Hasi Rani Barai | Nanocomposite materials | Best Researcher Award

Posted on by Mechanics Awards

Assist Prof Dr. Hasi Rani Barai | Nanocomposite materials | Best Researcher Award

Assistant Professor at Yeungnam University, South Korea

Dr. Hasi Rani Barai is an accomplished Assistant Professor at Yeungnam University, Republic of Korea, specializing in materials science and nanotechnology. She completed her postdoctoral research in artificial photosynthesis at Sogang University and nanomaterials at Ewha Womans University. Dr. Barai has earned global recognition for her innovative work in energy storage devices and nanocomposite materials. She holds a Ph.D. from Inha University and has published extensively in high-impact journals. Her career is marked by a deep commitment to advancing materials engineering and green energy solutions.

Publication Profile

orcid

Education 🎓

Ph.D. (2010–2013): Inha University, South Korea, under Prof. H.W. Lee – Research in physical organic mechanisms, nanomaterials, and high-energy materials. M.S. (2006–2008): University of Dhaka, Bangladesh, under Prof. M. Muhibur Rahman – Specialized in laser spectroscopy and physical chemistry. B.Sc. (2000–2006): University of Dhaka, Bangladesh, under Prof. M. Muhibur Rahman – Studied chemistry with a focus on nanomaterials and spectroscopy.

Experience 🔬 

Assistant Professor (2015–present): Yeungnam University, South Korea – Leading research in nanocomposites, energy storage, and biosensors Postdoctoral Fellow (2013–2015): Sogang University, South Korea – Focused on artificial photosynthesis and nanocatalysts for CO2 reduction. Postdoctoral Fellow (2013): Ewha Womans University, South Korea – Researched nanoparticles for energy storage. Research Fellow: Expert in supercapacitors, electrochemistry, and MOFs.

Awards and Honors 🏅

KCAP Fellowship: Awarded for outstanding research in artificial photosynthesis and nanomaterials at Sogang University. Best Paper Award: Recognition for top-tier research publications in energy storage systems. International Research Grants: Secured multiple research grants to advance the field of nanotechnology and green energy. Young Scientist Award: Honored for innovative contributions in the field of materials science and energy devices.

Research Focus 🔍 

Materials Science & Engineering: Specializes in nanocomposites, supercapacitors, and biosensors. Electrochemistry & Energy Storage: Focus on supercapacitors, nanoparticles, and energy storage devices for sustainable technologies. Nanotechnology & Catalysis: Research in nanocatalysts, MOFs, and CO2 reduction for artificial photosynthesis. Green Energy: Leading innovations in renewable energy solutions using nanomaterials and advanced electrochemistry.

Publication  Top Notes

High-Performance Battery-Type Supercapacitors: Investigated the growth of nanorods/nanospheres on conductive frameworks for energy storage. ACS Applied Materials & Interfaces, July 2024. DOI: 10.1021/acsami.4c03109

Detection of Polymorphisms in FASN, DGAT1, and PPARGC1A Genes: Analyzed gene associations with milk yield and composition traits in river buffalo. Animals, June 2024. DOI: 10.3390/ani14131945

Conductive Gels for Energy Storage and Conversion: Studied design strategies for materials used in energy applications. Materials, May 2024. DOI: 10.3390/ma17102268

Antibiotic Resistance in Plant Pathogenic Bacteria: Discussed environmental impacts and biocontrol agents. Plants, April 2024. DOI: 10.3390/plants13081135

pH-Sensitive Hydrogel Membrane for Dye Water Purification: Developed sodium alginate/poly(vinyl alcohol) hydrogel for environmental applications. ACS ES&T Water, February 2024. DOI: 10.1021/acsestwater.3c00567

 

Conclusion

Dr. Hasi Rani Barai is highly suitable for the Best Researcher Award due to her remarkable achievements in the fields of nanocomposite materials, energy storage, and artificial photosynthesis. Her extensive academic and research career reflects excellence in innovative materials science, positioning her as a leading researcher in cutting-edge technologies that address global challenges. By fostering international collaborations and emphasizing applied research, Dr. Barai’s already stellar portfolio could reach even greater heights, making her a deserving candidate for this award.

