Tag: Rising Star in Materials Award

Moshe Ben Shalom | Materials Science | Best Researcher Award

Published on by World Science Awards

Assoc. Prof. Dr. Moshe Ben Shalom | Materials Science | Best Researcher Award

Tel Aviv University | Israel

Assoc. Prof. Dr. Moshe Ben Shalom is a distinguished academic and researcher recognized for his significant contributions to science, technology, and education. His career reflects a blend of scientific excellence, innovative research, and impactful teaching. With an unwavering dedication to advancing knowledge, he has established himself as an authority in his field and continues to influence both the academic community and industry practices. His works span across multiple disciplines, reflecting a highly interdisciplinary approach that bridges theory with practical application. Beyond research, he is deeply committed to mentoring students, fostering international collaborations, and contributing to the development of innovative methodologies and solutions. Dr. Ben Shalom has consistently demonstrated leadership in academic initiatives and professional organizations, showcasing a strong ability to drive impactful change. His role as an educator and researcher has enabled him to inspire future generations of scientists while contributing meaningfully to global knowledge. With an impressive track record of publications, professional memberships, and recognition, he stands as a model scholar and leader in his discipline. His academic journey reflects not only personal achievement but also a broader commitment to advancing society through science and education.

Professional Profile

Education

Assoc. Prof. Dr. Moshe Ben Shalom has pursued a comprehensive academic path that laid a strong foundation for his distinguished career. He completed undergraduate studies in core scientific disciplines, which provided him with essential knowledge in theoretical and applied sciences. His graduate studies expanded into specialized areas, focusing on advanced concepts in physics, chemistry, and materials science. During his doctoral training, he engaged in high-level research that integrated rigorous experimentation with innovative theoretical frameworks. This stage of his education allowed him to develop a deep understanding of scientific methods and the ability to design and conduct impactful research. Throughout his academic journey, he gained extensive exposure to interdisciplinary studies, which later shaped his research philosophy of combining multiple scientific approaches to solve complex problems. His education also involved international training opportunities, exposing him to diverse scientific environments and collaborations. This combination of structured learning and independent research instilled in him a strong sense of academic curiosity and professional discipline. Today, his educational background serves as a cornerstone of his research and teaching philosophy, enabling him to guide students and colleagues while contributing to the advancement of science on a global scale.

Professional Experience

Assoc. Prof. Dr. Moshe Ben Shalom has built an extensive professional portfolio characterized by academic leadership, innovative research, and global collaboration. He has held teaching and research positions at leading universities, where he combined classroom instruction with active laboratory work. His professional roles encompass not only academic teaching but also mentoring graduate and doctoral students, guiding them in cutting-edge research projects. He has played a pivotal role in establishing international collaborations, working with scientists from diverse backgrounds to develop solutions for emerging scientific challenges. His expertise extends beyond academia into advisory roles for research institutions and organizations, where his insights have shaped projects with societal and industrial relevance. He has been actively involved in peer reviewing for high-impact journals and conferences, contributing to the integrity of scholarly communication. Additionally, he has participated in organizing academic events, workshops, and conferences, promoting interdisciplinary dialogue and innovation. His professional journey reflects a balance between leadership responsibilities and continuous contributions to scientific advancement. Through his experience, Dr. Ben Shalom has demonstrated the ability to integrate research excellence with educational impact, ensuring that his work benefits both the academic community and broader society.

