Huiqiang Yang | Materials Engineering | Best Researcher Award

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Mr. Huiqiang Yang | Materials Engineering | Best Researcher Award

Ecole Polytechnique de Montreal, Canada

Huiqiang Yang is an accomplished materials engineer with a robust background in renewable energy systems, molten salt thermophysics, and advanced energy technologies. With more than a decade of experience spanning both academia and industry, he has become a specialist in modeling and optimizing energy systems, particularly those utilizing molten salts for thermal energy storage and concentrated solar power (CSP). Currently a Ph.D. candidate in Materials Engineering at École Polytechnique de Montréal, he is contributing to cutting-edge research in thermal conductivity modeling of complex salt mixtures under the supervision of experts at the Centre de Recherche en Calcul Thermochimique (CRCT), known for the development of FACTSAGE. Huiqiang has authored several impactful publications on predictive modeling of molten salt thermophysical properties in high-impact journals such as Solar Energy Materials and Solar Cells and Materials Today Energy. His diverse experiences include leading large-scale renewable energy projects as a senior project manager and developing international business strategies for green energy solutions. Fluent in Mandarin, French, and English, he seamlessly bridges technical expertise and cross-cultural collaboration. Huiqiang’s professional trajectory reflects a rare integration of scientific rigor, engineering application, and strategic foresight, making him a valuable asset to any advanced energy research and innovation endeavor.

Professional Profile

Education

Huiqiang Yang has cultivated a deep foundation in materials and energy engineering through an international academic journey. He is currently in the fourth year of his Ph.D. in Materials Engineering at École Polytechnique de Montréal, Canada, where he focuses on the thermophysical modeling of molten salts for advanced energy applications. His doctoral research, conducted at the renowned CRCT laboratory—home to the FACTSAGE thermochemical software—integrates modified kinetic theory and quasi-chemical models to predict thermal conductivity in multicomponent molten salt systems, particularly those with short-range ordering. His scholarly contributions are evidenced by first-author publications in top-tier journals including Solar Energy, Materials Today Energy, and Solar Energy Materials and Solar Cells. Prior to this, Huiqiang obtained a Master’s degree in Energy Engineering in 2017 with a concentration in renewable energy. His academic roots trace back to the University of Perpignan in France, where he earned a Master’s in Solar Energy and a Bachelor’s degree in Energy and Materials between 2008 and 2012. His educational background is marked by a consistent focus on solar and thermal energy technologies, underlining his commitment to sustainable energy systems and materials innovation.

Professional Experience

Huiqiang Yang brings extensive industrial experience in renewable energy systems, particularly in molten salt thermal storage and power tower technologies. From 2013 to 2020, he worked as a Research Engineer and Senior Project Manager at Shouhang High-Tech Energy Co., Ltd. in Beijing, China. He led the design and numerical modeling of two landmark CSP projects: a 10MW pilot-scale molten salt tower with 15-hour thermal storage, and a 100MW commercial-scale facility with 11-hour (1100MWh) NaNO₃-KNO₃-based storage. His responsibilities included thermal and process modeling, material selection, equipment specification, system dimensioning, and on-site supervision during construction and commissioning. His engineering reports and P&IDs were critical for project execution. Between 2015 and 2017, he also served as a Project Manager for Shouhang European S.L. in Madrid, Spain. There, he developed European market strategies, supported engineering and procurement tasks, and oversaw project execution under tight time and budget constraints. His dual role in technical leadership and business development reflects his interdisciplinary capabilities and global perspective. Huiqiang’s experience positions him at the nexus of innovation, execution, and international collaboration in the renewable energy sector.

Research Interest

Huiqiang Yang’s research interests lie at the intersection of materials science, thermochemistry, and renewable energy engineering, with a specific focus on molten salts for high-temperature thermal applications. His current Ph.D. work explores predictive models for thermal conductivity in multicomponent molten salt mixtures—materials vital for thermal energy storage in concentrated solar power (CSP) systems and nuclear reactors. He applies advanced thermodynamic frameworks such as the Modified Quasi-chemical Model in the Quadruplet Approximation, enabling accurate modeling of short-range interactions in reciprocal salt systems. Beyond thermal conductivity, his research delves into energy-material interaction mechanisms, phase equilibria, and the integration of molten salt systems into next-generation power infrastructures. He is particularly interested in how data-driven simulations and computational thermochemistry can enhance the design and efficiency of renewable energy systems. With previous hands-on experience in CSP project execution and thermal system design, Huiqiang’s research is grounded in practical relevance and industrial scalability. His overarching aim is to develop reliable and efficient energy materials and processes that support global energy transition goals. Through interdisciplinary collaboration and scientific rigor, he seeks to bridge fundamental research and real-world energy challenges.

