Kumary Sumi Rani Shaha | Electrical and Electronic Engineering | Best Researcher Award | 6236

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Ms. Kumary Sumi Rani Shaha | Electrical and Electronic Engineering | Best Researcher Award

Ms at Pabna University of Science and Technology, Bangladesh

K. Sumi Rani Shaha’s academic and professional journey is marked by a strong foundation in Electrical and Electronic Engineering, with significant teaching, research, and practical experience in various esteemed institutions.

To facilitate the path of a knowledge-seeking mind and enrich achievements in Electrical and Electronic Engineering.

Professional Profiles

Scopus Profile

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Education πŸ“˜πŸŽ“

M.Sc. in Electrical and Electronic Engineering (EEE)
Rajshahi University of Engineering & Technology (RUET)
CGPA: 3.92/4.00 (2023)

B.Sc. in Electrical and Electronic Engineering (EEE)
Rajshahi University of Engineering & Technology (RUET)
CGPA: 3.76/4.00, 7th position (2021)

Higher Secondary Certificate (H.S.C.) in Science
Govt. Azizul Haque College
GPA: 5.00/5.00 (2015)

Secondary School Certificate (S.S.C.) in Science
Kalai M. U. Govt. High School
GPA: 5.00/5.00 (2013)

Experiences πŸ«πŸ”Œ

Lecturer, Dept. of EECE, Pabna University of Science and Technology, Pabna
October 19, 2022 – Present
Responsibilities include teaching courses such as Electrical Circuit II, Electrical Machine System II, Power System Protection and Switchgear, and Measurement and Instrumentation. Additionally, supervising students’ thesis work, conducting exams, preparing routines, and developing OBE curriculum.Lecturer, Dept. of EEE, North Bengal International University, Rajshahi
January 15, 2022 – October 18, 2022
Taught courses including Electronics I, Electrical Circuit II, and Communication Engineering II. Also supervised students’ thesis work, conducted exams, prepared routines, and developed OBE curriculum.Lecturer, Dept. of EEE, Anwer Khan Modern University, Dhaka
November 2021 – January 2022
Taught various courses with practical classes in the Department of Electrical & Electronic Engineering.Research Assistant
March 2021 – November 2021
Worked on the project titled “Design and Analysis of Novel Hollow Core Antiresonant Fibers for Communication and Terahertz Applications” under Dr. Abdul Khaleque, Professor, Dept. of EEE, RUET.Industrial Trainee at Ghorashal Power Plant
May 14, 2019 – May 23, 2019
Completed industrial training at Ghorashal Power Plant Training Center under the supervision of Dr. Md. Mortuza Ali, Professor, Dept. of EEE, RUET.

Publications

Wideband Low Loss Hollow Core Fiber with Nested Hybrid Cladding Elements πŸ“‘

KSR Shaha, A Khaleque, MH Sarwar
Journal of Lightwave Technology, 39(20), 6585-6591 (2021)
Citations: 42
A detailed study on a novel hollow core fiber design that offers wideband and low loss, improving applications in optical communications.

Low Loss Double Cladding Nested Hollow Core Antiresonant Fiber 🌐

KSR Shaha, A Khaleque, I Hasan
OSA Continuum, 3(9), 2512-2524 (2020)
Citations: 38
This research presents a double cladding structure in hollow core fibers, achieving significant loss reduction, enhancing data transmission efficiency.

Broadband and Short-Length Polarization Splitter on Dual Hollow-Core Antiresonant Fiber πŸ”

KSR Shaha, A Khaleque, MT Rahman, MS Hosen
IEEE Photonics Technology Letters, 34(5), 259-262 (2022)
Citations: 25
Innovative design of a short-length polarization splitter that operates over a broad bandwidth, useful for compact optical devices.

Low Loss Single Mode Modified Conjoined Tube Hollow Core Fiber πŸ”¬

KSR Shaha, A Khaleque
Applied Optics, 60(21), 6243-6250 (2021)
Citations: 20
Explores a conjoined tube hollow core fiber design for single mode operation with minimized loss, beneficial for precise optical systems.