Research Interests

Assoc. Prof. Dr. Moshe Ben Shalom’s research interests span a wide spectrum of advanced scientific fields, reflecting his interdisciplinary approach and commitment to addressing global challenges. His primary focus lies in materials science, nanotechnology, and applied physics, with a particular interest in developing novel materials for technological applications. He explores areas such as electronic devices, quantum phenomena, and advanced biomaterials, seeking to design systems that contribute to sustainable technological growth. His interests also extend into the interface of physics and biology, investigating molecular interactions and their applications in medicine and diagnostics. Dr. Ben Shalom actively engages with emerging research areas that bridge theoretical frameworks with experimental innovation, making his work highly adaptable to evolving scientific needs. He is particularly drawn to projects that involve cross-disciplinary collaborations, leveraging expertise from multiple fields to address complex questions. His long-term goal is to create practical applications from fundamental research, ensuring that discoveries translate into societal benefits. These research interests highlight his vision of combining deep scientific exploration with real-world problem-solving, positioning him as a leader in driving research that impacts both academia and industry.

Research Skills

Assoc. Prof. Dr. Moshe Ben Shalom possesses an impressive set of research skills that reflect his academic training, professional experience, and innovative mindset. He is highly skilled in experimental design, laboratory methodologies, and advanced data analysis, enabling him to generate reliable and impactful results. His expertise covers a range of techniques in nanotechnology, material characterization, spectroscopy, and molecular modeling. He is adept at employing computational tools alongside experimental research, ensuring that his findings are both theoretically robust and practically applicable. Collaboration is a key strength, as he frequently integrates multidisciplinary perspectives into his projects, combining physics, chemistry, biology, and engineering methods. Dr. Ben Shalom also demonstrates strong skills in scientific communication, evident in his ability to publish in high-impact journals and present at international conferences. His proficiency in supervising research teams, mentoring students, and managing collaborative projects further underscores his leadership in research. Additionally, he has experience in securing competitive research funding, reflecting his ability to align scientific goals with institutional priorities. Collectively, these skills not only strengthen his own research portfolio but also empower the broader scientific community through shared expertise and innovative contributions.

Awards and Honors

Assoc. Prof. Dr. Moshe Ben Shalom has received multiple awards and honors in recognition of his exceptional contributions to science and academia. These accolades highlight his research excellence, innovative discoveries, and leadership within the academic community. He has been recognized by professional associations, universities, and research organizations for his achievements in interdisciplinary research. Awards have acknowledged both his scholarly publications and his impact on education through mentoring and student guidance. International recognition has further strengthened his reputation as a leading researcher, with invitations to serve on editorial boards and participate in global academic networks. His honors also reflect the broader societal value of his work, particularly where scientific research intersects with practical applications in technology and healthcare. Through these recognitions, Dr. Ben Shalom has demonstrated not only academic excellence but also a consistent commitment to contributing knowledge that advances science and benefits society. His awards symbolize the trust placed in him by both colleagues and institutions, reaffirming his status as a respected scholar and a leader in his field.

Publication Top Notes

  • Shaping exciton polarization dynamics in 2D semiconductors by tailored ultrafast pulses — 2025

  • Polytype switching by super-lubricant van der Waals cavity arrays — 2025 — 7 citations

  • Sliding van der Waals polytypes — 2025 — 11 citations

  • Polarization Saturation in Multilayered Interfacial Ferroelectrics — 2024 — 17 citations

Conclusion

Assoc. Prof. Dr. Moshe Ben Shalom stands as an accomplished academic whose work continues to shape scientific progress and educational excellence. His career embodies a rare combination of deep research expertise, professional leadership, and a vision for future innovation. By contributing groundbreaking research in materials science, nanotechnology, and interdisciplinary studies, he has advanced both fundamental knowledge and practical applications. His commitment to education through mentorship and academic service reflects his dedication to nurturing the next generation of scientists. Recognized through awards, professional memberships, and international collaborations, his influence extends well beyond his institution, impacting the global scientific community. Looking forward, Dr. Ben Shalom is poised to expand his contributions by engaging in new research initiatives, fostering global partnerships, and advancing leadership roles in academic organizations. His achievements to date provide a strong foundation for continued excellence, ensuring that his future work will further enhance scientific knowledge and societal development. With his proven record of innovation and leadership, he is deserving of recognition as a distinguished researcher and academic leader of international stature.

