Dr Jung Ho Yun

ARC DECRA

School of Chemical Engineering
Faculty of Engineering, Architecture and Information Technology
j.yun1@uq.edu.au
+61 7 334 61230

Overview

Qualifications

  • Doctor of Philosophy, The University of New South Wales

Publications

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Grants

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Supervision

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Available Projects

  • Due to the outstanding optoelectrical materials properties with low temperature solution processable advantages, the halide perovskite materials have been attracting the great attention in developing high efficiency solar cells. It is worthy to note that organic-inorganic halide hybrid perovskite-based solar cells have achieved the world record of over 22% power conversion efficiency in the short period of less than 10 years. However, the versatility of perovskite materials is not limited to solar cell application. Recently, together with the fundamental studies on the perovskite materials, the potentials of perovskite materials have been emerging various promising research areas such as photodetector, memory and light emitting diodes (LEDs), beyond the solar cells. Specifically, the unique optoelectronic nature of the perovskite materials and the research achievements in such applications will allow a new research room for the advanced sensing application.

    The proposed research project focuses on developing halide perovskite-based electronic devices for sensing application. More specifically, the candidate will work on the design, fabrication, and characterisation of the perovskite-based electronic devices that are applicable for optical/electrical/chemical sensors.

View all Available Projects

Publications

Book Chapter

Journal Article

Grants (Administered at UQ)

PhD and MPhil Supervision

Current Supervision

  • Master Philosophy — Associate Advisor

    Other advisors:

  • Doctor Philosophy — Associate Advisor

    Other advisors:

  • Doctor Philosophy — Associate Advisor

    Other advisors:

  • Doctor Philosophy — Associate Advisor

    Other advisors:

Completed Supervision

Possible Research Projects

Note for students: The possible research projects listed on this page may not be comprehensive or up to date. Always feel free to contact the staff for more information, and also with your own research ideas.

  • Due to the outstanding optoelectrical materials properties with low temperature solution processable advantages, the halide perovskite materials have been attracting the great attention in developing high efficiency solar cells. It is worthy to note that organic-inorganic halide hybrid perovskite-based solar cells have achieved the world record of over 22% power conversion efficiency in the short period of less than 10 years. However, the versatility of perovskite materials is not limited to solar cell application. Recently, together with the fundamental studies on the perovskite materials, the potentials of perovskite materials have been emerging various promising research areas such as photodetector, memory and light emitting diodes (LEDs), beyond the solar cells. Specifically, the unique optoelectronic nature of the perovskite materials and the research achievements in such applications will allow a new research room for the advanced sensing application.

    The proposed research project focuses on developing halide perovskite-based electronic devices for sensing application. More specifically, the candidate will work on the design, fabrication, and characterisation of the perovskite-based electronic devices that are applicable for optical/electrical/chemical sensors.