Prof Jing Wu | Innovative Leadership | Best Researcher Award

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Prof Jing Wu | Innovative Leadership | Best Researcher Award

Beijing Institute of Fashion Technology, China

Profile 

Scopus

Early Academic Pursuits 🎓

Jing Wu’s academic journey reflects her profound dedication to the field of materials science. She earned her Bachelor of Engineering in Polymer Materials Science and Engineering from Tianjin University of Science and Technology in 2007. This foundational education set the stage for her exploration into the world of material properties and their applications. Recognizing her aptitude for advanced studies, she pursued a Master of Science at Yunnan University under the mentorship of Professor Qingju Liu, where she delved deeper into the science of materials. Her graduate research expanded her expertise, paving the way for her doctoral studies.

In 2013, Jing Wu completed her Ph.D. in Physics and Chemistry of Materials at the prestigious Beijing University of Aeronautics & Astronautics (Beihang University). Under the guidance of Professor Lei Jiang, a leading expert in the field, she specialized in micro-/nano-materials. This pivotal phase of her academic career equipped her with a robust understanding of material science, especially in the domain of micro/nano materials with special wettability.

Professional Endeavors and Research Focus 🔬

Currently, Jing Wu is a professor at the Beijing Institute of Fashion Technology, where she combines her expertise in materials science with innovative applications. Her research is centered on the fabrication of multifunctional micro-/nano materials with special wettability and their diverse properties. This niche area has applications in various industries, including textiles, environmental science, and biomedicine.

Jing Wu’s research is marked by her role as the principal investigator in numerous prestigious projects. These include several funded by the National Natural Science Foundation of China (NSFC) (e.g., 22475008, 52173027, 21503005) and the Beijing Scholars Program (RCQJ20303). Her work also extends to regional projects such as the Youth Outreach Project of Beijing (CIT&TCD201904058) and the Beijing Municipal Natural Science Foundation (2154047). These projects underscore her commitment to advancing knowledge in material science and fostering innovation.

Contributions and Innovations 🌟

Jing Wu’s work has led to significant advancements in the field of material science. Her focus on materials with special wettability has implications for industries ranging from textiles to aerospace. These materials, known for their hydrophobic and hydrophilic properties, can be engineered to serve specific functions, such as water-repellent clothing, self-cleaning surfaces, and efficient energy storage devices.

She has also mentored numerous graduate and undergraduate students, guiding them through innovative research projects. Notably, she has led initiatives under the Graduate Research Innovation Project of the Beijing Institute of Fashion Technology and the College Student Innovation and Entrepreneurship Training Program. These programs emphasize her dedication to nurturing the next generation of scientists and innovators.

Accolades and Recognition 🏆

Jing Wu’s contributions have not gone unnoticed. She is a recipient of several prestigious grants and awards, reflecting her influence in the academic and scientific communities. Among these is the Beijing Scholars Program, which highlights her standing as a leading researcher in Beijing. Her involvement in collaborative projects funded by the Beijing Municipal Education Commission demonstrates her ability to bridge academia and public service for the betterment of society.

Her academic publications and patents further establish her as a thought leader in material science. These works are widely recognized for their originality, practical applications, and contribution to the scientific community.

Impact and Influence 🌍

Jing Wu’s work has had a transformative impact on the field of material science, particularly in the development of micro-/nano materials with special wettability. Her research outcomes have practical applications that address real-world challenges, such as water scarcity, pollution, and the need for sustainable materials. Through her projects and publications, she has inspired a generation of researchers to explore innovative solutions in materials engineering.

Her collaborative spirit has also allowed her to work effectively within multi-cultural and interdisciplinary teams, further amplifying the reach and relevance of her research. By fostering partnerships across academic institutions and industries, she has contributed to the global advancement of material science.