Zheng Huang | Materials Science | Best Researcher Award

Published on by World Science Awards

Assoc. Prof. Dr. Zheng Huang | Materials Science | Best Researcher Award

Assistant Dean from College of Pharmacy, Chongqing University of Arts and Sciences, China

Dr. Zheng Huang is an Associate Professor at the School of Pharmacy and the International Research Institute for Targeted Medicine, Chongqing University of Arts and Sciences. He specializes in the development of multifunctional nanomedicines for the treatment of cancers, focusing particularly on bioenergetic modulation and targeted delivery mechanisms. His work integrates the principles of chemical biology and pharmaceutical nanotechnology to address critical challenges such as multidrug resistance. With a research trajectory that includes a strong foundation in chemistry, advanced training in chemical biology, and academic positions that have steadily progressed from lecturer to associate professor, Dr. Huang has emerged as a prominent young scientist in the field of precision medicine. His innovative research has led to several peer-reviewed publications and a granted patent in China. In addition to being a principal investigator of a competitively funded project supported by the Chongqing Science and Technology Bureau, he actively contributes to the design and synthesis of mitochondria-targeted therapeutics. His efforts have significantly advanced cancer therapy research through novel nanoplatforms and drug delivery mechanisms. With a clear commitment to academic excellence and impactful research, Zheng Huang is a notable contributor to pharmaceutical sciences and biomedical engineering.

Professional Profile

Education

Dr. Zheng Huang pursued his academic training at Sichuan University, one of China’s top-tier research institutions. He completed his Bachelor of Science degree in Chemistry in 2013, where he gained a solid grounding in chemical principles and laboratory techniques. Building upon this foundation, he enrolled in a doctoral program in Chemical Biology at the same university and successfully earned his Ph.D. in June 2018. During his doctoral studies, Dr. Huang engaged in multidisciplinary research that bridged chemistry, biology, and medical applications, setting the stage for his future career in pharmaceutical nanotechnology. His academic training emphasized the synthesis of bioactive compounds, structure-activity relationship studies, and the development of drug delivery systems. This comprehensive education allowed him to develop the theoretical understanding and practical expertise required for innovative research in targeted therapy. The combination of a rigorous undergraduate curriculum and a research-intensive doctoral program equipped him with the skills and knowledge to tackle complex biomedical challenges. Dr. Huang’s academic background continues to influence his current research, providing a strong theoretical and experimental basis for his work on novel drug delivery platforms and cancer therapies. His educational journey has been pivotal in shaping his contributions to biomedical research.

Professional Experience

Dr. Zheng Huang has cultivated a progressive academic career at Chongqing University of Arts and Sciences, particularly within the School of Pharmacy and the International Research Institute for Targeted Medicine. He began his tenure as a Lecturer in July 2018, focusing on pharmaceutical sciences and targeted drug delivery. His appointment was extended from July 2019 to December 2023, reflecting his consistent contributions to teaching and research. In January 2024, he was promoted to the rank of Associate Professor, signifying recognition of his academic achievements and growing leadership in research. Concurrently, he has been a Postdoctoral Fellow at the Chongqing Academy of Chinese Materia Medica since November 2021, further advancing his research in traditional and modern drug systems. Across these roles, Dr. Huang has taken a proactive role in designing and executing research projects, mentoring students, and publishing influential studies. His positions reflect a consistent upward trajectory grounded in scientific rigor and academic service. His interdisciplinary affiliations have enabled him to explore advanced materials, nanotherapeutics, and drug delivery innovations. With dual roles in academia and postdoctoral research, Dr. Huang continues to bridge theoretical advancement and real-world applications, contributing meaningfully to both pharmaceutical education and translational medicine.

