Iran Sheikhshoaie | Nanotechnology | Women Researcher Award

Published on by Chemistry Awards

Prof. Iran Sheikhshoaie| Nanotechnology
| Women Researcher Award

Academic Researcher | Shahid Bahonar University of Kerman | Iran

Prof. Iran Sheikhshoaie is a distinguished scholar in inorganic chemistry with a career dedicated to teaching, research, and innovation. She has significantly contributed to the fields of coordination chemistry, bioinorganic systems, nanomaterials, and electrochemistry, establishing herself as a leader in both theoretical and experimental chemistry. Her academic journey began with a strong foundation in chemistry, progressing to advanced studies and culminating in a Ph.D. in inorganic chemistry. As a professor at Shahid Bahonar University of Kerman, she has guided countless students, inspiring the next generation of scientists. Through her pioneering work on Schiff-base ligands, ion-selective sensors, and photocatalysts, she continues to expand the frontiers of analytical and inorganic chemistry with a balance of depth and innovation.

Professional Profile

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Education

Prof. Iran Sheikhshoaie began her academic journey in chemistry with a Bachelor’s degree, followed by advanced postgraduate studies in inorganic chemistry. Her academic training provided her with a strong foundation in both theoretical and applied aspects of the field. She completed a Master’s degree with specialization in inorganic chemistry, where she cultivated expertise in chemical structures, bonding, and reactivity. Building upon this foundation, she pursued doctoral studies, focusing on inorganic chemistry with a particular emphasis on Schiff-base ligands, coordination complexes, and their electronic properties. Her education reflects a well-rounded preparation, combining traditional chemistry with modern computational and experimental approaches. This strong academic background has been instrumental in shaping her career as an accomplished professor and researcher.

Professional Experience

Prof. Iran Sheikhshoaie has built an extensive academic career as a professor of chemistry at Shahid Bahonar University of Kerman, where she teaches and mentors students across undergraduate and postgraduate levels. She has held progressive faculty positions, advancing through assistant, associate, and full professorship, reflecting her contributions to teaching, research, and service. Her teaching portfolio includes general chemistry, inorganic chemistry, symmetry and group theory, organometallic chemistry, and advanced laboratory courses, offering students both theoretical depth and practical skill. Beyond teaching, she has actively led research projects in coordination chemistry, nanochemistry, bioinorganic chemistry, and electrochemistry. Her academic career demonstrates a blend of pedagogy, leadership, and innovation, making her a respected figure within her institution and the wider chemistry community.

Awards 

Prof. Iran Sheikhshoaie has been recognized for her impactful work in chemistry through numerous acknowledgments of her teaching and research contributions. She has achieved distinction within her academic community for her dedication to advancing inorganic chemistry and interdisciplinary studies. Her leadership in the development of novel ligands, ion-selective sensors, and nanostructured materials has earned her respect as both a teacher and researcher. She has received honors for her mentorship of students and her efforts to expand scientific knowledge through collaborative and independent projects. Her reputation is strengthened by a strong publication record in international journals, which has positioned her research as influential within the fields of coordination chemistry and bioinorganic chemistry. These recognitions highlight her academic excellence and professional impact.

Research Interests 

Prof. Iran Sheikhshoaie research integrates coordination chemistry, nanochemistry, and bioinorganic chemistry with practical and theoretical approaches. Her focus includes designing Schiff-base ligands and exploring their electronic structures, nonlinear optical properties, and coordination behavior with transition metals. She also develops ion-selective electrodes, polymeric membrane sensors, and nanostructured compounds for applications in analytical and electrochemistry. In addition, her work on photocatalysts contributes to green chemistry and environmental applications, while her studies in bioinorganic systems explore the interface of chemistry and biology. By combining synthesis, characterization, and computational modeling, she creates a holistic understanding of chemical systems. Her interdisciplinary research not only advances fundamental science but also provides innovative solutions to industrial, environmental, and biomedical challenges.

Publication Top Notes

A novel electrochemical epinine sensor using amplified CuO nanoparticles and an-hexyl-3-methylimidazolium hexafluorophosphate electrode ..

Year: 2019, Cited by: 285

Performance of metal–organic frameworks in the electrochemical sensing of environmental pollutants .

Year: 2021, Cited by: 230

Electrocatalytic and simultaneous determination of isoproterenol, uric acid and folic acid at molybdenum  complex-carbon nanotube paste electrode .

Year: 2011, Cited by: 168

A novel tridentate Schiff base dioxo-molybdenum  complex: Synthesis, crystal structure and catalytic performance in green oxidation of sulfides by urea hydrogen peroxide .

Year: 2009, Cited by: 163

Magnetic nanomaterials based electrochemical (bio) sensors for food analysis .

