Honorary Professor Zhi-Gang Chen
Honorary Professor

Zhi-Gang Chen

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Background

Prof. Dr Zhigang Chen is currently an Honorary Professor in the School of Mechanical & Mining Engineering, the University of Queensland, and a founding director for the ARC Research Hub in Zero-emission Power Generation for Carbon Neutrality (ZeroPC), ARC Future Fellow, Academic Reseach Lead, and a Capacity Building Professor of Energy Materials at the School of Chemistry and Physics, Queensland University of Technology (QUT). Dr Chen received his PhD from the Institute of Metal Research, Chinese Academy of Sciences in 2008 under the supervision of Professor Hui-Ming Cheng, and Professor Gaoqing (Max) Lu. His research focuses on thermoelectrics for power generation and cooling; next-generation optoelectronic devices and functional System; topological insulators for next-generation chips; and high-speed sensors. In total, Dr Chen received ~A$40,000,000 in research grants to support the research, including one prestigious UQ postdoctoral fellowship (2009), ARC APD Fellowship (2009), five ARC Discovery Grants (four as lead CI, one as ARC APD fellowship, and one as ARC Future Fellowship), two ARC Research hub, four ARC Linkage Grant (one as lead CI), four ARC LIEF Grant, >10 Industry Investments (eight as sole CI), two Queensland Smart Futures Funds (sole CI), and >10 University Grants. Currently, Dr Chen is leading one ARC Research Hub, two ARC discovery projects, one sub project at ARC Research Hub, one ARC Linkage project, and four industry investments. Dr Chen is one Clarivate Highly Cited Researcher (Top 0.1% researcher in the world). He has authored over 330 high-impact journal publications including 1 Nature Energy, 1 Nature Nanotechnology; 3 Nature Communications; 1 Chemical Reviews; 2 Progress in Materials Science; 4 Energy & Environmental Science; 1 Joule; 11 Advanced Materials; and 4 Journal of the American Chemical Society. These publications have attracted >35000 times (Scopus, www.scopus.com/authid/detail.uri?authorId=57188708630) and an H index of 70. His google scholar citation is >25,000 with an H index of 100 (https://scholar.google.com.au/citations?user=vkRX_vgAAAAJ&hl=en). Particularly, in the last three years, Dr Chen has published more than 40 articles per year and attracted over 5,000 citations per year. Dr Chen has delivered over 50 plenary/keynote/invited talks in the international/national conferences. Dr Chen has authored four commercialized patents, which have been attracted industry investments.

Availability

Honorary Professor Zhi-Gang Chen is:
Available for supervision
Media expert

Fields of research

Engineering Materials engineering

Qualifications

  • Doctor of Philosophy, University of the Chinese Academy of Science

Research interests

  • Design inexpensive, abundant, low-toxic and high-efficiency thermoelectric nanomaterials

    Thermoelectric materials directly convert thermal energy into electrical energy, offering a green and sustainable solution for the global energy dilemma. This proposal aims to develop inexpensive, abundant, and low-toxic thermoelectric nanomaterials for high-efficiency energy conversion using novel industry-level approach, coupled with nanostructure and band engineering strategies.

  • Topological Insulators

    High-Speed Hard Drive: Topological Insulators Open a Path to Room-Temperature Spintronics

Research impacts

Thermoelectric materials for power generation and cooling

Identifying new approaches to develop energy-saving methods and tap into new renewable energy sources is set to be the greatest challenge of the 21st Century. Thermoelectric (TE) energy is one of the approaches that offers great promise as it can be used in multiple applications for power generation and refrigeration. It can create electricity from waste heat at any scale, it can significantly improve energy efficiency at a medium industrial scale, including significantly improving vehicular weight and emissions, and it can even generate electricity or cooling at the nanoscale. For instance, it could potentially be used to convert body heat into electricity in clothing or to charge a cell phone. The thermoelecric materials developed by Dr Chen have extremely high hopes for this technology.

Topological insulators for high speed chips

Imagine if the "information superhighway" had HOV lanes so that data could be stored, processed and disseminated many times faster than possible with today's electronics. New topological insulators developed by Dr Chen will be used for this new generation devices, such a speedway for future devices, an exotic type of electrical conductor.