Research Interests

Dr. Zheng Huang’s research interests lie at the intersection of nanomedicine, targeted drug delivery, and cancer bioenergetics. He is particularly focused on the design and synthesis of multifunctional nanoplatforms capable of precisely delivering therapeutics to mitochondria within cancer cells. His investigations aim to reverse multidrug resistance through bioenergetic manipulation and redox-responsive systems. Leveraging chemical biology principles, Dr. Huang designs smart drug delivery systems that can respond to the unique microenvironment of tumors, such as elevated reactive oxygen species (ROS) levels or pH changes. His recent work includes developing CPI-613-loaded nanocarriers and co-delivery systems for chemo-photodynamic therapies. These approaches aim not only to enhance drug efficacy but also to minimize off-target toxicity and reduce side effects. Moreover, his work on combining glutathione inhibitors with mitochondria-targeted agents has opened new avenues in photodynamic therapy. Dr. Huang’s interest in structure–activity relationships, gene vectors, and non-viral delivery mechanisms also contributes to the broader field of precision medicine. His research is highly translational, addressing urgent clinical problems while innovating at the molecular level. With an emphasis on therapeutic efficiency and safety, Dr. Huang continues to explore advanced strategies for improving treatment outcomes in breast, pancreatic, and other aggressive cancers.

Research Skills

Dr. Zheng Huang possesses a comprehensive set of research skills that span synthetic chemistry, nanomaterials engineering, and biomedical application development. He is proficient in designing mitochondria-targeted drug delivery systems, with demonstrated success in creating ROS-responsive and bioenergetically active nanocarriers. His expertise includes the fabrication and characterization of nanoparticles, liposomes, and bolasomes for use in cancer therapies. Dr. Huang has strong capabilities in cell culture, fluorescence imaging, cytotoxicity assays, and mitochondrial function analysis, enabling him to evaluate the therapeutic effects of his delivery systems in vitro and in vivo. His proficiency in techniques such as dynamic light scattering (DLS), transmission electron microscopy (TEM), and UV-Vis spectroscopy allows for the precise evaluation of nanostructures and drug release kinetics. Additionally, his understanding of structure–activity relationships informs his rational design of drug molecules and carriers. Dr. Huang is experienced in drafting patents, writing scientific articles, and managing funded research projects, including grant applications and experimental design. His skill set bridges theory and practice, making him well-equipped to develop next-generation nanomedicines. By integrating chemical synthesis with biological evaluation, Dr. Huang continues to contribute meaningfully to the advancement of targeted cancer therapy technologies.

Awards and Honors

While Dr. Zheng Huang has not yet received national academic awards or fellowships, his accomplishments reflect emerging leadership in pharmaceutical nanotechnology. One of his significant achievements includes being the Principal Investigator of a competitively funded research project supported by the Chongqing Science and Technology Bureau under the Chongqing Talent Program. This three-year project, titled “Construction of a multifunctional nanodrug delivery system with controllable energy metabolism for reversing multidrug resistance,” received 100,000 RMB and is currently ongoing from October 2023 to September 2026. In addition, Dr. Huang has successfully secured a Chinese national patent (ZL202110912678.7) for a mitochondria-targeted drug based on CPI-613, highlighting his innovation in targeted cancer therapy. His authorship roles in multiple high-impact journal publications as both sole first author and sole corresponding author further signify his independent research strength and thought leadership. Although national or international honors are yet to be received, the quality and relevance of his contributions suggest strong potential for future recognition. His dedication to solving real-world medical problems through scientific innovation makes him a promising candidate for broader academic and professional accolades.

Conclusion

Dr. Zheng Huang exemplifies the qualities of an emerging leader in targeted drug delivery and pharmaceutical nanotechnology. With a rigorous academic background, progressive professional trajectory, and a growing portfolio of high-impact research, he demonstrates strong potential and scientific merit. His work on mitochondria-targeted therapies and ROS-responsive nanoplatforms addresses some of the most pressing challenges in oncology, such as drug resistance and treatment precision. As a principal investigator of a talent-funded project and the holder of a granted national patent, Dr. Huang’s innovative contributions extend from bench to potential clinical applications. While there is room for expanding his international presence and securing national-level funding such as from NSFC, his current achievements place him among the noteworthy young researchers in biomedical sciences. His publications reflect both technical excellence and relevance to critical health issues. With further support and visibility, Dr. Huang is well-positioned to make significant advances in precision medicine. Based on the evaluation of his academic profile, research outputs, and leadership in innovation, Zheng Huang is a highly suitable nominee for the Best Researcher Award, capable of contributing meaningfully to both scientific discovery and therapeutic development.

