from EuroMed University of Fez; and obtained her Bachelor’s in Chemistry & Physico-Chemistry of Materials (2010–2013) from Sidi Mohamed Ben Abdellah University.

🧪 Experience

Currently serving as Associate Professor at Anhui Normal University (2023–present), Hammi previously worked as a Postdoc at CNRS-Chevreul Institute (France, 2021), interned at Polytechnic University of Valencia (Spain, 2020), and Institut Charles Gerhardt (France, 2017); her roles span synthesis of MOF-based catalysts, porous aerogels, and green materials, supported by early professional experience as a chemical engineer at EuroMed University (2015–2017) developing polysaccharide-derived materials.

🏅 Awards & Honors

Nisrine Hammi received the 2020 Thesis Prize by the Société Chimique de France (SCF) recognizing her Ph.D. as one of the best in Northern France; her international recognition also includes authorship in high-impact journals, collaborative patents, and conference presentations across Europe, underscoring her innovative contributions in eco-friendly materials, catalysis, and nanotechnology.

🔬 Research Focus

Hammi’s research explores sustainable synthesis of hybrid materials—particularly MOFs, chitosan composites, and porous gels—for applications in catalysis, pollutant adsorption, CO₂ capture, wound healing, and energy storage; her work emphasizes eco-friendly, bio-derived routes using sol-gel chemistry, supercritical CO₂, and self-assembly for shaping advanced nanomaterials with high surface areas and tunable functionalities.

Conclusion

Dr. Nisrine Hammi is an outstanding candidate for the Women Researcher Award. Her remarkable contributions to sustainable material chemistry, proven publication record, patent innovation, and international academic presence make her highly deserving. With minor enhancements in global outreach and mentoring roles, she has the potential to be a transformative force in future material science advancements.

Publication

  • Self-assembly synthesis of Cu-modified urchin flower like graphitic carbon nitride for efficient nitrophenol reduction, 2025, N. Hammi* et al.

  • Evaporation-Induced Reticular Growth of UiO-66_NH2 in Chitosan Films: Adsorption of Iodine, 2025, N. Hammi* et al.

  • Green Synthesis of MOF-based textile composites for the degradation of a chemical warfare agent simulant, 2024, N. Hammi et al.

  • Enhanced Gas Adsorption in HKUST-1@Chitosan Aerogels, Cryogels, and Xerogels: An Evaluation Study, 2023, N. Hammi* et al.

  • Boron nitride embedded in chitosan hydrogel as hydrophobic, promising metal-free, sustainable antibacterial materials, 2023, N. Hammi et al.

  • Hierarchically porous ZIF-67/chitosan beads with high surface area and strengthened mechanical properties: Application to CO2 storage, 2023, N. Hammi* et al.

  • Glassy-like Metal Oxide Particles Embedded on Micrometer Thicker Alginate Films as Promising Wound Healing Nanomaterials, 2022, N. Hammi et al.

  • Shaping MOF Oxidation Catalysts through Structure Directing Growth Inside of Chitosan Aerogel Microspheres, 2022, N. Hammi et al.

  • Sequestration of copper nanoparticles on nitrogen-containing carbon framework through pyrolysis of cross-linked chitosan: preparation and catalytic hydrogenation of unsaturated olefins and N-heteroarenes, 2022, N. Hammi et al.

  • Glassy-like Metal Oxide Particles Embedded on Micrometer Thicker Alginate Films as Promising Wound Healing Nanomaterials, 2022, N. Hammi et al.

  • Antimicrobial effect of chitosan films on food spoilage bacteria, 2021, N. Hammi et al.

  • Nanostructured metal Oxide@Carbon dots through sequential chitosan templating, twin growth and carbonisation, 2021, N. Hammi et al.

  • Phyllosilicate-derived Nickel–cobalt Bimetallic Nanoparticles for the Catalytic Hydrogenation of Imines, Oximes and N-heteroarenes, 2020, N. Hammi et al.

  • Chitosan as a sustainable precursor for nitrogen-containing carbon nanomaterials: synthesis and uses, 2020, N. Hammi et al.

  • Polysaccharide Templated Biomimetic Growth of Hierarchically Porous Metal-Organic Frameworks, 2020, N. Hammi et al.

  • Supramolecular chemistry driven preparation of nanostructured, transformable and biologically-active Chitosan-clustered metal oxide bioplastics, 2019, N. Hammi et al.