Guangri Jia – electrocatalyst materials – Best Researcher Award

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Guangri Jia - electrocatalyst materials - Best Researcher Award

The University of Hong Kong - Hong Kong

AUTHOR PROFILE

GOOGLE SCHOLAR

RESEARCH INTERESTS

Guangri Jia is a distinguished researcher with a focus on the synthesis of nanomaterials for photocatalytic and electrochemical applications, particularly in water splitting and carbon dioxide reduction reactions. His innovative work in these areas aims to develop sustainable solutions for clean energy production and environmental protection.

HONORS AND AWARDS

Throughout his academic journey, Guangri Jia has received numerous accolades, including the National Scholarship for Graduate Students from the Chinese Education Department. He has also been recognized for his exceptional research with the Excellent Doctoral Thesis of Jilin Province and has received the First-Class Scholarship for Graduate Students and the title of Excellent Graduate from Jilin University.

JOURNAL PAPERS

Guangri Jia has an impressive portfolio of published works in top-tier journals. Notable among them is his paper on the charge redistribution of a spatially differentiated ferroelectric bismuth titanate single crystal for photocatalytic overall water splitting, published in Nature Communications. His research on the size effects of highly dispersed bismuth nanoparticles on the electrocatalytic reduction of carbon dioxide to formic acid in the Journal of the American Chemical Society further showcases his expertise.

INNOVATIVE RESEARCH

One of Guangri Jia's significant contributions includes the development of asymmetric atomic dual-sites for photocatalytic CO2 reduction, as accepted in Advanced Materials. His work on wet-chemistry hydrogen-doped TiO2 with switchable defects control for photocatalytic hydrogen evolution, published in Matter, highlights his innovative approach to enhancing photocatalytic efficiency.

IMPACTFUL STUDIES

Guangri Jia's research has had a significant impact on the field, as evidenced by his highly cited works. His study on the coordination number regulation of molybdenum single-atom nanozyme peroxidase-like specificity in Chem has garnered widespread recognition. His work on asymmetric coupled dual-atom sites for selective photoreduction of carbon dioxide to acetic acid in Advanced Functional Materials further underscores his influential contributions.

COLLABORATIVE EFFORTS

Guangri Jia's collaborative efforts with leading scientists and institutions have been pivotal in advancing his research. His partnerships with experts such as Jimmy C. Yu, Bolong Huang, and Xiaoqiang Cui have led to groundbreaking discoveries and publications in high-impact journals.

FUTURE ASPIRATIONS

Looking ahead, Guangri Jia aims to continue pushing the boundaries of nanomaterials research for sustainable energy applications. His future work will focus on developing new materials and methods to further improve the efficiency and effectiveness of photocatalytic and electrochemical processes, contributing to the global efforts in combating climate change and promoting clean energy solutions.

NOTABLE PUBLICATION

Rational Design of Fe–N/C Hybrid for Enhanced Nitrogen Reduction Electrocatalysis Under Ambient Conditions in Aqueous Solution

Authors: Y. Wang, X. Cui, J. Zhao, G. Jia, L. Gu, Q. Zhang, L. Meng, Z. Shi, L. Zheng
Year: 2018
Journal: ACS Catalysis
Pages: 336-344

Coordination Number Regulation of Molybdenum Single-atom Nanozyme Peroxidase-like Specificity

Authors: Y. Wang, G. Jia, X. Cui, X. Zhao, Q. Zhang, L. Gu, L. Zheng, L.H. Li, Q. Wu
Year: 2021
Journal: Chem
Pages: 436-449

A 2D Transition Metal Carbide MXene-based SPR Biosensor for Ultrasensitive Carcinoembryonic Antigen Detection

Authors: Q. Wu, N. Li, Y. Wang, Y. Xu, S. Wei, J. Wu, G. Jia, X. Fang, F. Chen, X. Cui
Year: 2019
Journal: Biosensors and Bioelectronics
Article: 111697

Favorable Energy Band Alignment of TiO2 Anatase/Rutile Heterophase Homojunctions Yields Photocatalytic Hydrogen Evolution with Quantum Efficiency

Authors: X. Ruan, X. Cui, Y. Cui, X. Fan, Z. Li, T. Xie, K. Ba, G. Jia, H. Zhang, L. Zhang
Year: 2022
Journal: Advanced Energy Materials
Article: 2200298