Publications Top Notes

1. Novel co‑delivery nanomedicine for photodynamic enlarged immunotherapy by cascade immune activation and efficient immunosuppression reversion

  • Year: 2024 (published Nov 1, 2024)

  • Journal: Bioorganic Chemistry (Volume 153, Article 107978)

  • Authors: Yimei Zhang, Shiyi Xiang, Yayi Wu, Can Yang, Zhongzhu Chen, Dianyong Tang, Zheng Huang

2. Multifunctional Novel Nanoplatform for Effective Synergistic Chemo‑Photodynamic Therapy of Breast Cancer by Enhancing DNA Damage and Disruptions of Its Reparation

  • Year: 2023

  • Journal: Molecules (Basel, Switzerland)

  • Authors: Zheng Huang, Tong Xian, Xiangyi Meng, Huaisong Hu, Yimei Zhang 

3. Carrier‑free nanomedicines self‑assembled from palbociclib dimers and Ce6 for enhanced combined chemo‑photodynamic therapy of breast cancer

  • Year: 2023 (first published January 9, 2023)

  • Journal: RSC Advances

  • Authors: Zheng Huang, Huaisong Hu, Tong Xian, Zhigang Xu, Dianyong Tang, Bochu Wang, Yimei Zhang

 

Xiangyang Zhou | Materials Science | Best Researcher Award

Published on by World Science Awards

Prof. Dr. Xiangyang Zhou | Materials Science | Best Researcher Award

Professor from University of Miami, United States

Dr. Xiangyang Zhou is a seasoned Professor of Materials Science and Engineering at the University of Miami, with a distinguished academic and research career spanning over three decades. His work is recognized internationally, particularly for his contributions to the development of advanced materials for solid-state energy storage systems. With a research emphasis on supercapacitors, polymer electrolytes, and mediator-enhanced energy storage devices, Dr. Zhou has played a pivotal role in advancing the understanding and application of electrochemical energy conversion technologies. His academic journey began in China and continued in the United Kingdom, culminating in a Ph.D. in Materials Science and Engineering. Over the years, he has published extensively in reputed peer-reviewed journals and collaborated on interdisciplinary projects that blend experimental techniques with computational modeling. Dr. Zhou has held prominent positions in academia and research institutes, contributing not only as a scholar but also as a mentor to emerging scientists. His current work focuses on the development of novel composite materials for high-performance, low-temperature solid-state supercapacitors. Known for his methodical and innovative research approach, Dr. Zhou continues to influence the direction of materials science with his commitment to both fundamental studies and applied research.

Professional Profile

Education

Dr. Xiangyang Zhou has a solid educational foundation in physics and materials science, having completed his academic training across some of the most respected institutions in China and the United Kingdom. He earned his Bachelor of Science in Physics from Wuhan University in Hubei, China in July 1984. This early training laid a strong foundation in the physical sciences, providing a gateway to more specialized research in materials engineering. Following his undergraduate education, Dr. Zhou pursued a Master of Science in Materials Science and Engineering at the Institute of Corrosion and Protection of Metals, part of the Academy of Science in Shenyang, China, completing it in July 1988. His graduate work focused on the corrosion behavior of metals, a critical issue in materials durability. To further his expertise, Dr. Zhou undertook doctoral studies at the University of Newcastle Upon Tyne in the United Kingdom, where he received his Ph.D. in Materials Science and Engineering in April 1996. His doctoral research provided him with in-depth knowledge of material behavior at both the micro and macro scales, preparing him for a successful and impactful research career in advanced materials and energy systems.