Search Professor Zhi-Gang Chen’s works on UQ eSpace

515 works between 2005 and 2025
All (515) Journal Article (495) Book Chapter (7) Conference Publication (12) Book (1)

241 - 260 of 515 works

2020

Journal Article

Atomic investigation on the facet‐dependent melting of ceramic nanostructures via in situ electron irradiation

Bo, Arixin, Liu, Qiong, Zhan, Haifei, Shi, Xiaolei, Chen, Zhi‐Gang and Gu, Yuantong (2020). Atomic investigation on the facet‐dependent melting of ceramic nanostructures via in situ electron irradiation. Advanced Materials Interfaces, 7 (13) 2000288, 1-9. doi: 10.1002/admi.202000288

Atomic investigation on the facet‐dependent melting of ceramic nanostructures via in situ electron irradiation

2020

Journal Article

Advanced thermoelectric design: from materials and structures to devices

Shi, Xiao-Lei, Zou, Jin and Chen, Zhi-Gang (2020). Advanced thermoelectric design: from materials and structures to devices. Chemical Reviews, 120 (15) acs.chemrev.0c00026, 7399-7515. doi: 10.1021/acs.chemrev.0c00026

Advanced thermoelectric design: from materials and structures to devices

2020

Journal Article

Crystal symmetry induced structure and bonding manipulation boosting thermoelectric performance of GeTe

Li, Meng, Hong, Min, Tang, Xiao, Sun, Qiang, Lyu, Wan-Yu, Xu, Sheng-Duo, Kou, Liang-Zhi, Dargusch, Matthew, Zou, Jin and Chen, Zhi-Gang (2020). Crystal symmetry induced structure and bonding manipulation boosting thermoelectric performance of GeTe. Nano Energy, 73 104740, 104740. doi: 10.1016/j.nanoen.2020.104740

Crystal symmetry induced structure and bonding manipulation boosting thermoelectric performance of GeTe

2020

Journal Article

Intercalation-induced disintegrated layer-by-layer growth of ultrathin ternary Mo(Te1–xSx)2 plates

Yang, Yuzhe, Shang, Jing, Gao, Han, Sun, Qiang, Kou, Liangzhi, Chen, Zhi-Gang and Zou, Jin (2020). Intercalation-induced disintegrated layer-by-layer growth of ultrathin ternary Mo(Te1–xSx)2 plates. ACS Applied Materials and Interfaces, 12 (27) acsami.0c07342, 30980-30989. doi: 10.1021/acsami.0c07342

Intercalation-induced disintegrated layer-by-layer growth of ultrathin ternary Mo(Te1–xSx)2 plates

2020

Journal Article

A bacteria-triggered pH-responsive osteopotentiating coating on 3D-printed polyetheretherketone scaffolds for infective bone defect repair

Deng, Yi, Shi, Xiuyuan, Chen, Yong, Yang, Weizhong, Ma, Yuan, Shi, Xiao-Lei, Song, Pingan, Dargusch, Matthew S. and Chen, Zhi-Gang (2020). A bacteria-triggered pH-responsive osteopotentiating coating on 3D-printed polyetheretherketone scaffolds for infective bone defect repair. Industrial and Engineering Chemistry Research, 59 (26) acs.iecr.0c02107, 12123-12135. doi: 10.1021/acs.iecr.0c02107

A bacteria-triggered pH-responsive osteopotentiating coating on 3D-printed polyetheretherketone scaffolds for infective bone defect repair

2020

Journal Article

Flexible carbon-fiber/semimetal Bi nanosheet arrays as separable and recyclable plasmonic photocatalysts and photoelectrocatalysts

Yang, Yanling, Chen, Huajun, Zou, Xinxin, Shi, Xiaolei, Liu, Weidi, Feng, Lei, Suo, Guoquan, Hou, Xiaojiang, Ye, Xiaohui, Zhang, Li, Sun, Chenghua, Li, Haisheng, Wang, Changqing and Chen, Zhi-Gang (2020). Flexible carbon-fiber/semimetal Bi nanosheet arrays as separable and recyclable plasmonic photocatalysts and photoelectrocatalysts. ACS Applied Materials and Interfaces, 12 (22) acsami.0c05695, 24845-24854. doi: 10.1021/acsami.0c05695

Flexible carbon-fiber/semimetal Bi nanosheet arrays as separable and recyclable plasmonic photocatalysts and photoelectrocatalysts

2020

Journal Article

Correction to Establishing the golden range of Seebeck coefficient for maximizing thermoelectric performance

Hong, Min, Lyu, Wanyu, Wang, Yuan, Zou, Jin and Chen, Zhi-Gang (2020). Correction to Establishing the golden range of Seebeck coefficient for maximizing thermoelectric performance. Journal of the American Chemical Society, 142 (23), 10568-10568. doi: 10.1021/jacs.0c05548

