Zhenghui Luo | organic solar cells | Best Researcher Award

Posted on by ScienceFather
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.

Durga Ghosh | energy | Best Researcher Award

Posted on by ScienceFather

Dr. Durga Ghosh | energy | Best Researcher Award

Dr. North Carolina State University, United States

Durga Prasad Ghosh is a postdoctoral scholar specializing in mechanical engineering, currently at North Carolina State University. He holds a Ph.D. from the Indian Institute of Technology, Patna, and an M.Tech. in Thermal Engineering from Kalinga Institute of Industrial Technology. Ghosh has extensive research experience, having worked on projects related to thermal energy storage, water desalination, and evaporator design. He has taught courses at Oregon State University and Gandhi Institute of Excellent Technocrats. His notable achievements include securing research funding, publishing in peer-reviewed journals, and being a semi-finalist in the American-Made Geothermal Lithium Extraction Prize.

 

Professional Profiles:

Scopus

Education🎓

Ph.D., Mechanical Engineering
Indian Institute of Technology, Patna, India
June 2015 – October 2019CGPA: 8.25/10🎓 M.Tech., Thermal Engineering
Kalinga Institute of Industrial Technology, India
June 2012 – June 2014CGPA: 9.15/10 (Highest in the department)🎓 B.Tech., Mechanical Engineering
Gandhi Institute of Engineering Technology, India
August 2007 – July 2011CGPA: 7.42/10

Awards and Achievements 🏆

2021: Selected as one of the semifinalists in “The American-Made Geothermal Lithium Extraction Prize” and gained funding of $40,000. 018: Secured 1st position in “My Research in Three Minutes” competition on 7th Research Scholar’s Day, IIT Patna, 2018. 2014: Received Vice Chancellor Silver Medal for securing the highest mark in Thermal Engineering during M.Tech. 2004: Won a GOLD medal at All Orissa Geography Talent Test, 2004.
2003: Secured an All India rank of 323 in the 3rd National Science Olympiad, 2003.

Leadership and Service🔧

2019 – 2023: Led a team of Postdocs, graduate, and undergraduate students across four universities to successfully complete a multi-million dollar DOE project. 🔧 2019: Volunteered in organizing the 8th Research Scholar’s Day, IIT Patna, 2019. 2017: Volunteered in organizing the 6th Research Scholar’s Day, IIT Patna, 2017. 2013: Volunteered in organizing the 1st KIIT International Symposium on Advances in Automotive Technology (KIIT SAAT), 2013.  2008 – 2009: Served as an Office Bearer of the Mechanical Engineering Student Association (MESA), GIET, Gunupur, India.

Professional Experience

🛠️ Postdoctoral Scholar, Mechanical Engineering
North Carolina State University, Raleigh, NC, USA
April 2023 – PresentLeading the design, fabrication, and experimentation of nature-inspired variable capacity evaporators for low Global Warming Potential (GWP) refrigerants.Enhancing condensation via optimized gradient wick structures.🛠️ Postdoctoral Scholar, Mechanical Engineering
University of Michigan, Ann Arbor, MI, USA
April 2023 – April 2024Led projects on thermal energy storage, supervising 2 graduates and 3 undergraduates.Studied hydration kinetics of salt hydrates in a through-flow reactor for thermochemical energy storage.Analyzed data to establish trade-offs between specific power and specific energy.Utilized CAD software SolidWorks for 3D modeling and performed thermal simulation using COMSOL.🛠️ Instructor of Record, Energy System Engineering
Oregon State University, Bend, OR, USA
January 2023 – March 2023Taught Heat Transfer (ME332) for the winter term.Developed course content and conducted review sessions.Managed course materials and assignments on CANVAS.🛠️ Postdoctoral Scholar, Mechanical Engineering
Oregon State University, Bend, OR, USA
December 2019 – April 2023Led a team working on a novel Zero Liquid Discharge (ZLD) humidification-dehumidification water desalination system.Managed contractual milestones for multimillion-dollar US DOE awards.Conducted independent research and supervised PhD, graduate, and undergraduate students.🛠️ Project Fellow, Mechanical Engineering
Indian Institute of Technology, Patna, India
December 2014 – October 2019Designed and fabricated experimental setups for flow boiling in nanostructured microchannels.Performed Fast Fourier Transform Analysis in MATLAB.🛠️ Assistant Professor, Mechanical Engineering
Gandhi Institute of Excellent Technocrats, Bhubaneswar, India
July 2014 – November 2014Taught undergraduate courses on Basic Thermodynamics and Heat Transfer.Developed course content and conducted review sessions.