Professional Experience

Dr. Zhou has a rich and varied professional background in academic and applied research settings. Since 2005, he has served as a Professor at the University of Miami in Coral Gables, Florida, where he leads research initiatives in materials science and electrochemical energy storage systems. His long-standing tenure at the University of Miami reflects his sustained contributions to education, mentorship, and research excellence. Prior to his current position, he held concurrent roles between 2002 and 2005 as a Senior Scientist at the Applied Research Institute and a Research Scientist at the Applied Research Center at Florida International University. These roles allowed him to engage in application-driven research projects and collaborate with industry and governmental stakeholders. From 1996 to 2002, Dr. Zhou worked as a Research Associate at Pennsylvania State University’s Center of Advanced Materials, where he focused on pioneering materials simulation and experimental validation. His early career included a role as an Assistant Researcher at the Institute of Corrosion and Protection of Metals under the Academy of Science in Shenyang, China. Throughout his career, Dr. Zhou has integrated academic excellence with real-world research experience, positioning him as a leader in the development of innovative materials and energy technologies.

Research Interest

Dr. Xiangyang Zhou’s research interests lie at the intersection of materials science, electrochemistry, and energy storage technologies. He is particularly focused on the design, synthesis, and characterization of polymer-based solid-state electrolytes and mediator-enhanced supercapacitors. His work seeks to address critical challenges in energy storage systems, such as improving ionic conductivity, enhancing energy density, and ensuring operational stability at low temperatures. Dr. Zhou is also interested in the molecular mechanisms of proton transport in water and polymeric systems, and his investigations often bridge theoretical simulation with experimental methods. Over the years, he has developed novel polymer membranes, such as polyvinylidene fluoride/lithium trifluoromethanesulfonate systems, which show significant promise for next-generation energy devices. His research is deeply interdisciplinary, integrating principles from physics, chemistry, and materials engineering. In addition to applied device development, Dr. Zhou explores the fundamental electrochemical and spectroscopic properties of materials, employing in situ characterization methods to monitor changes during operation. This comprehensive approach enables him to tackle real-world challenges in energy conversion and storage, while also contributing to fundamental scientific understanding. His research continues to make meaningful contributions to the fields of nanomaterials, energy systems, and green technology.

Research Skills

Dr. Xiangyang Zhou possesses a wide range of technical and analytical research skills that have supported his extensive contributions to the field of materials science. He is adept at both experimental and computational techniques, including ab initio simulations, atomistic modeling, and X-ray absorption spectroscopy. These tools have enabled him to explore conduction and diffusion processes at the atomic level in various polymer electrolyte systems. Dr. Zhou also demonstrates expertise in electrochemical analysis, such as cyclic voltammetry and electrochemical impedance spectroscopy, which he uses to characterize the performance of solid-state supercapacitors and mediator-assisted devices. In terms of materials synthesis, he has experience with the fabrication of polymer composite membranes and the development of nanoporous electrodes. His skills further extend to in situ spectroscopic techniques that allow for real-time monitoring of material behavior under operating conditions. Dr. Zhou’s ability to integrate these skills within a coherent research framework has led to high-impact studies in reputable journals. His strong command of materials characterization tools and simulation software places him at the forefront of materials innovation, particularly in the rapidly evolving domain of energy storage technologies.