Research Skills

Huiqiang Yang possesses a comprehensive set of research skills that span theoretical modeling, experimental design, computational simulation, and technical reporting. He is proficient in thermodynamic and kinetic modeling of molten salt systems, particularly using the FACTSAGE software platform, for which he is actively contributing at the CRCT lab. His skill set includes developing and implementing advanced models such as the Modified Quasi-chemical Model and the kinetic theory of thermal conductivity, enabling accurate predictions of thermophysical properties in multicomponent systems. He is well-versed in numerical tools like MATLAB, Python, and COMSOL Multiphysics for process modeling and simulation. In addition, Huiqiang has deep knowledge in phase diagram analysis, energy balance calculations, and the design of thermal systems, thanks to his years of industrial experience. He is adept at preparing technical documentation, including process flow diagrams (PFDs), piping and instrumentation diagrams (P&IDs), and engineering reports. His strong project management skills complement his technical expertise, allowing him to coordinate interdisciplinary teams and deliver on complex research and industrial objectives. Huiqiang also has experience presenting at conferences and publishing in high-impact journals, underscoring his capability in scientific communication and dissemination.

Awards and Honors

While specific awards are not detailed in the provided data, Huiqiang Yang’s profile reflects substantial recognition in both academic and professional domains. His selection into the prestigious Ph.D. program at École Polytechnique de Montréal, with research conducted at the globally recognized CRCT lab (a FACTSAGE developer), underscores his academic merit. The publication of multiple first-author articles in leading journals such as Solar Energy, Solar Energy Materials and Solar Cells, and Materials Today Energy serves as an acknowledgment of the high impact and originality of his research. In industry, Huiqiang rose to the position of Senior Project Manager at Shouhang High-Tech Energy Co., Ltd., where he led the development of China’s commercial-scale CSP facilities—projects considered pioneering in molten salt technology. His transition from technical roles in China to project leadership in Spain illustrates his international credibility and leadership capacity. Moreover, his multilingual abilities and capacity to work across continents in multicultural environments are professional strengths often valued in award evaluations. Collectively, these achievements point to a professional career marked by excellence, innovation, and international impact in the renewable energy field.

Conclusion

Huiqiang Yang exemplifies the ideal fusion of technical mastery, academic innovation, and real-world engineering expertise in the domain of advanced energy systems. With an educational foundation grounded in solar and materials engineering, and hands-on experience managing large-scale molten salt thermal energy projects, he brings a unique perspective to both research and implementation. His doctoral research at École Polytechnique de Montréal is pushing the frontiers of thermal conductivity modeling for multicomponent molten salt systems—critical to the future of CSP and next-generation nuclear technologies. Huiqiang’s ability to bridge theoretical modeling and practical applications is a rare and valuable asset. His publications in reputed journals and leadership roles in international energy projects demonstrate both depth and breadth of expertise. Fluent in three languages and experienced across China, Europe, and North America, he thrives in interdisciplinary, multicultural environments. Going forward, Huiqiang aspires to contribute to the development of sustainable energy infrastructures through materials innovation and system-level integration. His trajectory reflects not only technical competence but also vision, adaptability, and a commitment to solving global energy challenges. He stands out as a promising leader in the field of sustainable energy and advanced materials science.