Legacy and Future Contributions ✨

As Jing Wu continues her career, her legacy as a researcher, educator, and innovator is poised to grow. Her ongoing projects at the Beijing Institute of Fashion Technology and beyond are expected to yield groundbreaking results in the application of special wettability materials. Additionally, her mentorship of students ensures a pipeline of talent that will continue to push the boundaries of material science.

Looking forward, Jing Wu aims to expand the applications of her research into sustainable development, including eco-friendly textiles and renewable energy solutions. Her vision of integrating materials science with societal needs highlights her role as a forward-thinking scientist and a pioneer in her field.

Through her relentless pursuit of knowledge, impactful research, and dedication to education, Jing Wu leaves an indelible mark on the world of science and technology. Her contributions resonate as a testament to the transformative power of materials science in shaping a better future.

📝Notable Publications

Preparation and thermal management properties of asymmetric structured fibrous membranes

Authors: Tian, B.; Wang, X.; Yang, Y.; Wu, J.

Journal: Fangzhi Xuebao/Journal of Textile Research

Year: 2024

Flexible Actuators with Hygroscopic Adaptability for Smart Wearables and Soft Grippers

Authors: Wu, J.; Jiang, W.; Gu, M.; Han, C.; Gong, H.

Journal: ACS Applied Materials and Interfaces

Year: 2023

Janus membrane with asymmetric wettability for efficient oil/water separation

Authors: Tian, B.; Ren, B.; Hu, M.; Yang, Y.; Wu, J.

Journal: Heliyon

Year: 2023

A Janus membrane doped with carbon nanotubes for wet-thermal management

Authors: Tian, B.; Hu, M.; Yang, Y.; Wu, J.

Journal: Nanoscale Advances

Year: 2023

Janus fibrous membrane with directional liquid transport capacity for wound healing promotion

Authors: Pi, H.; Xi, Y.; Wu, J.; Wang, R.; Zhang, X.

Journal: Chemical Engineering Journal

Year: 2023

 

Yuliana Jiménez-Gaona-Innovative Leadership-Women Researcher Award

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Dr. Yuliana Jiménez-Gaona-Innovative Leadership-Women Researcher Award

ICMR-National Institute of Malaria Research-Ecuador

Author profile 

 

Early Academic Pursuits

Professor Yuliana Jiménez began her academic journey with a profound interest in Computer Sciences, which she pursued at Universidad Técnica Particular de Loja (UTPL) in Loja, Ecuador. This foundational education laid the groundwork for her future research endeavors. Her passion for merging technology with healthcare led her to specialize in Bioinformatics, earning a Master's degree from Bologna, Italy, in 2014. This academic pursuit further intensified her commitment to utilizing computational tools for biomedical research.

Professional Endeavors

With a solid educational background, Yuliana transitioned into professional roles seamlessly. Her career trajectory included positions as a mathematics lecturer at UTPL and an Academic Coordinator, showcasing her capabilities in both teaching and administrative roles. Additionally, her involvement in diverse research projects, consultancy, and sponsored industry projects reflects her versatility and ability to apply theoretical knowledge to practical, real-world scenarios.

Contributions and Research Focus

Yuliana's contributions to the field of Health Data Science are notable. Her research primarily focuses on leveraging artificial intelligence algorithms, particularly deep learning, for medical image processing. Noteworthy is her work in developing classification algorithms for diseases like breast and cervical cancer. Her expertise extends to data augmentation, segmentation, and classification, demonstrating a comprehensive understanding of computational methodologies in healthcare.

Accolades and Recognition

Yuliana's impact has been recognized through various accolades and recognition. Notably, she has received awards for her contributions to cervix cancer research, showcasing her dedication to addressing critical healthcare challenges. Her publication record in reputable journals and her active participation as an editorial board member and reviewer further validate her standing in the scientific community.

Impact and Influence on innovative leadership 

Yuliana's work has made a significant impact on both national and international levels. Her research outputs, including journal publications and conference presentations, have contributed to the advancement of knowledge in Health Data Science and Bioinformatics. Collaborative activities with other institutions and industries have fostered interdisciplinary approaches, leading to innovative solutions in healthcare.

