Biography
Jiahao is a researcher in engineering and materials science, specialising in functional materials for energy harvesting applications. He completed his DPhil in Engineering Science at the University of Oxford in 2025, where his research focused on metal-organic framework-based triboelectric nanogenerators. Prior to his doctoral studies, he completed a four-year integrated MEng in Chemical Engineering, graduating with First Class Honours from Imperial College London in 2021.
Jiahao is currently a Postdoctoral Research Fellow in the Multifunctional Materials & Composites Lab at Oxford, where his work centres on the design and development of advanced materials for sustainable energy systems.
Most Recent Publications
Nonlinear Optical Response in Layer‐Stacked Gallenene with Ferroelectric Polarization
Nonlinear Optical Response in Layer‐Stacked Gallenene with Ferroelectric Polarization
Noncontact triboelectric nanogenerators based on fluorinated metal–organic frameworks for rotational energy harvesting and sensing
Noncontact triboelectric nanogenerators based on fluorinated metal–organic frameworks for rotational energy harvesting and sensing
AI-Enabled Piezoelectric Wearable for Joint Torque Monitoring
AI-Enabled Piezoelectric Wearable for Joint Torque Monitoring
Functionalized PDMS for regulating the triboelectric output of nanogenerators: a study of charge transfer mechanisms †
Functionalized PDMS for regulating the triboelectric output of nanogenerators: a study of charge transfer mechanisms †
Triboelectric nanogenerators based on composites of zeolitic imidazolate frameworks functionalized with halogenated ligands for contact and rotational mechanical energy harvesting
Triboelectric nanogenerators based on composites of zeolitic imidazolate frameworks functionalized with halogenated ligands for contact and rotational mechanical energy harvesting
Research Interests
- Metal-organic frameworks (MOFs) and hybrid nanomaterials
- High-performance polymer composites for sensing and energy applications
- Triboelectric and piezoelectric energy harvesting
- Advanced nanoscale characterization and imaging
- Surface/interface engineering and device fabrication
Current Research Project
Triboelectric Nanogenerators Based on Novel Framework Materials - TEGMOF
Research Groups
Related Academics
Most Recent Publications
Nonlinear Optical Response in Layer‐Stacked Gallenene with Ferroelectric Polarization
Nonlinear Optical Response in Layer‐Stacked Gallenene with Ferroelectric Polarization
Noncontact triboelectric nanogenerators based on fluorinated metal–organic frameworks for rotational energy harvesting and sensing
Noncontact triboelectric nanogenerators based on fluorinated metal–organic frameworks for rotational energy harvesting and sensing
AI-Enabled Piezoelectric Wearable for Joint Torque Monitoring
AI-Enabled Piezoelectric Wearable for Joint Torque Monitoring
Functionalized PDMS for regulating the triboelectric output of nanogenerators: a study of charge transfer mechanisms †
Functionalized PDMS for regulating the triboelectric output of nanogenerators: a study of charge transfer mechanisms †
Triboelectric nanogenerators based on composites of zeolitic imidazolate frameworks functionalized with halogenated ligands for contact and rotational mechanical energy harvesting
Triboelectric nanogenerators based on composites of zeolitic imidazolate frameworks functionalized with halogenated ligands for contact and rotational mechanical energy harvesting