Publications Top Notes

Title: Extending the kinetic theory‑based thermal conductivity model to reciprocal molten salt mixtures with short‑range ordering via the Modified Quasi‑chemical Model in the Quadruplet Approximation

Authors: Huiqiang Yang, Anh Thu Phan, Aimen E. Gheribi, Patrice Chartrand
Year: 2025

Yeye Ai | Material Science | Best Researcher Award

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Dr. Yeye Ai | Material Science | Best Researcher Award

Lecturer at Hangzhou Normal University, China

Dr. Yeye Ai is a dedicated and innovative researcher currently serving as a Lecturer at the College of Material, Chemistry and Chemical Engineering, Hangzhou Normal University. With a strong foundation in functional metal-organic complexes, Dr. Ai has built a distinguished academic and research career characterized by creativity, perseverance, and impact. She obtained her Ph.D. from Sun Yat-Sen University in 2020 under the guidance of the esteemed Prof. Vivian Wing-Wah Yam. Her early academic excellence and passion for research led to a Research Associate position at the University of Hong Kong in Prof. Yam’s group from June to December 2018. Dr. Ai’s primary research interests include the design and synthesis of multi-stimuli responsive materials and optical switches, where her work contributes significantly to optical visualization and sensing applications. She has published over 20 peer-reviewed articles, holds several patents, and actively engages in collaborative projects such as the Hangzhou Leading Innovation and Entrepreneurship Team initiative. As a Guest Editor for the journal Polymers and a member of the Chinese Chemical Society since 2015, Dr. Ai maintains active engagement in the scientific community. Her profile reflects a blend of academic rigor, research excellence, and a commitment to innovation in chemical sciences.

Professional Profiles

Education

Dr. Yeye Ai’s academic journey reflects a strong commitment to excellence in chemistry and materials science. She earned her Ph.D. from the prestigious Sun Yat-Sen University in 2020, where she studied under the mentorship of renowned chemist Prof. Vivian Wing-Wah Yam. Her doctoral research focused on the synthesis and application of functional metal-organic complexes for use in optical visualization and stimuli-responsive systems, an area in which she continues to innovate. During her Ph.D. studies, Dr. Ai gained international experience by working as a Research Associate in Prof. Yam’s laboratory at the University of Hong Kong from June to December 2018. This experience significantly broadened her exposure to advanced research methodologies and international collaboration. The combination of rigorous academic training and exposure to leading research environments provided her with a solid foundation for her current research. Her academic work is characterized by interdisciplinary thinking, integrating concepts from chemistry, material science, and photophysics. Dr. Ai continues to build on this strong educational background in her current role as a Lecturer, mentoring students and pursuing advanced research in optical materials. Her education has been instrumental in shaping her into a forward-thinking scientist committed to contributing meaningfully to the field of chemical research.

Professional Experience

Dr. Yeye Ai brings a diverse and accomplished background in academic and research settings to her current position as Lecturer at the College of Material, Chemistry and Chemical Engineering, Hangzhou Normal University. Since joining the institution, she has contributed extensively to both teaching and research, guiding students through complex chemical concepts while also leading independent research projects in optical sensing and visualization. Her academic career began with a significant research position as a Research Associate in Prof. Vivian Wing-Wah Yam’s laboratory at the University of Hong Kong in 2018. This role enabled her to engage in high-impact research and collaborate with leading scientists in the field of photofunctional materials. In her current role, Dr. Ai has led three major research projects and has collaborated on an industry consultancy initiative, highlighting her ability to bridge academic knowledge with real-world applications. She has published 22 SCI-indexed journal articles, authored a book, and holds six patents either granted or under review. Additionally, her editorial work as a Guest Editor for Polymers reflects her growing influence in the academic community. Her commitment to mentorship, research excellence, and innovation underscores her valuable contributions to the academic and scientific landscapes.

Research Interest

Dr. Yeye Ai’s research centers on the development and application of optical switches and multi-stimuli responsive materials, with a particular focus on the rational design of metal-organic complexes and spiropyran-derived photoswitches. Her work aims to understand and manipulate materials that exhibit reversible changes in optical properties when subjected to external stimuli such as light, pH, or temperature. This includes designing systems that can serve as sensors, memory devices, or encryption platforms through dynamic supramolecular assemblies. A key highlight of her research is the development of triplet-sensitized photochromic switches, which exhibit enhanced photostability and fatigue resistance—an innovation that addresses longstanding challenges in optical materials science. Her research also explores the visualization of molecular motion, advancing the fundamental understanding of dynamic behavior in responsive materials. Dr. Ai’s work is highly interdisciplinary, integrating chemistry, materials science, and photophysics, and aims to deliver both theoretical insights and practical applications. Through her collaboration with the Hangzhou Leading Innovation and Entrepreneurship Team project and her active membership in the Chinese Chemical Society, she contributes to pushing the boundaries of material functionality and optical technologies. Her vision is to harness responsive materials for smarter, more efficient technological systems in imaging, sensing, and information storage.