Highly Carbon-Doped TiO2 Derived from MXene Boosting the Photocatalytic Hydrogen Evolution

Authors: G. Jia, Y. Wang, X. Cui, W. Zheng
Year: 2018
Journal: ACS Sustainable Chemistry & Engineering
Pages: 13480-13486

Alireza Zangeneh – ardiovascular Disease – Best Researcher Award

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Alireza Zangeneh - ardiovascular Disease - Best Researcher Award

Kermanshah University of Medical Sciences - Iran

AUTHOR PROFILE

Google Scholar

EARLY ACADEMIC PURSUITS

Alireza Zangeneh pursued his academic journey with a Bachelor of Science in Geography and Urban Planning from Payame Noor University (Iran) (2003-2008). He furthered his education with a Master of Science in Geography and Urban Planning from the University of Zanjan (Iran) (2008-2010). His master's thesis focused on "Investigating Spatial Pattern of Urban Poverty, using Geographic Information System (GIS) (Case Study Kermanshah City (1996-2006)."

PROFESSIONAL ENDEAVORS

Alireza Zangeneh has established himself as a prominent researcher in population and global health, with a specialization in environments and health geography, spatial analysis, and public health. He served as a Researcher in the Social Development & Health Promotion Research Center, Health Institute, Kermanshah University of Medical Sciences, Iran, from 2013 to 2020. Additionally, he collaborated with the Global Burden of Disease study at the Institute for Health Metrics and Evaluation from 2017 to 2020. He also contributed as a member of the Epidemiological Committee for COVID-19 at Kermanshah University of Medical Sciences.

CONTRIBUTIONS AND RESEARCH FOCUS

Alireza Zangeneh's research focuses on a wide range of topics including health geography, spatial patterns of disease, poverty, urban health, and health equity. He has been involved in numerous research projects exploring the spatial patterns of mortality from various diseases globally and within Iran, utilizing Geographic Information System (GIS) technology. His work has contributed significantly to understanding the social determinants of health and health disparities, particularly among vulnerable populations.

IMPACT AND INFLUENCE

Alireza Zangeneh's research has had a profound impact on population health and public health policies, both locally and globally. His involvement in research projects examining the spatial patterns of diseases has provided valuable insights for disease prevention and control strategies. His contributions to the Global Burden of Disease study have informed health policies and interventions worldwide. Additionally, his role in the Epidemiological Committee for COVID-19 underscores his dedication to addressing current public health challenges.

ACADEMIC CITES

Alireza Zangeneh's research output has garnered significant attention in the academic community, with his work cited in numerous publications and studies in the fields of geography, public health, and epidemiology. His utilization of GIS technology in studying spatial patterns of diseases has been particularly influential, contributing to advancements in spatial epidemiology and population health research.

LEGACY AND FUTURE CONTRIBUTIONS

Alireza Zangeneh's legacy is built upon his extensive research contributions to understanding the complex interactions between environments and health. His future contributions are poised to further advance knowledge in population health, spatial epidemiology, and health equity. As a researcher committed to addressing health disparities and promoting health equity, his work will continue to have a lasting impact on public health policies and practices.

CARDIOVASCULAR DISEASE

Throughout his career, Alireza Zangeneh has demonstrated a keen interest in understanding the spatial patterns and determinants of cardiovascular disease. His research contributions in this area have shed light on the geographical distribution of cardiovascular disease and its risk factors, providing valuable insights for disease prevention and control strategies. By employing Geographic Information System (GIS) technology, he has contributed to identifying high-risk areas and vulnerable populations, facilitating targeted interventions to reduce the burden of cardiovascular disease.

NOTABL PUBLICATION

Global burden of 369 diseases and injuries in 204 countries and territories, 1990–2019: a systematic analysis for the Global Burden of Disease Study 2019 2020 (7322)

Global, regional, and national cancer incidence, mortality, years of life lost, years lived with disability, and disability-adjusted life-years for 32 cancer groups, 1990 to … 2017 (7103)

Five insights from the global burden of disease study 2019 592 (2020)

The global burden of childhood and adolescent cancer in 2017: an analysis of the Global Burden of Disease Study 2017 2019 (322)

Nokulunga Phumelele Xolile – Built Environment – Sustainable Infrastructure Innovation Award

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Nokulunga Phumelele Xolile - Built Environment - Sustainable Infrastructure Innovation Award

Walter Sisulu University - South Africa

EARLY ACADEMIC PURSUITS

Nokulunga Phumelele Xolile's academic journey began at the University of Johannesburg, where she attained a Bachelor of Technology in Quantity Surveying in 2013. She furthered her studies at the same institution, completing a Master's in Construction Management with Distinction in 2016. Her academic achievements culminated in a Ph.D. in Quantity Surveying from the University of Johannesburg in 2021, showcasing her dedication to scholarly pursuits.