Year: 2021, Cited by: 159

Solid phase extraction of copper  by sorption on octadecyl silica membrane disk modified with a new Schiff base and determination with atomic absorption spectrometry .

Year: 2008, Cited by: 152

Selective voltammetric determination of norepinephrine in the presence of acetaminophen and folic acid at a modified carbon nanotube paste electrode .

Year: 2011, Cited by: 149

Amplified electrochemical sensor employing screen-printed electrode modified with Ni-ZIF-67 nanocomposite for high sensitive analysis of Sudan I in present bisphenol A .

Year: 2022, Cited by: 134

Conclusion 

Prof. Iran Sheikhshoaie stands out as an exemplary researcher whose academic depth, innovation in inorganic and nanochemistry, and long-standing contributions to electrochemical sensor design make her highly deserving of the Women Researcher Award. Her blend of theoretical and experimental expertise has advanced scientific understanding in diverse fields while her teaching and mentoring continue to inspire the next generation of chemists. With expanded global outreach and greater emphasis on applied innovation, her already strong impact could become transformative. Overall, she exemplifies the qualities of an accomplished woman scientist contributing meaningfully to both science and society.

Dr. YOUSAF MUHAMMAD | Nanotechnology | Best Researcher Award

Published on by Chemistry Awards

Dr. YOUSAF MUHAMMAD | Nanotechnology | Best Researcher Award

Dr. YOUSAF MUHAMMAD , Nanotechnology , Research Scientist at Shenzhen University , China

Dr. Muhammad Yousaf is a dedicated researcher in Physics and Material Science, with special expertise in energy and environmental sciences. Currently based in Shenzhen, China, he is pursuing a second postdoctoral fellowship at Shenzhen University (2023–present), having completed a prior postdoc at Southeast University, Nanjing (2020–2023). He earned his Ph.D. in Nano Materials and Devices from Hubei University, China, where he focused on semiconducting ferrites for solid oxide fuel cells. With a strong academic foundation from COMSATS Institute, Pakistan, Dr. Yousaf has contributed significantly to the development of advanced materials for clean energy technologies. He has published widely in reputed journals such as Fuel, Ceramics International, and Electrochimica Acta. His collaborative research spans proton conduction, magneto-optical materials, and nanoferrites. A passionate scientist, he aims to drive innovation in sustainable energy materials and contribute to global environmental goals through impactful research.

Professional Profile : 

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Summary of Suitability for Award:

Dr. Yousaf holds a Ph.D. in Nanomaterials and Devices with distinction (89%) and has completed two postdoctoral fellowships in Energy and Environmental Sciences from reputed Chinese institutions—Southeast University and Shenzhen University. He has authored over 16 peer-reviewed research publications in high-impact journals like Fuel, Small Methods, Electrochimica Acta, and Ceramics International, focusing on solid oxide fuel cells (SOFCs), magneto-optical materials, and nanoferrites. His work in proton/electron/oxygen ion-conducting ceramics, rare earth-doped ferrites, and low-temperature SOFCs has advanced next-gen energy technologies. His collaborative and interdisciplinary projects address critical global needs in sustainable energy. Dr. Yousaf has collaborated with distinguished scientists from China, Pakistan, and Sweden (Bin Zhu), showcasing his international research engagement and adaptability. Dr. Muhammad Yousaf is eminently qualified for the “Best Researcher Award”. His academic rigor, innovation in materials science, and impactful publications reflect an exceptional research trajectory. He not only contributes to advancing clean energy technologies but also exemplifies a committed and globally connected researcher. His profile aligns perfectly with the values of excellence, originality, and societal impact that such an award seeks to recognize.

🎓Education:

Dr. Muhammad Yousaf holds two postdoctoral fellowships in Energy and Environmental Sciences—currently at Shenzhen University (2023–ongoing) and previously at Southeast University, Nanjing (2020–2023). He completed his Ph.D. in Nano Materials and Devices (2017–2020) from Hubei University, China, with a thesis on ferrite materials for low-temperature solid oxide fuel cells (SOFCs), achieving an 89% score. He earned his M.S. in Physics from COMSATS Institute of Information Technology, Lahore (2015–2017), with a CGPA of 3.23, focusing on rare earth ion effects on garnet ferrites. His B.S. (Hons) in Physics (2011–2015), also from COMSATS, had a final CGPA of 2.58. His academic journey began with pre-engineering at KIMS College Kot Adu (F.Sc., 78%) and matriculation from Govt. H.S. School, Shadan Lund (84%). Dr. Yousaf’s academic path reflects his growing commitment to materials science for clean energy.