Research Skills

Dr. Yeye Ai possesses a robust and versatile skill set that underpins her research excellence in the fields of materials chemistry and photofunctional systems. Her expertise lies in the synthesis and structural characterization of metal-organic complexes and multi-responsive molecular assemblies. She is proficient in using a broad spectrum of analytical tools such as NMR spectroscopy, UV-Vis absorption and emission spectroscopy, and X-ray crystallography to study the physicochemical behavior of functional materials. Additionally, her work frequently involves photophysical investigations, including time-resolved spectroscopy and studies of triplet-sensitized photochromism, which are crucial for evaluating the performance and stability of optical switches. Dr. Ai also demonstrates strong skills in molecular design and supramolecular chemistry, allowing her to engineer stimuli-responsive behaviors into spiropyran derivatives and other chromophoric systems. Her ability to integrate synthetic chemistry with advanced optical analysis supports her development of innovative sensing platforms and visualization tools. She has also authored a book and contributed to over 20 publications in top-tier journals, which reflects her capabilities in scientific writing and data interpretation. Her experience in patent filing and collaborative projects further highlights her practical understanding of translational research. These skills make her a valuable contributor to cutting-edge developments in chemical materials science.

Awards and Honors

Dr. Yeye Ai’s promising academic trajectory and impactful research have earned her notable recognition within the scientific community. Although early in her independent academic career, her accomplishments in the development of optical switches and stimuli-responsive materials have already positioned her as a leader in this niche area of materials science. Her published book, recognized by its ISBN (978-9811068812), reflects her ability to contribute to educational and technical literature. With a citation h-index of 11, she has demonstrated consistent scholarly influence through her 22 peer-reviewed publications, many of which appear in reputable SCI-indexed journals. Furthermore, she has successfully secured six patents, which highlights the originality and application potential of her work. Dr. Ai also holds the role of Guest Editor for the journal Polymers, a recognition of her academic standing and editorial capabilities. Her selection for collaboration in the Hangzhou Leading Innovation and Entrepreneurship Team Project underscores the real-world relevance and industrial potential of her research. She is a long-standing member of the Chinese Chemical Society (CCS) since 2015, further reflecting her professional engagement in the field. As a candidate for the Best Researcher Award, Dr. Ai exemplifies the criteria of innovation, productivity, and dedication to scientific advancement.

Conclusion

Dr. Yeye Ai exemplifies the profile of a forward-thinking academic who seamlessly blends scientific innovation with practical application. With a solid academic foundation rooted in her doctoral studies under Prof. Vivian Wing-Wah Yam, she has emerged as a promising leader in the development of functional materials and optical technologies. Her independent research, focusing on multi-stimuli responsive materials and optical switches, not only contributes to the advancement of material sciences but also holds significant promise for real-world applications in sensing, imaging, and information technology. Dr. Ai’s professional journey is marked by academic rigor, international collaboration, and a proactive engagement in interdisciplinary research. Her contributions—spanning publications, patents, editorial duties, and innovation projects—demonstrate a commitment to both the scientific community and society at large. In her role as a Lecturer at Hangzhou Normal University, she continues to inspire the next generation of scientists while pushing the boundaries of chemical research. As she looks toward further academic and professional accomplishments, Dr. Ai remains committed to solving complex challenges through intelligent material design and functional innovation. Her career stands as a testament to dedication, creativity, and the pursuit of scientific excellence.

 Publications Top Notes

1. Title: A stereodynamic probe of Pt(II) molecular hinge for chiroptical sensing of cryptochiral compounds

Authors: Yeye Ai, Yinghao Zhang, Ying Jiang, Guilin Zhuang, Yongguang Li

Year: 2025

Citations: 1

2. Title: ATP-induced supramolecular assembly based on chromophoric organic molecules and metal complexes

Authors: Zhu Shu, Xin Lei, Yeye Ai, Zhegang Huang, Yongguang Li

Citations: 7