Highly Birefringent Polarization Maintaining Low-Loss Single-Mode Hollow-Core Antiresonant Fiber πŸŒ€

MS Hosen, A Khaleque, KSR Shaha, LN Asha, AS Sultana, R Nishad, …
Optics Continuum, 1(10), 2167-2184 (2022)
Citations: 15
This work focuses on achieving high birefringence and low loss in hollow-core fibers, important for polarization-maintaining applications.

Low Loss Anisotropic Nested Hollow Core Antiresonant Fiber 🌈

KSR Shaha, A Khaleque, MT Rahman
2020 2nd International Conference on Advanced Information and Communication
Citations: 14
Introduces an anisotropic design for nested hollow core fibers, reducing loss across a variety of applications.

Nodeless Antiresonant Hollow Core Fiber for Low Loss Flatband THz Guidance 🌐

AS Sultana, A Khaleque, KSR Shaha, MM Rahman, MS Hosen
Optics Continuum, 1(8), 1652-1667 (2022)
Citations: 12
Research on hollow core fibers designed for terahertz guidance, providing low loss and flatband characteristics.

Nested Antiresonant Hollow-Core Fiber with Ultra-Low Loss 🌐

KSR Shaha, A Khaleque, MI Hasan
2020 11th International Conference on Electrical and Computer Engineering
Citations: 12
Examines an ultra-low loss design for nested antiresonant hollow-core fibers, critical for enhancing communication technologies.

Polarization-Insensitive Terahertz Tunable Broadband Metamaterial Absorber on U-Shaped Graphene Array πŸ“‘

ABMA Hossain, A Khaleque, NM Shahriar, MS Hosen, KSR Shaha, …
2023 International Conference on Electrical, Computer and Communication
Citations: 7
Develops a tunable broadband absorber using metamaterials and graphene, improving terahertz applications.

Dual-Function Plasmonic Device on Photonic Crystal Fiber for Near to Mid-Infrared Regions πŸ“‘

MH Rahman, A Khaleque, MS Hosen, KSR Shaha, M Mizan, MT Rahman
Optical Materials Express, 13(9), 2526-2540 (2023)
Citations: 6

Outstanding Scientist Award

Posted on by Academic achievements

Outstanding Scientist Award

Introduction: Welcome to the esteemed Outstanding Scientist Award, a beacon of recognition for exceptional scientific contributions across diverse domains. This award celebrates trailblazing scientists who have redefined boundaries, pushed the frontiers of knowledge, and inspired the next generation of innovators.

About the Award: The Outstanding Scientist Award pays tribute to individuals who have demonstrated exemplary dedication, creativity, and impact in the realm of science. It serves as a testament to their profound contributions to advancing scientific understanding and addressing global challenges.

Eligibility: This award is open to scientists of all ages who have exhibited exceptional qualifications, a distinguished publication record, and significant contributions to their respective fields. There are Above 40 age limits requirements.

Evaluation Criteria: Candidates will be evaluated based on the quality, originality, and impact of their scientific contributions, as well as their potential for continued excellence. Evaluation criteria include the significance of discoveries, research methodology, publication impact, and overall influence on the scientific community.

Submission Guidelines: Nominees must provide a comprehensive biography, abstract of their scientific achievements, and supporting documentation showcasing their contributions. Submissions should adhere to the specified format and include relevant evidence of their scientific impact.

Recognition and Community Impact: Recipients of the Outstanding Scientist Award will receive prestigious recognition for their groundbreaking work, along with opportunities to engage with a global network of scientists. This award aims to foster collaboration, knowledge sharing, and innovation within the scientific community.