Innovative leadership is not just about introducing new ideas or technologies; it's about fostering a culture of creativity, adaptability, and continuous improvement within an organization. A true innovative leader inspires and empowers their team to think outside the box, challenge the status quo, and explore new possibilities. They encourage experimentation, welcome diverse perspectives, and create an environment where calculated risks are encouraged, mistakes are seen as learning opportunities, and successes are celebrated collectively.

Legacy and Future Contributions

As a distinguished scientist and educator, Yuliana's legacy lies in her multifaceted contributions to academia and research. Her mentorship of research scholars and active involvement in professional bodies indicate a commitment to nurturing the next generation of scientists. Looking ahead, she aims to continue pushing boundaries in Health Data Science, exploring new avenues in deep learning algorithms and their applications in healthcare diagnostics and management.

In summary, Professor Yuliana Jiménez's journey from her early academic pursuits to her current standing as a renowned researcher and educator exemplifies a steadfast dedication to advancing knowledge and making meaningful contributions to the scientific community. Her multidisciplinary approach, coupled with a passion for leveraging technology for societal benefit, positions her as a trailblazer in the field of Health Data Science and Bioinformatics.

Moreover, innovative leaders are adept at leveraging emerging trends and technologies to drive business growth and create sustainable value. They are strategic thinkers who anticipate market shifts, identify untapped opportunities, and develop forward-thinking strategies to stay ahead of the competition. By championing innovation at all levels of the organization, from product development to customer experience, innovative leaders drive positive change, foster a culture of creativity and agility, and position their teams and companies for long-term success in a rapidly evolving business landscape

Citations 
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Publications 

Jackie Miller-Adaptive Leadership-Excellence in Leadership and Management Award 

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Mrs. Jackie Miller-Adaptive Leadership-Excellence in Leadership and Management Award 

Jefferson Health-United States 

Author profile 

Early Academic Pursuits

Jacqueline Miller, RN, MSN, OCN, embarked on her academic journey with a Bachelor of Science in Nursing from Allentown College of St. Francis DeSales in 1988. Her commitment to continuous learning led her to earn a Master of Science in Nursing Education from Thomas Edison University in 2019. Armed with a solid educational foundation, Miller has consistently demonstrated her dedication to the field of nursing and oncology.

Professional Endeavors

Miller's illustrious career spans various roles, starting as an Oncology Staff Nurse at Virtua-Memorial, Mt. Holly, NJ. Over the years, she evolved into roles such as Oncology Per Diem Nurse at Cooper Hospital, Camden, NJ, and Weekend Nursing Coordinator at Samaritan Hospice, Marlton, NJ. Her experiences also include serving as an Oncology Nurse Navigator at Lourdes Medical Center and Penn Medicine Virtua Cancer Program, where she coordinated outpatient services and broke down barriers for patients with various types of cancer.

Contributions and Research Focus

A standout achievement in Miller's career is her role as the Enterprise Director of Oncology Navigation Program at Sidney Kimmel Cancer Center-Jefferson Health, where she aligns navigation operations, provides education, and oversees a staff of 30. Notably, she aligns navigation services with the 2022 ONS Oncology Navigation Standards of Professional Practice, showcasing her commitment to excellence in patient care.

Miller's dedication to education is evident in her role as the Manager of the New Jersey CEED Program at Penn Medicine Virtua Cancer Program, where she managed a staff of six, developed cancer screening services, and implemented a mobile mammography program for uninsured residents. Her initiatives resulted in a 500% increase in breast cancer screenings from 2016, demonstrating her impact on community health.