PROFESSIONAL ENDEAVORS

Nokulunga Phumelele Xolile has engaged in various professional endeavors, including supervision and mentoring roles. She has supervised numerous students at both honors and master's levels, guiding them in their academic and research pursuits. Additionally, she has actively contributed to the professional community through involvement in projects, committees, and workshops, demonstrating her commitment to the advancement of the built environment sector.

CONTRIBUTIONS AND RESEARCH FOCUS

Nokulunga Phumelele Xolile's contributions to the field of Built Environment are significant, particularly in the areas of dispute causation in the construction industry, alternative dispute resolution (ADR), and conflict management. Her research focus on resolving disputes among subcontractors and main contractors underscores her dedication to addressing practical challenges within the construction sector, thereby contributing to its improvement and efficiency.

IMPACT AND INFLUENCE

Through her supervision of numerous students and involvement in professional community engagements, Nokulunga Phumelele Xolile has exerted a notable impact on the built environment sector. Her research outputs and contributions to the academic community have influenced discourse and practices within the industry, shaping the way professionals approach dispute resolution and conflict management in construction projects.

ACADEMIC CITES

Nokulunga Phumelele Xolile's research outputs have garnered recognition within the academic community, evidenced by citations in relevant literature. Her contributions to scholarly publications, conference proceedings, and community projects have enriched the field of Built Environment and inspired further research and development in related areas.

LEGACY AND FUTURE CONTRIBUTIONS

Nokulunga Phumelele Xolile's legacy in academia and the built environment sector is characterized by her dedication to research, mentorship, and professional engagement. Her future contributions are expected to continue shaping the field, particularly in dispute resolution, conflict management, and the advancement of sustainable practices within the built environment. Through her ongoing efforts, she aims to leave a lasting impact on the industry and inspire future generations of professionals in the field.

NOTABLE PUBLICATION

Harnessing Fourth Industrial Revolution(4IR) for Improving Poor Universities Infrastructure in Developing Countries-A Review.  2020 (13)

Obstacles of Sustainable Construction Project Management in South Africa Construction Industry.  2020 (10)

The current state of corporate social responsibility practices of firms operating in construction industry.  2020 (4)

The Sources of Dispute in Construction Projects in the Mpumalanga Province.  2021 (2)

Na Chen – carbon energy – Best Researcher Award

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Na Chen - carbon energy - Best Researcher Award

Beijing Normal University School of Government - China

AUTHOR PROFILE

ORCID
Google Scholar

EARLY ACADEMIC PURSUITS

Na Chen commenced her academic journey at the School of Government, Beijing Normal University, pursuing a Ph.D. with a specialization in administrative management. Her early academic pursuits were marked by a commitment to exploring solutions to China's public governance and policy issues, with a particular focus on interdisciplinary studies in environmental science, energy, and public policy, including carbon energy-related research.

PROFESSIONAL ENDEAVORS

Throughout her career, Na Chen has been actively engaged in various professional endeavors, contributing significantly to the field of public management. Her research and academic pursuits have centered on developing theories and methods of institutional analysis and public management suitable for China's national conditions, with a notable emphasis on addressing challenges related to carbon energy and environmental sustainability.

CONTRIBUTIONS AND RESEARCH FOCUS ON CARBON ENERGY

Na Chen's research contributions span interdisciplinary studies on water management, land resources, environmental issues, and rural governance, with a particular emphasis on carbon energy-related policies. She has initiated groundbreaking research on the socio-economic impacts of achieving zero-carbon energy by 2030 and has collaborated on studies exploring the dynamics of public governance and policy diffusion, including in the context of carbon energy transitions.

