Ms. Nishat Fatima | Nanosensor Awards | Women Researcher Award

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Ms. Nishat Fatima | Nanosensor Awards | Women Researcher Award

Ms. Nishat Fatima , The Government Sadiq College women university Bahawalpur , Pakistan

Nishat Fatima is a Pakistani PhD student specializing in electrochemical energy storage and conversion at the Government Sadiq College Women University (GSCWU) in Bahawalpur. Her research focuses on developing supercapacitors and water splitting technologies, with expertise in materials synthesis, characterization, and electrode surface modification using carbon-based materials, transition metals, and 2D materials. Nishat holds an MS and BS in Chemistry from GSCWU, where she graduated with first-division honors. Her MS thesis involved the synthesis and characterization of nitrogen-doped hierarchical porous graphitic carbon spheres for enhanced supercapacitor performance. Fluent in English, Urdu, and Punjabi, she has presented her research at various national and international conferences, earning accolades for her poster presentations. Nishat has published work on the development of electrochemical and colorimetric biosensors for detecting dopamine

Professional Profile:

Orcid

🎓Education:

Nishat Fatima is a dedicated Pakistani PhD student specializing in electrochemical energy storage and conversion at the Government Sadiq College Women University (GSCWU) in Bahawalpur, where she is currently enrolled. She holds both an MS and BS in Chemistry from GSCWU, graduating with first-division honors. Her MS thesis, titled “Prussian red assisted facile synthesis of NiCo₂O₄/Nitrogen-doped hierarchical porous graphitic carbon spheres for enhanced supercapacitor performance,” earned her a CGPA of 3.67/4.00 in 2022. Nishat also completed her BS in Chemistry in 2020 with a CGPA of 3.80/4.00. Before her university studies, she achieved a percentage of 76.45% in her F.Sc (Pre-medical) from the Board of Intermediate and Secondary Education (BISE) in Bahawalpur in 2016, and a remarkable 86.86% in her Matric from the Federal Board of Intermediate and Secondary Education (FBISE) in Islamabad in 2014.

🏢Work Experience:

As a researcher at the Government Sadiq College Women University (GSCWU) in Bahawalpur, Nishat Fatima is actively engaged in various research projects focused on electrochemical energy storage and conversion. Her work primarily involves the development and characterization of supercapacitors and water splitting technologies, where she applies her expertise in materials synthesis, characterization, and electrode surface modification using advanced materials such as carbon-based substances, transition metals, and 2D materials.

🏆Awards:

Nishat Fatima received the prestigious First Prize in Poster Presentation at the International Conference On Innovations In Chemistry, Biochemistry, Biotechnology And Bioinformatics held in 2022. Her outstanding achievement underscores her expertise and contributions in the field of electrochemical energy storage and conversion, highlighting her innovative research in supercapacitors and water splitting technologies. This accolade further recognizes her dedication to advancing scientific knowledge and her ability to effectively communicate research findings to the academic community and beyond.

Publication Top Notes:

  • Title: Development of Electrochemical and Colorimetric Biosensors for Detection of Dopamine
  • Journal: Chemosensors

 

 

Dr. Qijie Qiu | Nanosensors Awards | Best Researcher Award

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Dr. Qijie Qiu | Nanosensors Awards | Best Researcher Award

Dr. Qijie Qiu , University of Xinjiang , China

Qiu Qijie, born in Dongying City, Shandong Province, is a dedicated member of the Communist Party with a passion for mechanical engineering. After completing a Bachelor’s degree in Mechanical Engineering at Xinjiang University, where Qiu demonstrated exceptional academic performance, they seamlessly transitioned into a Ph.D. program in the same field. Qiu’s research focuses on innovative applications of microfluidic biochip technology, specifically in enhancing detection sensitivity and controlled drug release through the manipulation of AC electric fields. With expertise in numerical simulations and MEMS processing techniques, Qiu has contributed significantly to the field. Qiu’s achievements extend beyond research, as evidenced by multiple scholarships, awards, and certifications, including National College English Test Band 6 and recognition as an Excellent Communist Youth League Member. Currently, Qiu is finalizing a publication on their groundbreaking work, showcasing a promising future in advancing scientific knowledge and technological innovation.

Professional Profile:

Scopus

Education Background:

Qiu Qijie, born in Dongying City, Shandong Province, is a member of the Communist Party of China. He pursued his Bachelor’s degree in Mechanical Engineering at Xinjiang University from September 2017 to June 2021. Qijie exhibited exceptional academic performance during his undergraduate studies, which led to his direct admission to the Ph.D. program in Mechanical Engineering at Xinjiang University. Currently, he is a Ph.D. candidate, actively engaged in advanced research within his field. This academic journey reflects his dedication to scholarly excellence and commitment to furthering his expertise in mechanical engineering.

Certificates and Awards:

This individual has an impressive academic and extracurricular track record. They have successfully passed the National College English Test Band 4 (CET-4) and Band 6 (CET-6), indicating a strong command of the English language. Additionally, they have achieved a notable level in the National Computer Rank Examination, attaining Level 2. Their commitment to service and leadership is evident through their recognition as an Excellent Communist Youth League Member in 2020. Moreover, their academic excellence has been acknowledged with prestigious scholarships, including the Xinjiang Uygur Autonomous Region Academic Scholarship in 2022 and the Xinjiang Uygur Autonomous Region Scholarship in 2023, highlighting their dedication to their studies. Furthermore, they have showcased their skills and talents in the field of technology by securing a School-level Bronze Award in the “Internet+” Competition in 2022. Overall, this individual’s diverse accomplishments underscore their well-roundedness and commitment to excellence.

Publication Top Notes:
  • Rapid and Sensitive Detection by Combining Electric Field Effects and Surface Plasmon Resonance: A Theoretical Study
    • Authors: Qiu, Q., Xu, Y.
    • Journal: Micromachines
    • Year: 2024
  • A Two-Stage Hybrid Multi-Objective Optimization Evolutionary Algorithm for Computing Offloading in Sustainable Edge Computing
    • Authors: Li, L., Qiu, Q., Xiao, Z., Gu, J., Ming, Z.
    • Journal: IEEE Transactions on Consumer Electronics
    • Year: 2024
  • An Efficient Service-Aware Virtual Machine Scheduling Approach Based on Multi-Objective Evolutionary Algorithm
    • Authors: Xiao, Z., Qiu, Q., Li, L., Lin, Q., Ming, Z.
    • Journal: IEEE Transactions on Services Computing
    • Year: 2023