✍️Publications Top Note :

Abstract: Anti-fouling Rotating Polymer-Based Heat Exchanger for Zero Liquid Discharge Humidification-Dehumidification Desalination

Authors: Ghosh, D.P., Hassan, M., Dennis, S.J., Elhashimi-Khalifa, M.A., Abbasi, B. Journal: Water Research, 2024, 258, 121749

Fouling Mechanism in Airblast Atomizers and Its Suppression for Water Desalination

Authors: Sharma, D., Ghosh, D.P., Dennis, S.J., Abbasi, B.

Journal: Water Research, 2022, 221, 118726

Development of an Anti-Clogging Perforated Plate Atomizer for a Zero Liquid Discharge Humidification-Dehumidification Desalination System

Authors: Sharma, D., Ghosh, D.P., Rote, J.N., Zhang, X., Abbasi, B.

Journal: Desalination, 2021, 515, 115195

Mitigation of Transient Fluctuations During Flow Boiling in Microchannels via Adaptive Vapor Venting

Authors: Ghosh, D.P., Sharma, D., Abbasi, B.

Journal: IEEE Transactions on Components, Packaging and Manufacturing Technology, 2021, 11(10), pp. 1645–1654

An Ingenious Fluidic Capacitor for Complete Suppression of Thermal Fluctuations in Two-Phase Microchannel Heat Sinks

Authors: Ghosh, D.P., Sharma, D., Kumar, A., Saha, S.K., Raj, R.

Journal: International Communications in Heat and Mass Transfer, 2020, 110, 104347

Facile Fabrication of Nanostructured Microchannels for Flow Boiling Heat Transfer Enhancement

Authors: Ghosh, D.P., Sharma, D., Mohanty, D., Saha, S.K., Raj, R.

Journal: Heat Transfer Engineering, 2019, 40(7), pp. 537–548

Thermohydraulic Characterization of Flow Boiling in a Nanostructured Microchannel Heat Sink with Vapor Venting Manifold

Authors: Sharma, D., Ghosh, D.P., Saha, S.K., Raj, R.

Journal: International Journal of Heat and Mass Transfer, 2019, 130, pp. 1249–1259

Mohammadjavad Shabanpoursheshpoli | intelligent metamaterial | Best Researcher Award

Posted on by ScienceFather

Mr. Mohammadjavad Shabanpoursheshpoli | intelligent metamaterial | Best Researcher Award

Mr. Aalto University, Finland

Mohammadjavad Shabanpoursheshpoli is a dedicated Marie Curie Early-stage researcher and PhD candidate specializing in applied electromagnetics and telecommunications, with a focus on Reconfigurable Intelligent Surfaces (RIS) for 5G and 6G wireless networks. He has published over 10 journal papers and received several prestigious awards, including the 2023 Nokia Foundation scholarship for outstanding research in RIS-based 6G networks. He was an invited speaker at Metamaterials 2023 and named the best-performing research fellow of the Meta wireless project in 2022. He holds a PhD from Aalto University and has earned full scholarships and top academic rankings throughout his education.

 

Professional Profiles:

Google scholar

🎓 Education

Ph.D.Aalto University, Espoo, Finland5/5 (passed all 40 credits)M.Sc.Iran University of Science & Technology, Tehran, Iran16.65/20B.Sc.Babol Noshirvani University of Technology, Babol, Iran

📜 Honours & Awards

🎓 Motivated and Accomplished Researcher

Marie Curie Early-Stage Researcher (PhD candidate) specializing in applied electromagnetics and telecommunication, focusing on Reconfigurable Intelligent Surfaces for 5G and 6G wireless networks.

Committed to advancing telecommunication technology through a combination of rigorous theory and practical expertise, resulting in 10+ published journal papers recognized within the academic community.

🏅 2023 Nokia Foundation Scholarship

Recognized for outstanding research contributions in the field of RIS-based 6G wireless networks.

🎤 Invited Speaker

Accepted as an invited speaker for the 17th International Congress on Artificial Materials for Novel Wave Phenomena (Metamaterials 2023) in Greece.