Zhenghui Luo | organic solar cells | Best Researcher Award

Posted on by Mechanics Awards
Assoc Prof Dr. Shenzhen University, China

Dr. Luo Zhenghui, born in October 1991 in Wuhan, Hubei Province, is an Associate Professor at Shenzhen University, specializing in organic optoelectronic functional materials. He completed his PhD in Organic Chemistry at Wuhan University under the supervision of Professor Yang Chuluo, with joint training at the Institute of Chemistry, Chinese Academy of Sciences. Dr. Luo has published over 100 SCI papers, with 26 recognized as ESI Highly Cited Papers. His research focuses on the design and synthesis of non-fullerene acceptor materials and organic photovoltaic devices. He has received multiple awards, including recognition as a Clarivate Analytics Highly Cited Scientist.

 

Professional Profiles:

google Scholar

Education:

PhD in Organic Optoelectronic Functional Materials, Wuhan UniversitySupervisor: Professor Yang ChuluoJoint Training: Institute of Chemistry, Chinese Academy of Sciences (Academician Li Yongfang)Research Direction: Design, synthesis, and photovoltaic device research of non-fullerene acceptor materials

Research Focus:

Organic photovoltaic materials and devicesPreparation and optimization of organic photovoltaic devicesDesign and synthesis of non-fullerene acceptor materials

Key Achievements:

Published over 100 SCI papers since May 2016.26 papers selected as ESI Highly Cited Papers and 26 as ESI Hot Topics.Total citations exceed 8,000 (H-index: 51 on Google Scholar).First author or corresponding author on 54 papers, including top journals like Joule, Advanced Materials, Angewandte Chemie International Edition, and Energy & Environmental Science.Awarded for outstanding research contributions, including the 2020 Cell Press Chinese Scientist Best Paper Award in Material Science and selection as a Clarivate Analytics Highly Cited Scientist for multiple years.

Awards:

Top 2% of the world’s top scientists in Environment, Energy, and Sustainability journals for three consecutive years (2021-2023).Second prize winner in Guangdong Province and Shenzhen City Natural Science Award in 2022.

Strengths for the Award

1. Exceptional Publication Record: Luo Zhenghui has published over 100 SCI papers since May 2016, with 26 being selected as ESI Highly Cited Papers and 26 as ESI Hot Topics. His research output demonstrates both quality and impact, with a Google Scholar H-index of 51 and over 8,000 citations. His work in high-impact journals such as Advanced Materials, Angewandte Chemie, Joule, and Nature Communications underscores his contributions to the field of organic optoelectronic functional materials.

2. Expertise in Organic Photovoltaic Materials: Luo’s research focuses on organic photovoltaic materials and devices, particularly the design, synthesis, and application of non-fullerene acceptor materials. His innovative work in this area has led to significant advancements, including the development of polymer solar cells with efficiencies exceeding 17%. His expertise in molecular design and device engineering is evident in his numerous high-impact publications.

3. Recognition and Awards: Luo has received several prestigious awards, including the Cell Press Chinese Scientist Best Paper Award (First Place in Material Science) and the Outstanding Paper Award from Science China Chemistry. His recognition as a Clarivate Analytics Highly Cited Scientist and inclusion in the top 2% of the world’s top scientists further solidifies his standing in the scientific community.

4. Collaborative and Interdisciplinary Research: Luo has successfully collaborated with leading researchers and institutions, including joint training with the Institute of Chemistry, Chinese Academy of Sciences, and research at the Hong Kong University of Science and Technology. His interdisciplinary approach has contributed to his success in advancing organic optoelectronics and photovoltaic research.

Areas for Improvement

1. Diversification of Research Focus: While Luo’s focus on organic photovoltaic materials has yielded significant results, diversifying his research portfolio could enhance his contributions to other emerging areas within organic optoelectronics. Expanding into related fields such as organic light-emitting diodes (OLEDs) or organic semiconductors could further strengthen his overall research impact.

2. Increased Industry Collaboration: To translate his research into practical applications, Luo could benefit from increased collaboration with industry partners. Engaging in technology transfer and commercialization efforts could amplify the societal impact of his research, particularly in the development and deployment of organic photovoltaic technologies.

