Dr. Tan Jian Ping - Biomass - Best Researcher Award
Xiamen University Malaysia - Malaysia
Professional Profiles
Early Academic Pursuits
Tan Jian Ping's academic journey commenced with a Bachelor of Engineering (Hons) degree from the National University of Malaysia (UKM) in 2013. His passion for chemical and process engineering led him to pursue further studies, culminating in a Ph.D. in Chemical and Process Engineering, also from UKM, which he completed in 2017. These formative years laid the groundwork for his future endeavors in academia and research.
Professional Endeavors
Following his academic achievements, Tan Jian Ping embarked on a career in academia, joining Xiamen University Malaysia as an Assistant Professor in the School of Energy and Chemical Engineering. In addition to his teaching responsibilities, he has taken on various roles and affiliations that reflect his dedication to the field of chemical engineering and biotechnology.
His role as the Industrial Training Coordinator for Chemical Engineering underscores his commitment to providing students with practical learning opportunities and preparing them for the challenges of the industry. Furthermore, his involvement as a Committee Member for Malaysian academic research on palm oil sustainability (ARPOS) highlights his engagement in addressing crucial environmental and economic issues through research and collaboration.
Contributions and Research Focus On Biomass
Tan Jian Ping's research interests span a wide range of topics within biochemical and biotechnological domains, including bioeconomy, fermentation, biorefinery, biofertilizer, and biotechnology. As a Principal Investigator, he has secured several active research grants from prestigious institutions and organizations, including the Ministry of Science, Technology and Innovation Malaysia (MOSTI), Ministry of Higher Education Malaysia (MoHE), and the Institution of Chemical Engineers (IChemE), among others.
His research focuses on leveraging biotechnological processes to address pressing challenges and explore sustainable solutions. From succinic acid production from durian waste to biological 1,3-propanediol production and biohydrogen production from crude glycerol, Tan Jian Ping's projects are at the forefront of innovative research in biotechnology and bioenergy.
Accolades and Recognition
Tan Jian Ping's contributions to the field of biotechnology have been recognized both nationally and internationally. He has served as a Guest Editor for prestigious journals such as Frontiers in Energy Research and has been involved in various research collaborations and initiatives aimed at advancing bioprocess engineering and sustainable biotechnology.
His ability to secure numerous research grants reflects not only the quality of his research proposals but also the recognition of his expertise and potential to contribute significantly to the field.
Impact and Influence
Through his research endeavors and academic contributions, Tan Jian Ping has made a tangible impact on the field of biotechnology and chemical engineering. His work not only advances scientific knowledge but also holds the potential to address real-world challenges, such as waste valorization, sustainable energy production, and environmental remediation.
Moreover, as an educator and mentor, Tan Jian Ping has influenced the next generation of engineers and researchers, instilling in them a passion for sustainability and innovation. His guidance and mentorship are instrumental in shaping the future leaders of the industry.
Legacy and Future Contributions
Tan Jian Ping's legacy lies in his dedication to advancing the frontiers of biotechnology and bioprocess engineering. Through his research, he seeks to create a more sustainable and environmentally friendly future, where bio-based technologies play a central role in addressing global challenges.
Looking ahead, Tan Jian Ping remains committed to pushing the boundaries of scientific knowledge and driving innovation in biotechnology. His continued efforts in research, education, and industry engagement are poised to leave a lasting impact on the field and inspire future generations to follow in his footsteps.
Notable Publications
Unraveling the effect of redox potential on dark fermentative hydrogen production 2023