Posted:
12/3/2024, 4:57:45 PM
Location(s):
Singapore, Singapore
Experience Level(s):
Senior
Field(s):
AI & Machine Learning
The School of Materials Science and Engineering (MSE) provides a vibrant and nurturing environment for staff and students to carry out inter-disciplinary research in key areas such as Computational Materials Science, Characterisation Materials Science, Defence Composite Materials, Functional Composite Materials, Energy, Nanomaterials, Low Dimensional Materials, Biomaterials Materials, Biological Materials, Bioinspired Materials and Sustainable Materials.
For more details, please view https://www.ntu.edu.sg/mse/research.
NTU’s School of Materials Science and Engineering (MSE) seeks a highly skilled and innovative researcher to drive advancements in small molecule electroconversion, with a strategic focus on ammonia. The role involves integrating expertise in computational modeling, machine learning, materials synthesis, and characterization to develop cutting-edge, sustainable solutions in energy systems. This position supports NTU MSE’s mission to lead world-class research that addresses pressing global challenges in energy storage and environmental sustainability. The successful candidate will contribute to high-impact publications and pioneering projects that reinforce NTU’s leadership in transformative research.
Key Responsibilities:
Conduct research to design and develop advanced electrode materials and catalytic systems for small molecule electroconversion, focusing on ammonia.
Utilize computational tools, such as Materials Studio, along with machine learning techniques (Python, Matlab), to simulate and optimize material properties and reaction mechanisms.
Synthesize and characterize materials using advanced techniques, including XRD, Raman spectroscopy, TEM, and XAFS, to evaluate structural stability and performance.
Perform electrochemical testing and develop protocols to assess catalytic and energy storage efficiency.
Integrate experimental results with machine/deep learning and theoretical insights to identify and understand new reaction mechanisms.
Publish findings in high-impact journals and present at international conferences to enhance NTU’s academic reputation.
Collaborate within multidisciplinary teams to ensure project milestones are met and contribute to the the project research goals.
Lead and contribute to innovative solutions addressing challenges in electrochemical processes for sustainable energy systems.
Job Requirements:
Ph.D. in Chemistry, Materials Science, or a closely related field, with a strong focus on electrochemistry, catalysis, or energy materials.
Expertise in material synthesis, advanced characterization (XRD, Raman, TEM, XAFS), and electrochemical testing methodologies.
Proficiency in computational modeling tools and machine learning (Python, Matlab) for predictive and analytical purposes.
Demonstrated research background in designing and optimizing electrode materials and catalytic systems for energy applications.
Strong publication record with papers in high-impact journals, showcasing significant contributions to material science and electrocatalysis.
Problem-solving skills with a demonstrated ability to integrate experimental and theoretical approaches to address complex research challenges.
Familiarity with electrochemical cell assembly/design, testing, and visualization tools (e.g., Photoshop).
Proven organizational and project management capabilities to deliver impactful and timely research outcomes.
We regret to inform that only shortlisted candidates will be notified.
Hiring Institution: NTUWebsite: https://ntu.edu.sg/
Headquarter Location: Singapore, Central Region, Singapore
Year Founded: 1991
Last Funding Type: Grant
Industries: Education ⋅ Information Technology ⋅ Universities