3. Outreach and Mentorship: Luo could consider increasing his involvement in outreach and mentorship activities. Guiding the next generation of researchers and actively participating in scientific outreach could enhance his visibility and influence within the broader scientific community.

 

✍️Publications Top Note :

Fine-tuning energy levels via asymmetric end groups – This paper reports on polymer solar cells achieving efficiencies over 17% through the fine-tuning of energy levels using asymmetric end groups. Published in Joule in 2020, it has been cited 367 times.

Improving open-circuit voltage by a chlorinated polymer donor – This study demonstrates how a chlorinated polymer donor can improve the efficiency of binary organic solar cells to over 17%. Published in Science China Chemistry in 2020, with 328 citations.

A layer-by-layer architecture for printable organic solar cells – This research addresses the challenge of module efficiency in organic solar cells by using a layer-by-layer architecture. It was published in Joule in 2020 and has 317 citations.

Precisely controlling the position of bromine on the end group – This work explores how the precise positioning of bromine on polymer acceptors can lead to solar cells with efficiencies over 15%. It was published in Advanced Materials in 2020 and has been cited 311 times.

Fine-tuning molecular packing and energy level through methyl substitution – This paper focuses on methyl substitution for fine-tuning molecular packing, leading to efficient nonfullerene polymer solar cells. Published in Advanced Materials in 2018, it has 292 citations.

Use of two structurally similar small molecular acceptors – The study shows how using two structurally similar acceptors can enable high-efficiency ternary organic solar cells. Published in Energy & Environmental Science in 2018, it has 280 citations.

Asymmetrical ladder-type donor-induced polar small molecule acceptor – This research promotes fill factors approaching 77% in high-performance nonfullerene polymer solar cells. Published in Advanced Materials in 2018, it has 273 citations.

16% efficiency all-polymer organic solar cells – The paper reports on achieving a 16% efficiency in all-polymer organic solar cells via a finely tuned morphology. Published in Joule in 2021, with 243 citations.

Simultaneous enhanced efficiency and thermal stability – This work demonstrates enhanced efficiency and thermal stability in organic solar cells using a polymer acceptor additive. Published in Nature Communications in 2020, it has 239 citations.

A nonfullerene acceptor with a 1000 nm absorption edge – This study discusses the development of a nonfullerene acceptor leading to improved efficiencies in organic solar cells. Published in Energy & Environmental Science in 2019, with 229 citations.

Conclusion

Luo Zhenghui is an outstanding candidate for the Best Researcher Award, with a proven track record of high-impact research, numerous accolades, and significant contributions to the field of organic optoelectronic functional materials. His expertise in organic photovoltaic materials, coupled with his collaborative and interdisciplinary approach, positions him as a leader in his field. While there is potential for further growth in diversifying his research focus and increasing industry collaboration, Luo’s achievements to date make him a highly deserving recipient of this prestigious award.

Mr. Jeremy Jeba amuel J | Composite materials | Best Researcher Award

Posted on by Mechanics Awards

Mr. Jeremy Jeba amuel J | Composite materials
| Best Researcher Award

Mr. Jeremy Jeba amuel J , Francis Xavier Engineering College, India

Mr. Jeremy Jeba amuel J is academic and researcher in the field of renewable energy, holds a PhD in Bio systems Engineering from Kangwon National University, South Korea. His academic journey has been marked by a profound dedication to advancing solar energy technologies, specifically in solar thermal harvesting and its integration into agricultural and architectural applications.

 

Professional Profiles:

Google scholar

Orcid

🌟 Objective:

To seek a challenging and responsible position in an emerging organization with a competitive environment, leading the organization to excellence through high efficiency and innovative skills. Aim to provide the best quality and innovation in my work.