IMPACT AND INFLUENCE

Na Chen's research findings have had a profound impact on academia and policymaking, particularly in shaping national policies related to carbon energy and environmental sustainability. Her published articles, conference papers, and books have been widely cited, reflecting their relevance and influence in advancing knowledge in the field of public management, with a specific focus on carbon energy-related issues.

ACADEMIC CITATIONS

While Na Chen's citation index in databases like Scopus, Web of Science, and PubMed may vary, her research outputs on carbon energy and related topics have garnered significant attention within the academic community. Her publications in high-impact journals and conference proceedings serve as valuable resources for scholars and policymakers alike, contributing to the ongoing discourse on carbon energy and environmental policy.

LEGACY AND FUTURE CONTRIBUTIONS

Na Chen's legacy in academia is characterized by her pioneering research in carbon energy and environmental policy, which has laid the groundwork for future advancements in the field. Her continued dedication to interdisciplinary research and her commitment to addressing pressing societal challenges, including those related to carbon energy, underscore her potential for making further impactful contributions to academia and policymaking in the years to come.

NOTABLE PUBLICATION

Scenario analysis of the socioeconomic impacts of achieving zero-carbon energy by 2030.  2024

Michael Z. Hou – Rock mechanics – Best Scholar Award

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Michael Z. Hou - Rock mechanics - Best Scholar Award

Clausthal University of Technology - Germany

AUTHOR PROFILE

Scopus

EARLY ACADEMIC PURSUITS

Michael Z. Hou began his academic journey with a strong foundation in rock mechanics, evident from his early professorship and supervision of PhD students at the Professorship of Disposal Technology and Geomechanics. His commitment to academia was further solidified through adjunct professorships and visiting professorships at prestigious institutions in China.

PROFESSIONAL ENDEAVORS

Hou's professional trajectory saw him holding various positions of significance, such as Director of the China Competence Center funded by the Federal Ministry of Education and Research (BMBF) in Germany and serving as a Full-Time Professor and Head of Rock Mechanics at the Energy Research Center of Lower Saxony. His extensive experience includes international collaborations and memberships in esteemed academic societies like the Academy of Geosciences and Geotechnologies in Germany.

CONTRIBUTIONS AND RESEARCH FOCUS

Hou's expertise spans a wide array of critical areas including carbon neutralization, deep rock mechanics, hydraulic fracturing, and underground storage technologies. His contributions to the field encompass numerical modeling, risk assessment, and optimization techniques applied to various energy-related projects such as CCUS, geothermal energy, and shale gas extraction.

IMPACT AND INFLUENCE

Hou's impact extends beyond academia into industry collaborations, evident from his involvement in numerous projects funded by governmental agencies and industrial partners. His research publications and collaborative efforts reflect his influence in advancing sustainable energy solutions and enhancing understanding in complex geo-processes.

ACADEMIC CITATIONS

Hou's publications, notably in esteemed journals such as Gas Science and Engineering and Journal of Cleaner Production, have garnered significant attention within the academic community, as evidenced by citations in diverse fields ranging from geoscience to energy engineering.

LEGACY AND FUTURE CONTRIBUTIONS

As a prominent figure in rock mechanics and energy research, Hou's legacy lies in his multidisciplinary approach to addressing pressing global challenges such as climate change and energy transition. His future contributions are anticipated to further propel advancements in sustainable energy technologies and foster international collaborations for a greener future.

ROCK MECHANICS

Throughout his career, Michael Z. Hou has been a pivotal figure in the realm of rock mechanics, spearheading research initiatives and publishing extensively on topics ranging from hydraulic fracturing optimization to the thermo-hydro-mechanical-chemical coupling in geological processes. His profound expertise and contributions have significantly advanced the understanding and application of rock mechanics principles in various energy-related endeavors, solidifying his status as a leading authority in the field.

NOTABLE PUBLICATION

Numerical Study of the Hydraulic Fracturing and Energy Production of a Geothermal Well in Northern Germany.   2018 (2)

Innovative Methodology of On-Line Point Cloud Data Compression for Free-Form Surface Scanning Measurement.  2018(2)

An equivalent thermo-hydro-mechanical model for gas migration in saturated rocks.  2023 (1)

Outstanding Infrastructure Resilience Award

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Introduction: Charting the course for resilient futures! The Outstanding Infrastructure Resilience Award is a tribute to visionaries shaping infrastructure that stands strong in the face of challenges. Join us in celebrating those who forge resilient paths towards a sustainable and robust tomorrow.