Correction to Establishing the golden range of Seebeck coefficient for maximizing thermoelectric performance

2020

Journal Article

Tuning wall thickness of TiO2 microtubes for an enhanced photocatalytic activity with thickness-dependent charge separation efficiency

Zou, Xinxin, Yang, Yanling, Chen, Huajun, Shi, Xiao-Lei, Suo, Guoquan, Ye, Xiaohui, Zhang, Li, Hou, Xiaojiang, Feng, Lei and Chen, Zhi-Gang (2020). Tuning wall thickness of TiO2 microtubes for an enhanced photocatalytic activity with thickness-dependent charge separation efficiency. Journal of Colloid and Interface Science, 579, 463-469. doi: 10.1016/j.jcis.2020.06.081

Tuning wall thickness of TiO2 microtubes for an enhanced photocatalytic activity with thickness-dependent charge separation efficiency

2020

Journal Article

A synergy of strain loading and laser radiation in determining the high-performing electrical transports in the single Cu-doped SnSe microbelt

Zheng, Yunzhi, Shi, Xiao-Lei, Yuan, Hualei, Lu, Siyu, Qu, Xianlin, Liu, Wei-Di, Wang, Lihua, Zheng, Kun, Zou, Jin and Chen, Zhi-Gang (2020). A synergy of strain loading and laser radiation in determining the high-performing electrical transports in the single Cu-doped SnSe microbelt. Materials Today Physics, 13 100198, 100198. doi: 10.1016/j.mtphys.2020.100198

A synergy of strain loading and laser radiation in determining the high-performing electrical transports in the single Cu-doped SnSe microbelt

2020

Journal Article

Computer-aided design of high-efficiency GeTe-based thermoelectric devices (vol 13, pg 1856, 2020)

Hong, Min, Zheng, Kun, Lyv, Wanyu, Li, Meng, Qu, Xianlin, Sun, Qiang, Xu, Shengduo, Zou, Jin and Chen, Zhi-Gang (2020). Computer-aided design of high-efficiency GeTe-based thermoelectric devices (vol 13, pg 1856, 2020). Energy & Environmental Science, 13 (6), 1896-1896. doi: 10.1039/d0ee90029j

Computer-aided design of high-efficiency GeTe-based thermoelectric devices (vol 13, pg 1856, 2020)

2020

Journal Article

Computer-aided design of high-efficiency GeTe-based thermoelectric devices

Hong, Min, Zheng, Kun, Lyv, Wanyu, Li, Meng, Qu, Xianlin, Sun, Qiang, Xu, Shengduo, Zou, Jin and Chen, Zhi-Gang (2020). Computer-aided design of high-efficiency GeTe-based thermoelectric devices. Energy and Environmental Science, 13 (6), 1856-1864. doi: 10.1039/d0ee01004a

Computer-aided design of high-efficiency GeTe-based thermoelectric devices

2020

Journal Article

Synergistic modulation of power factor and thermal conductivity in Cu3SbSe4 towards high thermoelectric performance

Wang, Boyi, Zheng, Shuqi, Wang, Qing, Li, Zhiliang, Li, Juan, Zhang, Zipei, Wu, Yue, Zhu, Bensheng, Wang, Siyu, Chen, Yuxuan, Chen, Liqiang and Chen, Zhi-Gang (2020). Synergistic modulation of power factor and thermal conductivity in Cu3SbSe4 towards high thermoelectric performance. Nano Energy, 71 104658, 104658. doi: 10.1016/j.nanoen.2020.104658

Synergistic modulation of power factor and thermal conductivity in Cu3SbSe4 towards high thermoelectric performance

2020

Journal Article

Texture-dependent thermoelectric properties of nano-structured Bi2Te3

Bao, Deyu, Chen, Jie, Yu, Yuan, Liu, Weidi, Huang, Linsen, Han, Guang, Tang, Jun, Zhou, Dali, Yang, Lei and Chen, Zhi-Gang (2020). Texture-dependent thermoelectric properties of nano-structured Bi2Te3. Chemical Engineering Journal, 388 124295, 124295. doi: 10.1016/j.cej.2020.124295

