Modern NanoMag Lab
Research Field
Professor, Department of Physics, National Dong Hwa University (NDHU), Hualien 97401, Taiwan
Functional magnetite nanomaterials are currently considered attractive materials for advanced technological applications such as biological medicine, green energy, and the inorganic-based magnetic semiconductor. The field of magnetite nanomaterials has developed rapidly in the last few years due to its special magnetic properties. Based on these attributes, a series of synthetic routes have been explored with different levels of control on the size, shape, and polydispersity. Recently, many functionalized magnetite nanostructures have been reported in various fields, including MRI imaging, drug delivery and hyperthermia, metal ions removal, energy harnessing, and environmental pollution control. Despite these remarkable prospects, many problems in this field have yet to be resolved.
Our Lab aims to cover the main properties, applications, and synthesis methods of magnetite nanomaterials that match our research interests.
Lab website: https://sites.google.com/gms.ndhu.edu.tw/sywu/home
Magnetic Materials, X-ray Diffraction, Nanomaterials, Material Characterization, Nanostructured Materials, Nanowires, Raman Scattering, Superconductivity, Nanoparticles, Magnetic Properties, Thin Films and Nanotechnology, Semiconductor Nanostructure, Nanomaterials Synthesis, Nanocrystals, Magnetic Materials and Magnetism, Low Temperature Physics, High Temperature Superconductivity, Condensed Matter Theory, Nanoscience, Magnetization, Nanomagnetic Materials, Magneto-Resistance, Thin Film Magnetism
Academic Research Award, Second Class Medal, 2022
Academic Research Award, third Class Medal, 2021
1.Philosophy’s Degree: National Central University, Taiwan
Thesis: Neutron scattering investigations of the hole-doped CMR magnates (Nd1-XCaX)MnO3 and (La2-2XSr1+2X)Mn2O7
2. Master's Degree: National Central University, Taiwan
Thesis: Two-Dimensional Magnetic Ordering of Tb Ions in Pb2Sr2TbCu3O8
3.Bachelor's Degree: National Chung Hsing University
4 Vacancies
Job Description
Responsibilities:
- Conduct experimental research in Solid State Physics, specifically focusing on the synthesis, characterization, and analysis of Magnetic Nanomaterials.
- Perform Raman Scattering experiments to investigate the vibrational and structural properties of materials.
- Carry out Photoluminescence (PL) measurements to analyze the optical properties and behaviors of nanomaterials.
- Operate and maintain specialized equipment, ensuring accuracy and reliability in measurements.
- Analyze experimental data, interpret results, and prepare comprehensive reports detailing findings.
- Collaborate with a multidisciplinary team of researchers and contribute to ongoing projects.
- Contribute to the development of new methodologies and techniques for improved measurements and analyses.
- Stay updated with advancements in Solid State Physics and Nanomaterials research.
Preferred Intern Education Level
Bachelor's or Master's degree in Physics, Materials Science, or a related field. A Ph.D. in progress or completed is advantageous.
Skill sets or Qualities
Qualifications:
- Solid understanding of Solid State Physics principles and strong knowledge of Magnetic Nanomaterials.
- Proficiency in Raman Scattering techniques and experience in conducting Raman experiments.
- Experience with Photoluminescence (PL) measurement techniques and analysis.
- Ability to operate and maintain specialized laboratory equipment related to Solid State Physics and Nanomaterials.
- Strong analytical skills and proficiency in data analysis software and programming languages commonly used in Physics research.
- Excellent communication skills and the ability to work collaboratively in a research team.
- Demonstrated commitment to accuracy, attention to detail, and adherence to safety protocols in laboratory settings.