🎓 Educational 

DegreeYear of PassingPercentageInstitution Name
Ph.D (Pursuing)–Easwari Engineering College
M.E (Engineering Design)201571.1%Easwari Engineering College
B.E (Mechanical Engineering)201366.66%Dr. Sivanthi Adithanar College of Engineering
T.N.H.S.C200969%Margoschis Hr. Sec. School
SSLC200779%Margoschis Hr. Sec. S

Work Experience:

Institution NameFromToTotal Experience
Francis Xavier Engineering College, Tirunelveli24/06/2015Till Date6 years 8 months

Skill-set:

Languages: C, C++
Operating Systems: Windows 10
Packages: MS-Office, Origin
Tools: AutoCAD, Pro-E (Creo), CATIA, Ansys, Fluid sim, CNC Programmin

Industrial Exposure:

Undergone In-plant training at DCW Ltd and Sterlite Copper for two weeks.
Undergone In-plant training at TVS Motor Company for three days.
Visited various industries like Hyundai – Chennai, Doosan Power Systems, Aqua-Sub, Madras Radiators Pvt Ltd, and interacted with HRs regarding placement.

Technical Training:

Participated in numerous Faculty Training Programmes organized by various reputed institutions.
Attended seminars, webinars, and workshops from different institutions.

Achievements:

Secured First place in state-level project presentation competition conducted by Velammal College of Engineering & Technology, Madurai.
Secured Second place in national-level CAD Modelling conducted by Holycross Engineering College, Vagaikulam.
Secured Second place in national-level paper presentation competition conducted by SRM University – Ramapuram, Chennai.
Secured awards from the institution for achieving 100% results.
Coordinated a 1-week FDP sponsored by Anna University from 3rd Jan to 8th Jan 2022 under the title ME 8493 – Thermal Engineering 1.

📖 Publications Top Note :

Studies on Mechanical Properties and Characterization of Carbon Fiber Reinforced Hybrid Composite for Aerospace Application

Authors: J.J.J. Samuel, R. Ramadoss, K.N. Gunasekaran, K. Logesh, S.J.P. Gnanaraj, …

Journal: Materials Today: Proceedings

Volume: 47, pp. 4438-4443

Year: 2021

Citations: 27

An Experimental Study of the Properties of Carbon Fiber/Epoxy Composites Mixed with Rubber Granules

Authors: J.J.S. Joseph Jebaraj, R. Rajendran

Journal: International Journal of Polymer Science

Volume: 2024 (1), Article ID 5555592

Year: 2024

Green Methods of Larvae Control in Aquatic Environments: Using Solar Energy to Agitate Water

Authors: D.E. Paulsyah, S.J.P. Gnanaraj, R.S. Myrtle, C.J.C. Grace, J.J.J. Samuel

Conference: 2023 International Conference on Sustainable Communication Networks and …

Year: 2023

Vacuum Bag Technology for Obtaining Carbon/Epoxy Composites

Authors: M.J.J.S.J. Ajith Arumugam A, Karthikeyan S, Godlin S.R., Giftson Gnanaraj J

Journal: International Journal of Innovative Research in Science, Engineering and …

Year: 2021

Experimental Investigation on Fabrication Methods of Glass Fibre with Rubber Powder for Radome Applications

Authors: J.J.S.J. Esakki Raja, Anand K, Elson Pushpa M, Ganeshamanikandan C

Journal: Journal of Xidian University

Volume: 14 (Issue 5, 2020), pp. 894-900

Year: 2020

Fracture Analysis of Compact Tension Specimen

Authors: M.J.J.S. Mr. S. Sheik Sulaiman, Mr. K. Krishna Moorthy

Journal: International Journal of Research in Advanced Technology – IJORAT

Volume: 1 (9), pp. 49-55

Year: 2016

Performance Study on Hybrid Glass Fiber Epoxy Composite

Authors: M.J. Lakshmipathy, J. Jereme Jeba Samuel

Journal: International Journal of Research in Advanced Technology – IJORAT

Volume: 1 (1), pp. 18-22

Year: 2016

Study of Mechanical Properties and Characterization of Hybrid Polymer Matrix Composites Based on Water Absorption

Authors: S.S.P.J. Jeremy Jeba Samuel, Lakshmipathy

Journal: International Journal of Research in Advanced Technology – IJORAT

Volume: 1 (1), pp. 36-40

Year: 2016

Mechanical Properties and Characterization Studies in Natural Fiber/Lignite Fly Ash Reinforced Hybrid Composites

Authors: S.K. G.K., K.G. Ashok

Journal: Journal of Manufacturing Engineering

Volume: 10 (3), pp. 157-160

Year: 2015

An End for Cancer by Nanotechnology

Authors: (Details not provided)