About the Award: The Outstanding Infrastructure Resilience Award honors individuals, teams, or organizations demonstrating exceptional commitment to building and enhancing resilient infrastructure. This prestigious award applauds innovation, expertise, and a dedication to creating enduring structures that withstand the tests of time and adversity.

Eligibility: Open to individuals, organizations, and teams involved in infrastructure projects. Applicants must showcase exemplary leadership, innovation, and success in implementing resilience initiatives.

Age Limits: No age limits - this award welcomes contributions from individuals and teams at any stage of their career or project.

Qualifications: Applicants should possess relevant qualifications in engineering, architecture, or a related field, demonstrating a proven track record of successful infrastructure resilience projects.

Publications: While not mandatory, applicants are encouraged to submit publications or case studies that highlight the success and impact of their infrastructure resilience initiatives.

Requirements: Submission materials should include a comprehensive project overview, an abstract outlining key achievements, and supporting files that visually and narratively showcase the effectiveness and innovation in infrastructure resilience.

Evaluation Criteria: Entries will be evaluated based on the resilience, innovation, and transformative impact of the infrastructure projects on structural integrity and functionality.

Submission Guidelines: Refer to the detailed submission guidelines on our website to ensure your application provides a thorough overview of your infrastructure resilience achievements and aligns with the award criteria.

Recognition: Winners will receive the prestigious Outstanding Infrastructure Resilience Award, acknowledgment in industry publications, and opportunities for collaboration and networking.

Community Impact: Applicants should demonstrate a tangible positive impact on the community through their infrastructure resilience projects, fostering improved safety, sustainability, and resilience.

Bridge Rehabilitation Excellence Award

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Introduction: Step onto the path of transformation! The Bridge Rehabilitation Excellence Award honors the mastery and innovation behind revitalizing critical infrastructure. Join us in celebrating the visionaries who breathe new life into bridges, ensuring safety, sustainability, and longevity.

About the Award: The Bridge Rehabilitation Excellence Award recognizes individuals, engineers, or teams for outstanding achievements in rehabilitating and revitalizing bridges. This prestigious award applauds innovation, expertise, and a commitment to enhancing the structural integrity and functionality of vital transportation links.

Eligibility: Open to individuals, engineering firms, or teams involved in bridge rehabilitation projects. Applicants must showcase exemplary leadership, innovation, and success in executing rehabilitation initiatives.

Age Limits: No age limits - this award welcomes contributions from individuals and teams at any stage of their career or project.

Qualifications: Applicants should possess relevant qualifications in engineering or a related field and demonstrate a proven track record of successful bridge rehabilitation projects.

Publications: While not mandatory, applicants are encouraged to submit publications or case studies that highlight the success and impact of their bridge rehabilitation initiatives.

Requirements: Submission materials should include a comprehensive project overview, an abstract outlining key achievements, and supporting files that visually and narratively showcase the effectiveness and innovation in bridge rehabilitation.

Evaluation Criteria: Entries will be evaluated based on the innovation, efficiency, and transformative impact of the bridge rehabilitation projects on structural integrity and functionality.

Submission Guidelines: Refer to the detailed submission guidelines on our website to ensure your application provides a thorough overview of your bridge rehabilitation achievements and aligns with the award criteria.

Recognition: Winners will receive the prestigious Bridge Rehabilitation Excellence Award, acknowledgment in industry publications, and opportunities for collaboration and networking.

Community Impact: Applicants should demonstrate a tangible positive impact on the community through their bridge rehabilitation projects, fostering improved transportation, safety, and infrastructure resilience.

Best Sustainable Development Project Award

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Introduction: Embark on a journey of discovery and innovation! The Excellence in Research Award celebrates individuals who have made significant contributions to the world of research. Join us in recognizing and honoring those whose dedication propels the boundaries of knowledge.

About the Award: The Excellence in Research Award recognizes outstanding achievements in research across various disciplines. This prestigious award honors individuals who have demonstrated a commitment to excellence, innovation, and impactful contributions in their respective fields.

Eligibility: Open to individuals from all backgrounds and disciplines who have showcased exceptional dedication and achievements in their research endeavors.

