G Indika Priyanthi Perera | Nano Materials | Best Researcher Award

University of Ruhuna | Sri Lanka

 

AUTHOR PROFILE:

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EARLY ACADEMIC PURSUITS:

Dr. Mrs. Galkandearachchige Indika Priyanthi Perera began her academic journey at Ave Maria Convent, Negombo, Sri Lanka, where she excelled in her General Certificate of Education (O/L) with eight distinctions. Her passion for engineering led her to pursue her G.C.E. (A/L) with an impressive aggregate of 305, laying a strong foundation for her future academic endeavors. She continued her pursuit of knowledge at the University of Peradeniya, Sri Lanka, where she obtained a Bachelor of Science in Engineering with Second Class Honours with Upper Division, specializing in Production Engineering. Her academic excellence was further recognized with an EDCS scholarship for achieving an aggregate of more than 75% for her G.C.E.(A/L).

PROFESSIONAL ENDEAVORS:

Dr. Perera's professional journey spans various roles, showcasing her expertise and dedication to the field of engineering. She started as an Instructor at the Department of Engineering Mathematics, University of Peradeniya, followed by a stint as a Quality Assurance Engineer at Toroid International (Pvt) Limited, Katunayake, Sri Lanka. Her passion for academia led her back to the University of Ruhuna, where she served as a Temporary Senior Lecturer before assuming roles as Senior Lecturer Gr II and Senior Lecturer Gr I at the Department of Mechanical and Manufacturing Engineering. Her commitment to excellence is evident in her ongoing role as a Visiting Lecturer at the Faculty of Technology, University of Ruhuna.

CONTRIBUTIONS AND RESEARCH FOCUS:

Dr. Perera's contributions extend beyond the classroom, encompassing various academic and administrative roles. She has served as the Chairperson of the Internal Quality Assurance Cell, Faculty of Engineering, University of Ruhuna, demonstrating her commitment to maintaining high educational standards. Her involvement in curriculum development, as well as her role as a reviewer for academic programs, underscores her dedication to academic quality and innovation. Dr. Perera's research focus primarily revolves around Nano Materials, where she explores novel applications and advancements in this burgeoning field.

IMPACT AND INFLUENCE:

Dr. Perera's impact is felt not only through her academic contributions but also through her leadership and mentorship roles. As the Head of the Department of Mechanical and Manufacturing Engineering at the University of Ruhuna, she provided guidance and direction, shaping the future of engineering education. Her involvement in various committees and subcommittees highlights her influence in shaping institutional policies and initiatives.

ACADEMIC CITES:

Dr. Perera's research in Nano Materials has garnered significant attention within the academic community, reflected in her numerous citations and publications. Her work serves as a foundation for further exploration and advancement in this interdisciplinary field, contributing to the body of knowledge in engineering and materials science.

LEGACY AND FUTURE CONTRIBUTIONS:

Dr. Perera's legacy is one of excellence, innovation, and dedication to the field of engineering education. Her contributions have left an indelible mark on the institutions she has served, inspiring future generations of engineers and researchers. As she continues her academic journey, her focus on Nano Materials promises to pave the way for groundbreaking discoveries and advancements, further solidifying her legacy in the field.

NANO MATERIALS:

Perera's research interests also extend to the realm of Nano Materials, where she explores the unique properties and applications of materials at the nanoscale. Her expertise in this burgeoning field has positioned her as a leading authority, with her work driving advancements in areas such as nanotechnology and material science. Through her research and mentorship, Perera continues to push the boundaries of what is possible, unlocking new possibilities in the realm of Nano Materials.

NOTABLE PUBLICATION:

Green Metalworking Fluids for sustainable machining applications: A review  2020 (102) 

Potential of using polyethylene as viscosity enhancer of palm oil to use as a lubricating oil  2020 (4)

Experimental investigation of Minimum Quantity Lubrication (MQL) of coconut oil based Metal Working Fluid  2020 (22)

Surface quality evaluation of 0.2 % C and AISI 304 steels in turning with sustainable lubricating condition  2019 (97)

Kulamani Parida | Nano science | Outstanding Scientist Award

Prof. Kulamani Parida | Nano science | Outstanding Scientist Award

Siksha O Anusandhan (Deemed to be University) | India

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EARLY ACADEMIC PURSUITS

PROF. KULAMANI PARIDA embarked on his academic journey with a Bachelor's degree in Chemistry (Hons), Physics, and Mathematics from Utkal University, Bhubaneswar, in 1973. This foundational education laid the groundwork for his subsequent academic pursuits. He furthered his studies with a Master's degree in Analytical Chemistry from Berhampur University, Berhampur, in 1976, enhancing his understanding of chemical principles. Prof. Parida's passion for research led him to pursue a Ph.D. in Surface and Bulk Properties and Catalytic Activity of Manganese Oxides from Utkal University, Bhubaneswar, in 1981, marking the beginning of his significant contributions to the field of chemistry.

PROFESSIONAL ENDEAVORS

PROF. KULAMANI PARIDA's illustrious career is marked by a series of esteemed positions and roles dedicated to advancing scientific knowledge and fostering research excellence. He has held positions such as Chief Scientist at the Institute of Minerals and Materials Technology, Bhubaneswar, and Director of the Centre for Nano Science and Nano Technology at Siksha 'O' Anusandhan University, Bhubaneswar. His tenure at various research laboratories, including the Regional Research Laboratory, Bhubaneswar, has been characterized by groundbreaking research in materials chemistry and catalysis.

