Prof. Chi-ShungTang | Mesoscopic Physics | Best Scholar Award

Prof. Chi-Shung Tang | Mesoscopic Physics | Best Scholar Award

Department of Mechanical Engineering | National United University | Taiwan

 

Author Profile:

Google Scholar

Early Academic Pursuits:

Tang Shixiong, also known as TANG, Chi-Shung, laid the foundation for his academic journey with a strong educational background. He earned his Bachelor's degree in Physics from Fu Jen Catholic University, Republic of China, in July 1989. Subsequently, he pursued a Master's degree at Tsinghua University, Republic of China, specializing in the Institute of Physics, completing his studies in January 1993. His academic pursuits reached their pinnacle with a Ph.D. in Electronic Physics from Jiaotong University, Republic of China, achieved in July 1998.

Professional Endeavors:

Tang's professional journey has been marked by a progressive ascent in academia. Commencing as a Postdoctoral Researcher at the Department of Electronic Physics, National Chiao Tung University, from August 1998 to July 1999, he continued to make significant contributions. Tang served as an Assistant Professor at various esteemed institutions, including Southeast University of Science and Technology and Longhua University of Science and Technology. His dedication led him to become a Visiting Assistant Professor at the National Tsing Hua University, National Center for Theoretical Sciences, from August 2002 to August 2006. This was followed by his role as a Postdoctoral Research Scholar at Academia Sinica Applied Science Research Center from September 2006 to July 2007.

In February 2013, Tang assumed the position of Professor in the Department of Mechanical Engineering at National United University, where he continues to contribute to the academic community.

Contributions and Research Focus:

Tang's scholarly pursuits encompass a broad spectrum of topics within the field of Mechanical Engineering. His research focus includes both theoretical and applied aspects, demonstrating versatility in his contributions. From postdoctoral research in Electronic Physics to academic positions in Theoretical Sciences and Electronic Engineering, Tang's expertise spans various dimensions, showcasing his commitment to advancing knowledge.

Accolades and Recognition:

While specific accolades are not mentioned, Tang's progression from Assistant Professor to Professor signifies recognition of his contributions within academic circles. The continuous trajectory of his career suggests acknowledgment of his dedication and impact in the field.

Impact and Influence:

Tang's influence extends through his roles as a researcher, educator, and academician. His involvement in theoretical sciences, combined with practical applications in electronic engineering and mechanical engineering, indicates a comprehensive impact on both theoretical understanding and real-world applications.

Legacy and Future Contributions:

As Tang continues his tenure as a Professor at National United University, his legacy unfolds through the students he educates, the research he conducts, and the advancements he contributes to in the field of Mechanical Engineering. His diverse experience positions him as a valuable asset for shaping the future of academia in Taiwan.

Notable Publication:

Spin-current generation and detection in the presence of an ac gate  2003 (84)

Coherent electronic transport in a multimode quantum channel with Gaussian-type scatterers  2004 (47)

Generation of spin current and polarization under dynamic gate control of spin-orbit interaction in low-dimensional semiconductor systems  2005 (37)

Coherent quantum transport in narrow constrictions in the presence of a finite-range longitudinally polarized time-dependent field  1999 (33)

 

 

Dr. ANINDITA SAMANTA | Solid State Physics | Young Scientist Award

Dr. ANINDITA SAMANTA | Solid State Physics | Young Scientist Award

Midnapore Madania Girls High Madrasah | India

 

Author Profile

Scopus

Early Academic Pursuits

Anindita Samanta's academic journey began with distinction, graduating with honors in Physics from Vidyasagar University in 2007. She continued her pursuit of knowledge by obtaining a Master's degree in Physics in 2009, showcasing her early commitment to the field.

Professional Endeavors

Anindita's professional endeavors demonstrate a passion for both learning and teaching. Starting as a Guest Lecturer at the Department of Physics, Kharagpur College, she contributed to academic discourse from August 2009 to August 2010. Following this, she took on the role of an Assistant Teacher at Midnapore Madania Girls' High Madrasah in August 2010, where her dedication to education has endured.

Contributions and Research Focus

Anindita's research focus centers on the synthesis of II-VI binary nanocomposites, employing techniques such as soft chemical routes, solvothermal methods, and sol-gel routes. Her work involves investigating the structural, optical, electrical, magnetic, and multiferroic properties of these nanocomposites, with a keen interest in their potential technological applications. She has also delved into the development of doped Zinc Oxide nanocomposites, emphasizing their applications in optoelectronics and multiferroics. Moreover, her exploration of modified ZnO and BiFeO3 for environmental and device applications adds depth to her contributions.

Accolades and Recognition

While specific accolades and recognition details are not provided, Anindita Samanta's educational achievements and research focus suggest a notable dedication to her field.

Impact and Influence

Anindita's impact is likely evident in her teaching role at Midnapore Madania Girls' High Madrasah, where she contributes to shaping the academic landscape for her students. Her research in nanocomposites may influence the scientific community by advancing understanding and applications in the field.

Legacy and Future Contributions

Anindita Samanta's legacy is marked by her academic achievements, teaching experience, and impactful research in nanocomposites. As she continues her career, her dedication to education and research positions her for future contributions, potentially influencing advancements in optoelectronics, multiferroics, and environmental applications.

For more specific details, such as accolades and recognitions, it is recommended to refer to her professional profiles, academic publications, or official documentation.

Notable Publication

Fe-doped ZnO nanoparticles as novel photonic and multiferroic semiconductor   2020 (29)

Multiferroicity in Mg-doped ZnO nanoparticles   2019 (11)