Accolades and Recognition

Jacqueline Miller's contributions have not gone unnoticed, as evidenced by the numerous awards she has received. The American Cancer Society's National Lane Adams Quality of Life Award in 2019, being a finalist for the Cure Extraordinary Healer Award for Oncology Nursing in 2018, and the Virtua SuperSTAR Dorothy Cox-Fisher Award for Community Service in 2017, among others, highlight her exceptional commitment and impact on the healthcare community.

Impact and Influence on Adaptive leadership

Miller's influence extends beyond her clinical roles. As the Founder of Camp Oasis and Living with Cancer, Take My Hand, she has created platforms to support children with parents diagnosed with cancer. Her role as the President of the South Jersey Chapter Oncology Nursing Society showcases her commitment to fostering collaboration and professional growth within the oncology nursing community.

Adaptive leadership is a dynamic and flexible approach to leadership that emphasizes the ability to navigate and thrive in complex and rapidly changing environments. Unlike traditional leadership models that rely on fixed strategies and hierarchies, adaptive leadership is characterized by its responsiveness to challenges and its focus on fostering resilience and innovation within an organization. Leaders practicing adaptive leadership continually assess the evolving landscape, encourage creative problem-solving, and empower team members to adapt to unforeseen circumstances. This approach recognizes that successful leadership requires the ability to embrace change, learn from failures, and inspire a culture of adaptability, ultimately driving sustained success in today's unpredictable business landscape.

Legacy and Future Contributions

Jacqueline Miller's legacy is defined by her comprehensive knowledge, leadership, and advocacy in the oncology nursing field. As a mentor and educator, she ensures the next generation of nurses is well-equipped to navigate the challenges in oncology care. Her commitment to diversity, equity, and inclusion, as well as her involvement in grant writing and management, positions her as a trailblazer, leaving an enduring impact on cancer care and community health. Looking forward, Miller's future contributions will undoubtedly continue to shape the landscape of oncology nursing, ensuring compassionate and comprehensive care for all.

Adaptive leadership involves several key principles, including the capacity to mobilize and motivate teams, promote a culture of continuous learning, and effectively manage conflict and ambiguity. Adaptive leaders are adept at balancing stability with the need for agility, enabling their organizations to not only survive but also thrive amid uncertainty. By fostering a culture of adaptability and learning, adaptive leaders create resilient and forward-thinking teams capable of navigating challenges, seizing opportunities, and achieving long-term success in a rapidly evolving world.

Notable publications 

haonuan Zhao-Innovative Leadership-Young Scientist Award 

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Ms. haonuan Zhao-Innovative Leadership-Young Scientist Award 

Laboratoire Catalyse et Spectrochimie-France 

Author profile 

 

Early Academic Pursuits

Haonuan Zhao embarked on her academic journey in the field of chemistry, earning her master's degree from Shandong Agricultural University. During her master's studies, she displayed a keen interest in environmental science by conceptualizing a portable technology for detecting toxic substances in the environment. This early endeavor showcased her commitment to addressing real-world issues through scientific innovation.

Professional Endeavors

Transitioning from a master's degree to a doctoral program, Haonuan Zhao joined the Laboratoire Catalyse et Spectrochimie in France, affiliated with the Centre national de la recherche scientifique (CNRS). As a third-year Ph.D. candidate, her focus shifted towards the synthesis of inorganic materials and their applications, particularly in addressing the global water crisis. Her dedication led her to receive the Chinese government scholarship in 2021, enabling her to pursue further studies in France.

Contributions and Research Focus

Throughout her academic journey, Haonuan Zhao has actively participated in national and provincial research projects. Her doctoral studies concentrate on microporous materials and their application in atmospheric water capture. Notably, she filed a patent during her master's studies for a portable technology to detect toxic substances, showcasing her commitment to practical applications of her research. Her research endeavors have not only contributed to the academic realm but also laid the foundation for addressing global challenges like water scarcity.

Accolades and Recognition

Haonuan Zhao's contributions have not gone unnoticed, as evidenced by her recognition in the form of the ISHS Young Minds Prize for the best oral presentation at the International Conference on Fresh-Cut Produce in 2019. This acknowledgment reflects her excellence in communicating scientific findings and showcases her potential as a young researcher.