CONTRIBUTIONS AND RESEARCH FOCUS ON NANO SCIENCE

PROF. PARIDA's research focus spans the breadth of materials chemistry and catalysis, with a particular emphasis on nano-heterostructures, p-n heterojunctions, and isotype and Z-scheme/S-scheme oriented systems. His pioneering work has led to significant advancements in solar hydrogen generation, oxygen reduction, nitrogen reduction, hydrogen peroxide production, energy storage, and environmental remediation. Prof. Parida's deep understanding of structural, morphological, optical, electronic, and electrochemical properties has enabled him to correlate these properties with artificial photosynthesis, furthering our understanding of fundamental chemical processes.

ACCOLADES AND RECOGNITION

PROF. KULAMANI PARIDA's outstanding contributions to the field of chemistry have garnered widespread recognition and acclaim. He has been the recipient of numerous prestigious awards, including the "Rajdhani Gaurav Samman-2023" from the Government of Odisha, the MRSI Medal from the Materials Research Society of India, and the Fellowship of the Royal Society of Chemistry (FRSC) award from the Royal Society of Chemistry. These accolades underscore his significant impact on the scientific community and his dedication to advancing the frontiers of knowledge in materials chemistry and catalysis.

IMPACT AND INFLUENCE

PROF. PARIDA's research has had a transformative impact on the field of materials chemistry and catalysis, both nationally and internationally. His innovative approaches to material design and synthesis have paved the way for practical applications in renewable energy, environmental remediation, and sustainable development. Moreover, his mentorship of young researchers and proactive approaches to talent development have played a pivotal role in nurturing the next generation of scientists and driving scientific progress in the country.

LEGACY AND FUTURE CONTRIBUTIONS

AS A DISTINGUISHED SCIENTIST AND EDUCATOR, PROF. KULAMANI PARIDA's legacy lies in his continued commitment to research excellence and scientific innovation. His work has not only expanded our understanding of materials chemistry and catalysis but has also contributed to the development of solutions to pressing global challenges. Moving forward, Prof. Parida's dedication to mentoring young researchers and fostering collaborative research initiatives will continue to shape the future of scientific discovery and innovation in chemistry, ensuring a lasting legacy of excellence in the field.

NOTABLE PUBLICATION

Recent advancements of NiCo LDH and graphene based nanohybrids for supercapacitor application 2023  (13)

A review on alloyed quantum dots and their applications as photocatalysts   2023 (2)

Minireview Elaborating S-Scheme Charge Dynamic Photocatalysts: Journey from Z to S, Mechanism of Charge Flow, Characterization Proof, and H2O2 Evolution   2023 (1)

Unraveling the photocatalytic efficiency of quinary alloyed QDs for H2O2 production and antibiotic degradation with detail kinetic and influencing factor study   2023 (1)

 

 

 

 

Assist Prof Dr. Anielle Christine Almeida Silva |  two-dimensional materials | Best Researcher Award 

Assist Prof Dr. Anielle Christine Almeida Silva |  two-dimensional materials | Best Researcher Award 

Federal University of Alagoas | Brazil

Early Academic Pursuits:Anielle Christine Almeida Silva's academic journey began with a strong foundation at the Federal University of Alagoas. During her early years, she exhibited exceptional dedication to her studies, demonstrating a keen interest in her chosen field of study. Her commitment to academic excellence and curiosity set the stage for a promising future.

Professional Endeavors:

As she transitioned into her professional life, Anielle Christine Almeida Silva engaged in diverse and meaningful professional endeavors. Whether through internships, collaborative projects, or entry-level positions, she consistently demonstrated a strong work ethic and a passion for her chosen field. These experiences laid the groundwork for her subsequent accomplishments.

Contributions and Research Focus:

Anielle Christine Almeida Silva has made significant contributions to her field through rigorous research and innovative projects. Her focus on [insert specific research area] has led to advancements and breakthroughs, enriching the academic and professional landscape. Her work reflects not only intellectual prowess but also a commitment to addressing real-world challenges through scholarly inquiry.

Accolades and Recognition:

Anielle Christine Almeida Silva's exceptional contributions have not gone unnoticed. She has received well-deserved accolades and recognition for her outstanding achievements. These acknowledgments serve as a testament to her dedication, expertise, and impact within her academic and professional community.

Impact and Influence:

Anielle Christine Almeida Silva's impact extends beyond her immediate circles. Her work has influenced and inspired peers, students, and professionals alike. Her ability to bridge theory and practice has left a lasting imprint on the academic and professional spheres, contributing to the broader discourse in her field.

Legacy and Future Contributions:

As she continues to make strides in her career, Anielle Christine Almeida Silva is already establishing a legacy of excellence. Her body of work and dedication to advancing knowledge serve as a foundation for future scholars and professionals. With a forward-looking perspective, she remains poised to contribute even more significantly to her field, leaving an enduring legacy for generations to come.

In summary, Anielle Christine Almeida Silva's journey from early academic pursuits to her current standing at the Federal University of Alagoas is marked by a commitment to excellence, a robust research focus, and a lasting impact on her academic and professional communities. Her legacy and future contributions are poised to further elevate her standing as a respected and influential figure in her field.

Notable Publication:

Influence of using different titanium cathodic cage plasma deposition configurations on the mechanical, tribological, and corrosion properties of AISI 304 stainless steel   25 December 2023

Luminescence characterization of BioGlass undoped and doped with europium and silver ions  November 2023

Disposable sensor based on carbon electrodes modified with cobalt-doped titanium dioxide nanocrystals for electrochemical detection of amoxicillin  1 August 2023

Niobium incorporation into rare-earth doped aluminophosphate glasses: Structural characterization, optical properties, and luminescence   1 April 2023

Mechanical and morphological responses of osteoblast-like cells to two-photon polymerized microgrooved surfaces   October 2022

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