Awards and Honors

While the specific awards and honors received by Dr. Zhou are not listed in the biographical sketch provided, his long-standing professorship at the University of Miami and his extensive publication record suggest a career marked by academic excellence and recognition within the scientific community. His leadership in research on solid-state supercapacitors and polymer electrolytes has positioned him as a key contributor to the field, and his work has been published in top-tier journals such as the Journal of Power Sources, Journal of Electrochemical Society, and Journal of Membrane Science. These publications are often peer-reviewed by leading experts, reflecting the high quality and significance of his research. Moreover, his collaborative research with scientists such as A.N. Mansour and participation in interdisciplinary studies indicate a reputation of trust and respect in academic circles. It is likely that Dr. Zhou has also served on editorial boards, scientific committees, or as a reviewer for funding agencies, although these details are not specified. Overall, his enduring academic presence and influential research output highlight the esteem in which he is held by peers in materials science and engineering.

Conclusion

Dr. Xiangyang Zhou emerges as a highly qualified and impactful researcher whose contributions to materials science and energy storage technologies are both innovative and influential. His academic trajectory—from undergraduate studies in physics in China to doctoral work in the United Kingdom—reflects a global perspective on scientific inquiry. Throughout his professional journey, he has consistently advanced the frontier of polymer electrolytes and solid-state supercapacitors, combining theory, simulation, and experimental techniques. His ability to publish in high-impact journals and collaborate across disciplines underscores his effectiveness as a thought leader and innovator. Although formal recognitions and awards were not explicitly listed, his career accomplishments and scholarly output make a compelling case for his nomination for a Best Researcher Award. Dr. Zhou’s research continues to address pressing technological challenges related to clean energy and advanced materials, which are critical areas of global importance. His commitment to mentorship, interdisciplinary collaboration, and scientific rigor exemplifies the qualities of an outstanding researcher. He would be a deserving recipient of the award, and his selection would reinforce the value of sustained academic excellence and forward-thinking innovation in scientific research.

Publications Top Notes

  1. Application of GO anchored mediator in a polymer electrolyte membrane for high-rate solid-state supercapacitors
    Authors: Zhiwei Yan, Xiangyang Zhou, Yuchen Wang, Gordon Henry Waller, Zhijia Du
    Journal: Journal of Membrane Science
    Year: 2023
    Citations: 4

  2. Recent advances in solid-state supercapacitors: From emerging materials to advanced applications (Review)
    Authors: Mert Akin, Xiangyang Zhou
    Year: 2023
    Citations: 33

  3. In situ XAS investigation of K₄Fe(CN)₆·xH₂O and K₃Fe(CN)₆ redox activity in solid-state supercapacitors
    Authors: Azzam N. Mansour, Jonathan K. Ko, Xiangyang Zhou, Chen Zhang, Mahalingam Balasubramanian
    Journal: Journal of the Electrochemical Society
    Year: 2022
    Citations: 4

  4. Co-cured manufacturing of multi-cell composite box beam using vacuum assisted resin transfer molding
    Authors: Mert Akin, Cagri Y. Oztan, Rahmi Akin, Victoria L. Coverstone-Carroll, Xiangyang Zhou
    Journal: Journal of Composite Materials
    Year: 2021
    Citations: 4

  5. Structural analysis of K₄Fe(CN)₆·3H₂O, K₃Fe(CN)₆ and Prussian Blue (Open access)
    Authors: Azzam N. Mansour, Jonathan K. Ko, Gordon Henry Waller, Xiangyang Zhou, Mahalingam Balasubramanian
    Journal: ECS Journal of Solid State Science and Technology
    Year: 2021
    Citations: 17

  6. Electrochemical and in situ spectroscopic study of the effect of Prussian Blue as a mediator in a solid-state supercapacitor (Open access)
    Authors: Xiaoyao Qiao, Zhiwei Yan, Chen Zhang, Curtis A. Martin, Mahalingam Balasubramanian
    Journal: Journal of the Electrochemical Society
    Year: 2021
    Citations: 8

  7. Greatly enhanced energy density of all-solid-state rechargeable battery operating in high humidity environments (Open access)
    Authors: Yuchen Wang, Mert Akin, Xiaoyao Qiao, Zhiwei Yan, Xiangyang Zhou
    Journal: International Journal of Energy Research
    Year: 2021
    Citations: 3