Prof. Philip Power – Inorganic – Best Researcher Award

Posted on by Academic achievements

Prof. Philip Power - Inorganic - Best Researcher Award

University of California - United States

Professional Profiles

Early Academic Pursuits

Philip Patrick Power embarked on his academic journey by earning a Bachelor's degree in Chemistry from the University of Dublin in 1974. His passion for chemistry led him to pursue further studies, culminating in a Doctor of Philosophy (D.Phil.) in Organometallic Chemistry from the University of Sussex in 1977. Subsequently, he expanded his expertise through a postdoctoral fellowship in Inorganic Chemistry at Stanford University from 1978 to 1980.

Professional Endeavors

Throughout his illustrious career, Philip Patrick Power has held various academic positions, showcasing his commitment to advancing the field of chemistry. Notably, he has been a Distinguished Professor at the University of California since 2005. Prior to this, he served as a Professor from 1988 to 2005, an Associate Professor from 1985 to 1988, and an Assistant Professor from 1981 to 1985, all at the University of California.

Contributions and Research Focus On Inorganic

Philip Patrick Power's research focuses on synthetic inorganic chemistry, with particular expertise in organometallic chemistry. His work has contributed significantly to the understanding of main group chemistry and organometallic compounds. Through his research endeavors, he has explored novel synthesis methods, characterized new compounds, and elucidated their reactivity and properties, paving the way for advancements in diverse applications, from catalysis to materials science.

Accolades and Recognition

Philip Patrick Power's outstanding contributions to the field of chemistry have been widely recognized through numerous awards and lectureships. Noteworthy accolades include the ACS M.F. Hawthorne Award in Main Group Chemistry, the ACS Award in Organometallic Chemistry, and the prestigious Ludwig Mond Medal from the Royal Society of Chemistry. Additionally, he has received honorary doctorates from esteemed institutions such as the University of Jyvaskala, Finland, and the University of Bath, England.

Impact and Influence

As a renowned chemist, Philip Patrick Power has made a significant impact on the scientific community through his research, mentorship, and academic leadership. His prolific contributions have advanced the frontiers of knowledge in inorganic chemistry, inspiring and shaping the work of countless researchers worldwide. Furthermore, his dedication to education and mentorship has nurtured the next generation of chemists, fostering a legacy of excellence and innovation in the field.

Legacy and Future Contributions

Philip Patrick Power's legacy in the field of chemistry is characterized by his pioneering research, exemplary scholarship, and enduring influence. His groundbreaking discoveries and insights continue to shape the trajectory of inorganic chemistry, driving progress and innovation in diverse areas of science and technology. As he continues his academic journey, his dedication to excellence and his passion for discovery promise to fuel further advancements and leave a lasting impact on the field and future generations of chemists.

In summary, Philip Patrick Power's remarkable career exemplifies a lifelong dedication to the pursuit of knowledge, excellence in research, and impactful contributions to the field of chemistry. Through his pioneering work, he has not only expanded the boundaries of scientific understanding but also inspired and mentored generations of scientists, leaving an indelible mark on the discipline and shaping its future trajectory.

Notable Publications

London Dispersion Effects in a Distannene/Tristannane Equilibrium: Energies of their Interconversion and the Suppression of the Monomeric Stannylene Intermediate 2023

Rearrangement of a Ge(ii) aryloxide to yield a new Ge(ii) oxo-cluster [Ge6(ΞΌ3-O)4(ΞΌ2-OC6H2-2,4,6-Cy3)4](NH3)0.5: main group aryloxides of Ge(ii), Sn(ii), and Pb(ii) [M(OC6H2-2,4,6-Cy3)2]2Β (Cy = cyclohexyl) 2023

Mn(II), Fe(II), and Co(II) Aryloxides: Steric and Dispersion Effects and the Thermal Rearrangement of a Cobalt Aryloxide to a Co(II) Semiquinone Complex 2023

Synthesis, Structure, and Spectroscopy of the Biscarboranyl Stannylenes (bc)SnΒ·THF and K2[(bc)Sn]2Β (bc = 1,1β€²(ortho-Biscarborane)) and Dibiscarboranyl Ethene (bc)CH═CH(bc) 2023