🌟 Best-Performing Research Fellow

Selected as the “2022 best-performing research fellow of the Meta Wireless Project” in Gaeta, Italy (14 Nov. 2022).

🎓 Full Scholarships

Received a full scholarship from H2020 Marie Skłodowska-Curie Innovative Training Networks (ITNs) under grant agreement NO 956256.

Awarded a full scholarship from Noshirvani Institute of Technology & Iran University of Science and Technology (tuition waiver).

📚 Top-Cited Paper

Awarded a top-cited paper 2020-2021 in Annalen der Physik by Wiley.

📈 Academic Achievements

Ranked 3rd GPA among the graduating class in the master’s program at Iran University of Science and Technology.Ranked within the top 0.05% in the Iranian university entrance exam for a master’s degree in electrical engineering (2016).Ranked within the top 0.1% in the Iranian university entrance exam for a bachelor’s degree (2012).

✍️Publications Top Note :

“Ultrafast reprogrammable multifunctional vanadium-dioxide-assisted metasurface for dynamic THz wavefront engineering”

(Scientific Reports, 2020) – Cited 103 times.

“Deep neural network-based automatic metasurface design with a wide frequency range”

(Scientific Reports, 2021) – Cited 72 times.

“Asymmetric spatial power dividers using phase–amplitude metasurfaces driven by Huygens principle”

(ACS Omega, 2019) – Cited 66 times.

“Programmable anisotropic digital metasurface for independent manipulation of dual-polarized THz waves based on a voltage-controlled phase transition of VO₂ microwires”

(Journal of Materials Chemistry C, 2020) – Cited 63 times.

“Reconfigurable honeycomb metamaterial absorber having incident angular stability”

(Scientific Reports, 2020) – Cited 44 times.

“A deep learning approach for inverse design of the metasurface for dual-polarized waves”

(Applied Physics A, 2021) – Cited 36 times.

“Real-time multi-functional near-infrared wave manipulation with a 3-bit liquid crystal-based coding metasurface”

(Optics Express, 2021) – Cited 30 times.

“Full Manipulation of the Power Intensity Pattern in a Large Space-Time Digital Metasurface: From Arbitrary Multibeam Generation to Harmonic Beam Steering Scheme”

(Annalen der Physik, 2020) – Cited 23 times.

“Implementation of conformal digital metasurfaces for THz polarimetric sensing”

(OSA Continuum, 2021) – Cited 22 times.

“Highly sensitive quarter-mode spoof localized plasmonic resonator for dual-detection RF microfluidic chemical sensor”

(Journal of Physics D: Applied Physics, 2020) – Cited 18 times.

Michele Paulin | Concordia University | Best Researcher Award

Posted on by ScienceFather

Dr. Michele Paulin | Concordia University | Best Researcher Award

Dr. Concordia University, Canada

MICHÈLE PAULIN, former RBC Professorship holder in Strategic Relationship Marketing (2010-2020), holds a law degree (L.L.B.) from Université de Sherbrooke, an Executive MBA from John Molson School of Business, and a Ph.D. from UQÀM. She has received numerous accolades, including an award from the Journal of Service Management (2014) and the MCB University Press Award for Excellence (2001). Dr. Paulin has over 120 publications and presentations across prestigious journals and conferences. Her research focuses on immersive experiential learning, humanistic and sustainable management practices, service design and management, and self-determination motivation practices. She also serves as an expert and reviewer in various capacities.

Professional Profiles:

Scopus

Google scholar

Meet Dr. Michèle Paulin: A Leader in Strategic Relationship Marketing 🌟

Dr. Michèle Paulin, who held the RBC Professorship in Strategic Relationship Marketing from 2010 to 2020, boasts an impressive academic and professional background. She holds a law degree (L.L.B.) from Université de Sherbrooke, an MBA from the John Molson School of Business, and a Ph.D. from UQÀM. Her expertise and contributions have been widely recognized, including receiving a highly recommended award from the Journal of Service Management in 2014 at Service Frontiers and the Award for Excellence from MCB University Press—International Journal of Bank Marketing in 2001. 🏆

Funded Projects and Academic Contributions 📚

Dr. Paulin’s research has been extensively supported by prestigious funding bodies such as SSHRC, FQRSC, and internal grants from the Luc Beauregard Centre, ARRE, CASA Grants, and FRDP. Her prolific academic output includes over 120 publications and scientific presentations in renowned journals and conferences, including the Journal of Consumer Behaviour, Humanistic Management Journal, Universal Journal of Management, Journal of Humanistic Psychology, Motivation Science, and many more. 📰