Effective innovative leadership involves not only inspiring creative thinking but also creating an environment that nurtures and sustains innovation. This requires breaking down traditional hierarchies, promoting collaboration across disciplines, and empowering individuals at all levels to contribute to the innovation process. Innovative leaders prioritize diversity and inclusion, recognizing that a mix of perspectives enhances creativity and problem-solving. They also foster a sense of purpose, ensuring that team members understand how their work contributes to larger organizational goals. Through a combination of visionary thinking, a supportive culture, and a commitment to continuous improvement, innovative leaders pave the way for groundbreaking ideas, ensuring that their teams remain agile and adaptive in an ever-evolving landscape.

Impact and Influence on Innovative leadership 

While her initiatives are yet to transition into industrial applications, Haonuan Zhao's work has laid a substantial foundation for the continued advancement of the field. Her focus on sustainable solutions for water scarcity and innovative approaches to environmental monitoring demonstrates her commitment to making a meaningful impact on society.

Innovative leadership is a transformative approach to guiding teams and organizations that emphasizes creativity, adaptability, and forward-thinking. An innovative leader not only embraces change but actively seeks out opportunities to drive it. They foster a culture of open communication and idea-sharing, encouraging team members to contribute their diverse perspectives and creative solutions. Such leaders understand the importance of continuous learning and invest in the development of their teams by providing resources and support for experimentation and exploration. Innovative leaders also lead by example, demonstrating a willingness to take calculated risks and learn from failures, creating a culture that values resilience and growth. Their visionary mindset enables them to anticipate future trends, identify emerging opportunities, and guide their teams toward pioneering solutions.

Legacy and Future Contributions

As a young chemist with six years of academic experience, Haonuan Zhao's legacy lies in her dedication to addressing pressing global challenges through scientific research. Her future contributions are anticipated to further bridge the gap between academic research and practical applications, potentially leading to breakthroughs in the fields of inorganic materials and water capture technologies.

In conclusion, Haonuan Zhao's journey from early academic pursuits to her current status as a Ph.D. candidate reflects a trajectory of growth, dedication, and impactful contributions to the scientific community. Her commitment to addressing environmental challenges and innovative research makes her a promising candidate for recognition and awards in the field of science.

Notable publications 

Zuolu Wang-Innovative Leadership-Best Researcher Award 

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Dr. Zuolu Wang-Innovative Leadership-Best Researcher Award 

University of Huddersfield -United Kingdom 

Author profile

 

Early Academic Pursuits

Zuolu Wang embarked on his academic journey in 2013, pursuing a Bachelor's degree in Vehicle Engineering at Shandong University of Science and Technology, China. During this period, he laid the groundwork for his future endeavors by gaining a solid foundation in mechanical engineering and vehicle technology. His dedication to academic excellence was evident in his coursework and early research interests, setting the stage for his subsequent academic achievements.

Continuing his educational pursuits, Zuolu Wang pursued a Master's degree in Mechanical Engineering at Hebei University of Technology, China, from September 2017 to June 2020. This phase of his academic journey provided him with an opportunity to delve deeper into the intricacies of mechanical engineering, further honing his skills and knowledge. His Master's thesis or research projects during this period might have laid the groundwork for his later contributions to the field.

Professional Endeavors

Building on his academic achievements, Zuolu Wang transitioned into the professional realm, combining his academic knowledge with hands-on experience. His first foray into the professional world was marked by his role as a part-time electrical engineer at Entrust Smart Home Microgrid Ltd. (January 2020 to July 2021). Here, he demonstrated versatility by engaging in diverse tasks, ranging from investigating the feasibility of solar radiation prediction in the UK to debugging charging systems for electric vehicles (EVs). This experience not only showcased his technical skills but also laid the foundation for his future specialization in EV-related research.