🏢Work Experience:

Dr. Muhammad Yousaf has over five years of postdoctoral research experience in energy materials and environmental sciences. From 2020 to 2023, he worked at Southeast University, Nanjing, in the Energy Storage Joint Research Center, where he explored low-temperature solid oxide fuel cells (LT-SOFCs), electrochemical interfaces, and ferrite composites. In 2023, he began his second postdoctoral fellowship at Shenzhen University, where he continues his innovative research on proton-conducting and magneto-optical nanomaterials for clean energy systems. During his Ph.D. at Hubei University (2017–2020), he extensively studied semiconducting spinel and garnet ferrites. His early research during M.S. and B.S. studies at COMSATS Institute, Pakistan, laid the foundation in nanomaterials and rare earth doping. He has also collaborated internationally on materials for solid-state energy devices. Dr. Yousaf’s expertise spans synthesis, characterization, and performance analysis of advanced materials, enabling him to contribute significantly to emerging clean energy technologies.

🏅Awards: 

Dr. Muhammad Yousaf’s contributions to material science and energy research have earned him recognition in the academic and scientific community. He is the recipient of multiple research fellowships, including two prestigious postdoctoral appointments in China—first at Southeast University, Nanjing, and currently at Shenzhen University. His work has been regularly featured in high-impact journals such as Fuel, Ceramics International, and Small Methods. Dr. Yousaf has co-authored several collaborative projects with renowned researchers such as Prof. Bin Zhu and Prof. Yuzheng Lu. His consistent publication record demonstrates his excellence in low-temperature fuel cell technologies, earning him a reputation for innovation and scientific rigor. He has contributed to several international research networks focused on advanced nanomaterials and clean energy. His growing citation count and leadership in interdisciplinary research projects reflect the high impact of his scientific output.

🔬Research Focus:

Dr. Muhammad Yousaf’s research centers on materials for energy conversion and storage, particularly solid oxide fuel cells (SOFCs), proton-conducting ceramics, and ferrite-based nanomaterials. He develops novel composite and doped structures that enhance oxygen reduction reaction (ORR) activity, proton conductivity, and magneto-optical properties. His Ph.D. focused on spinel and garnet ferrites for low-temperature SOFCs, while his postdoctoral research expands into heterojunctions, interfacial disordering, and mixed ionic-electronic conductors. His interdisciplinary approach combines material synthesis, characterization (XRD, SEM, TEM, EIS), and electrochemical evaluation. Dr. Yousaf is particularly interested in optimizing materials for low-temperature operations, which is critical for the commercial viability of ceramic fuel cells. He also explores rare earth doping, sol-gel processes, and microwave absorber applications. His goal is to create efficient, stable, and environmentally sustainable energy materials through cutting-edge material design and processing innovations.

Publication Top Notes:

1.Title: Structural and electromagnetic evaluations of YIG rare earth doped (Gd, Pr, Ho, Yb) nanoferrites for high frequency applications
Citations: 127

2.Title: ZnO/MgZnO heterostructure membrane with type II band alignment for ceramic fuel cells
Citations: 82

3.Title: Physical, structural, conductive and magneto-optical properties of rare earths (Yb, Gd) doped Ni–Zn spinel nanoferrites for data and energy storage devices
Citations: 80

4.Title: Semiconductor Fe-doped SrTiO3-δ perovskite electrolyte for low-temperature solid oxide fuel cell (LT-SOFC) operating below 520°C
Citations: 73

5.Title: Magnetic characteristics and optical band alignments of rare earth (Sm³⁺, Nd³⁺) doped garnet ferrite nanoparticles (NPs)
Citations: 67

6.Title: Preparations, optical, structural, conductive and magnetic evaluations of RE’s (Pr, Y, Gd, Ho, Yb) doped spinel nanoferrites
Citations: 66

7.Title: Electrochemical properties of Ni₀.₄Zn₀.₆Fe₂O₄ and the heterostructure composites (Ni–Zn ferrite-SDC) for low temperature solid oxide fuel cell (LT-SOFC)
Citations: 62

8.Title: Structural, magnetic, and electrical evaluations of rare earth Gd³⁺ doped in mixed Co–Mn spinel ferrite nanoparticles
Citations: 57

9.Title: Electrochemical Properties of a Co-Doped SrSnO₃−δ-Based Semiconductor as an Electrolyte for Solid Oxide Fuel Cells
Citations: 57

10.Title: Surface‐engineered homostructure for enhancing proton transport1
Citations: 55

11.Title: Effect of Gd and Co contents on the microstructural, magneto-optical and electrical characteristics of cobalt ferrite (CoFe₂O₄) nanoparticles
Citations: 53
12.Title: Semiconductor Nb-Doped SrTiO₃−δ Perovskite Electrolyte for a Ceramic Fuel Cell
Citations: 49