Age Limits: No age limits - this award welcomes contributions from individuals at any stage of their career or academic journey.

Qualifications: Applicants should possess a relevant academic qualification and demonstrate a proven track record of impactful research contributions.

Publications: While not mandatory, applicants are encouraged to submit publications or research papers that highlight the significance and impact of their work.

Requirements: Submission materials should include a comprehensive biography, an abstract outlining key research achievements, and supporting files that showcase the depth and breadth of the nominee's research contributions.

Evaluation Criteria: Entries will be evaluated based on the quality, impact, and transformative potential of the nominee's research.

Submission Guidelines: Refer to the detailed submission guidelines on our website to ensure your application provides a thorough overview of your research achievements and aligns with the award criteria.

Recognition: Winners will receive the prestigious Excellence in Research Award, acknowledgment in industry publications, and opportunities for collaboration and networking.

Community Impact: Applicants should demonstrate a tangible positive impact on their research community and beyond, fostering growth, diversity, and the advancement of knowledge.

Excellence in Research Award

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Introduction: Embark on a journey of discovery and innovation! The Excellence in Research Award celebrates individuals who have made significant contributions to the world of research. Join us in recognizing and honoring those whose dedication propels the boundaries of knowledge.

About the Award: The Excellence in Research Award recognizes outstanding achievements in research across various disciplines. This prestigious award honors individuals who have demonstrated a commitment to excellence, innovation, and impactful contributions in their respective fields.

Eligibility: Open to individuals from all backgrounds and disciplines who have showcased exceptional dedication and achievements in their research endeavors.

Age Limits: No age limits - this award welcomes contributions from individuals at any stage of their career or academic journey.

Qualifications: Applicants should possess a relevant academic qualification and demonstrate a proven track record of impactful research contributions.

Publications: While not mandatory, applicants are encouraged to submit publications or research papers that highlight the significance and impact of their work.

Requirements: Submission materials should include a comprehensive biography, an abstract outlining key research achievements, and supporting files that showcase the depth and breadth of the nominee's research contributions.

Evaluation Criteria: Entries will be evaluated based on the quality, impact, and transformative potential of the nominee's research.

Submission Guidelines: Refer to the detailed submission guidelines on our website to ensure your application provides a thorough overview of your research achievements and aligns with the award criteria.

Recognition: Winners will receive the prestigious Excellence in Research Award, acknowledgment in industry publications, and opportunities for collaboration and networking.

Community Impact: Applicants should demonstrate a tangible positive impact on their research community and beyond, fostering growth, diversity, and the advancement of knowledge.

Innovations in Materials Engineering Award

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Introduction: Embark on a journey of materials innovation! The Innovations in Materials Engineering Award celebrates trailblazers who redefine possibilities in materials science. Join us in honoring those at the forefront of shaping the future through groundbreaking advancements in materials engineering.

About the Award: The Innovations in Materials Engineering Award recognizes individuals or teams for pioneering achievements in materials science and engineering. This prestigious award highlights breakthroughs that push the boundaries of what materials can achieve, impacting industries and fostering technological advancement.

Eligibility: Open to individuals, researchers, or teams engaged in materials engineering projects. Applicants must showcase exceptional leadership, innovation, and success in implementing cutting-edge materials solutions.

Age Limits: No age limits - this award welcomes contributions from individuals and teams at any career stage.

Qualifications: Applicants should hold a relevant qualification in materials science, engineering, or a related field, demonstrating a proven track record of successful materials innovation.

Publications: While not mandatory, applicants are encouraged to submit publications or case studies that highlight the success and impact of their materials engineering initiatives.

Requirements: Submission materials should include a comprehensive biography, an abstract outlining key materials engineering achievements, and supporting files that showcase the effectiveness and innovation in materials development.

Evaluation Criteria: Entries will be evaluated based on the novelty, impact, and transformative potential of the materials engineering innovations.

Submission Guidelines: Refer to the detailed submission guidelines on our website to ensure your application provides a thorough overview of your materials engineering achievements and aligns with the award criteria.

Recognition: Winners will receive the prestigious Innovations in Materials Engineering Award, acknowledgment in industry publications, and opportunities for collaboration and networking.

Community Impact: Applicants should demonstrate a tangible positive impact on industries or communities through their materials engineering projects, fostering growth, sustainability, and technological advancement.