Subsequently, from August 2021 to April 2022, Zuolu Wang continued to expand his expertise as a part-time electrical engineer at Entrust EV Technology Ltd. During this period, he actively contributed to the construction and validation of a small-scale battery module test bench. His involvement in battery module tests for the validation of rapid battery life monitoring methods underscored his commitment to advancing battery technology—a theme that would echo throughout his academic and professional journey.

Contributions and Research Focus

With a rich academic background and professional experience, Zuolu Wang embarked on his doctoral journey at the University of Huddersfield, pursuing a full-time PhD in Mechanical Engineering from September 2019 to August 2022. His research focus became centered around electromechanical equipment condition monitoring and fault diagnosis. Notably, his contributions to online condition monitoring and health management of EV batteries, fast charging, and performance enhancement of EV batteries showcased his commitment to addressing real-world challenges in the field.

As a Research Fellow at the Centre for Efficiency and Performance Engineering at the University of Huddersfield since January 2023, Zuolu Wang has continued to make significant strides in the realm of academic research. His dedication to advancing the understanding of condition monitoring and fault diagnosis in various electromechanical systems, including EV batteries and rotating machinery, has been instrumental in shaping the academic discourse in the field.

Accolades and Recognition

Zuolu Wang's academic and research contributions have not gone unnoticed, as evidenced by his active role as a reviewer for multiple SCI journals and international conferences. His expertise has been sought in esteemed publications and conferences, including ISA Transactions, Journal of Energy Storage, and The Efficiency and Performance Engineering (TEPEN) Conference. Serving as the executive chair of the international conference, "The UNIfied Conference of DAMAS, IncoME and TEPEN Conferences 2023," further attests to his standing in the academic community.

Impact and Influence on Innovative leadership 

Zuolu Wang's research output, published in reputable journals such as ISA Transactions, Journal of Energy Storage, and Measurement, reflects the impact of his work on the academic community. His publications on topics like cyclostationary analysis, lithium-ion battery state estimation, and fault diagnosis in induction motors have contributed to advancing the understanding of critical issues in electromechanical systems.

Innovative leadership is a dynamic and forward-thinking approach that transcends traditional boundaries, inspiring teams to explore new horizons and embrace change. It involves fostering a culture of creativity and open-mindedness, where individuals feel empowered to challenge the status quo and contribute their unique perspectives. An innovative leader not only envisions the future but actively shapes it, driving organizational growth through a combination of vision, adaptability, and a willingness to take calculated risks. By cultivating an environment that encourages experimentation and learning from failure, innovative leaders create teams that are resilient, agile, and capable of navigating the complexities of an ever-evolving landscape.

Legacy and Future Contributions

As Zuolu Wang continues to make strides in research, his legacy is already marked by a trail of impactful publications, successful project involvements, and influential roles in conferences. Looking ahead, his commitment to advancing the field of electromechanical equipment condition monitoring and fault diagnosis suggests a future marked by continued innovation and contributions to the academic and professional spheres.

In summary, Zuolu Wang's academic and professional journey exemplifies a seamless integration of early academic pursuits, hands-on experiences, and a dedicated focus on cutting-edge research. His impact on the field and contributions to academia position him as a noteworthy figure with a promising future in advancing the frontiers of electromechanical engineering.

At the heart of innovative leadership is the ability to leverage emerging technologies and trends to propel the organization forward. It requires a keen awareness of industry shifts, coupled with the foresight to identify opportunities for disruption and improvement. Innovative leaders inspire a sense of purpose among their teams, aligning collective efforts toward a shared vision. They champion continuous learning, embracing diversity of thought, and fostering a collaborative atmosphere that encourages cross-functional collaboration. Through their visionary guidance, innovative leaders not only steer organizations through change but also position them as pioneers in their respective domains, ensuring sustained success in an era defined by innovation.

Citations 

  • Citations      339    338
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Notable Publications