Focus on Experiential Learning and Sustainable Practices 🌱

Dr. Paulin’s projects are characterized by their focus on immersive experiential learning, humanistic and sustainable management practices, service design, and self-determination motivation practices. Her innovative approach has significantly influenced the fields of service design and management. 🚀

A Respected Expert and Reviewer 🧐

In addition to her research and teaching, Dr. Paulin serves as an expert and reviewer for various academic and professional organizations. Her broad expertise and commitment to excellence have made her a respected figure in the academic community. 🌍 

✍️Publications Top Note :

Is it fashionable to swap clothes? The moderating role of culture
Armouch, F., Paulin, M., Laroche, M.
Journal of Consumer Behaviour, 2024

🌟 This article explores the cultural influences on the popularity of clothing swaps, providing insights into sustainable fashion practices and consumer behavior.

Integrated Self-Determined Motivation and Charitable Causes: The Link to Eudaimonia in Humanistic Management
Ferguson, R.J., Schattke, K., Paulin, M., Dong, W.
Humanistic Management Journal, 2024

🌟 Investigating the relationship between self-determined motivation and charitable engagement, this paper delves into how these factors contribute to human well-being and eudaimonia.

Hofstede’s individual-level indulgence dimension: Scale development and validation
Heydari, A., Laroche, M., Paulin, M., Richard, M.-O.
Journal of Retailing and Consumer Services, 2021, 62, 102640

🌟 This research validates a scale for Hofstede’s indulgence dimension, providing a tool for better understanding consumer behavior across different cultures.

Persuasions by Corporate and Activist NGO Strategic Website Communications: Impacts on Perceptions of Sustainability Messages and Greenwashing
Ferguson, R.J., Schattke, K., Paulin, M.
Humanistic Management Journal, 2021, 6(1), pp. 117–131

🌟 Examining how corporate and activist communications shape perceptions of sustainability, this article sheds light on the effectiveness of green marketing strategies.

Working Together in Montréal to Improve Veterans’ Well-Being: A Canadian Perspective
Fewster, B., Brais, H., Gregory, S., Paulin, M.
Journal of Humanistic Psychology, 2019, pp. 1–21

🌟 This study focuses on collaborative efforts to enhance the well-being of veterans in Montréal, highlighting the importance of community and support systems.

The social context for value co-creations in an entrepreneurial network: Influence of interpersonal attraction, relational norms and partner trustworthiness
Ferguson, R., Schattke, K., Paulin, M.
International Journal of Entrepreneurial Behaviour and Research, 2016, 22(2), pp. 199–214

🌟 Investigating the dynamics of value co-creation in entrepreneurial networks, this paper explores the roles of interpersonal attraction, relational norms, and trust.

Gaining Millennial women’s support for a fashion show: Influence of fashion experiences, gender identity and cause-related Facebook appeals
Salman, A., Ferguson, R.J., Paulin, M., Schattke, K.
Journal of Global Fashion Marketing, 2016, 7(2), pp. 132–146

🌟 This article examines how fashion experiences and gender identity influence Millennial women’s support for cause-related fashion shows.

Development of market Mavenism traits: Antecedents and moderating effects of culture, gender, and personal beliefs
Kiani, I., Laroche, M., Paulin, M.
Journal of Business Research, 2016, 69(3), pp. 1120–1129

🌟 Analyzing the development of market mavenism traits, this research looks at the impacts of culture, gender, and personal beliefs on consumer behavior.

Self-determination theory, social media and charitable causes: An in-depth analysis of autonomous motivation
Ferguson, R., Gutberg, J., Schattke, K., Paulin, M., Jost, N.
European Journal of Social Psychology, 2015, 45(3), pp. 298–307

🌟 This study explores how self-determination theory applies to social media and charitable causes, emphasizing the role of autonomous motivation in prosocial behavior.

Organizational Culture in a Professional Business to Business Service Context: Implications for Business Performance and Long-Term Relationships in Mexican Commercial Banking
Paulin, M., Perrien, J., Ferguson, R.
Developments in Marketing Science: Proceedings of the Academy of Marketing Science, 2015, pp. 478