Texture-dependent thermoelectric properties of nano-structured Bi2Te3

2020

Journal Article

Bi0.5Sb1.5Te3/PEDOT:PSS-Based Flexible Thermoelectric Film and Device

Wang, Yuan, Hong, Min, Liu, Wei-Di, Shi, Xiao-Lei, Xu, Sheng-Duo, Sun, Qiang, Gao, Han, Lu, Siyu, Zou, Jin and Chen, Zhi-Gang (2020). Bi0.5Sb1.5Te3/PEDOT:PSS-Based Flexible Thermoelectric Film and Device. Chemical Engineering Journal, 397 125360, 125360. doi: 10.1016/j.cej.2020.125360

Bi0.5Sb1.5Te3/PEDOT:PSS-Based Flexible Thermoelectric Film and Device

2020

Journal Article

Exploring thermoelectric performance of Ca3Co4O9+δ ceramics via chemical electroless plating with Cu

Liu, Taoyi, Bao, Deyu, Wang, Yuan, Gao, Han, Zhou, Dali, Han, Guang, Tang, Jun, Huang, Zhong-Yue, Yang, Lei and Chen, Zhi-Gang (2020). Exploring thermoelectric performance of Ca3Co4O9+δ ceramics via chemical electroless plating with Cu. Journal of Alloys and Compounds, 821 153522, 153522. doi: 10.1016/j.jallcom.2019.153522

Exploring thermoelectric performance of Ca3Co4O9+δ ceramics via chemical electroless plating with Cu

2020

Journal Article

High-performance GeTe-Based thermoelectrics: from materials to devices

Liu, Wei-Di, Wang, De-Zhuang, Liu, Qingfeng, Zhou, Wei, Shao, Zongping and Chen, Zhi-Gang (2020). High-performance GeTe-Based thermoelectrics: from materials to devices. Advanced Energy Materials, 10 (19) 2000367, 2000367. doi: 10.1002/aenm.202000367

High-performance GeTe-Based thermoelectrics: from materials to devices

2020

Journal Article

High‐performance thermoelectric SnSe: aqueous synthesis, innovations, and challenges

Shi, Xiao‐Lei, Tao, Xinyong, Zou, Jin and Chen, Zhi‐Gang (2020). High‐performance thermoelectric SnSe: aqueous synthesis, innovations, and challenges. Advanced Science, 7 (7) 1902923, 1-51. doi: 10.1002/advs.201902923

High‐performance thermoelectric SnSe: aqueous synthesis, innovations, and challenges

2020

Journal Article

Synergistic effect approaching record-high figure of merit in the shear exfoliated n-type Bi2O2-2xTe2xSe

Pan, Lin, Liu, Wei-Di, Zhang, Jie-Yun, Shi, Xiao-Lei, Gao, Han, Liu, Qing-feng, Shen, Xiaodong, Lu, Chunhua, Wang, Yi-Feng and Chen, Zhi-Gang (2020). Synergistic effect approaching record-high figure of merit in the shear exfoliated n-type Bi2O2-2xTe2xSe. Nano Energy, 69 104394, 104394. doi: 10.1016/j.nanoen.2019.104394

Synergistic effect approaching record-high figure of merit in the shear exfoliated n-type Bi2O2-2xTe2xSe

2020

Journal Article

Promising and eco‐friendly Cu 2 X‐based thermoelectric materials: progress and applications

Liu, Wei‐Di, Yang, Lei, Chen, Zhi‐Gang and Zou, Jin (2020). Promising and eco‐friendly Cu 2 X‐based thermoelectric materials: progress and applications. Advanced Materials, 32 (8) 1905703, 1905703. doi: 10.1002/adma.201905703

Promising and eco‐friendly Cu 2 X‐based thermoelectric materials: progress and applications

2020

Journal Article

Scandium and phosphorus co-doped perovskite oxides as high-performance electrocatalysts for the oxygen reduction reaction in an alkaline solution

Xu, Meigui, Sun, Hainan, Wang, Wei, Shen, Yujuan, Zhou, Wei, Wang, Jun, Chen, Zhi-Gang and Shao, Zongping (2020). Scandium and phosphorus co-doped perovskite oxides as high-performance electrocatalysts for the oxygen reduction reaction in an alkaline solution. Journal of Materials Science and Technology, 39, 22-27. doi: 10.1016/j.jmst.2019.09.007

Scandium and phosphorus co-doped perovskite oxides as high-performance electrocatalysts for the oxygen reduction reaction in an alkaline solution

Past funding

  • 2018 - 2021
    High Performance, Low-cost Integrated System for Low-grade Wast Heat Recovery
    HBIS Group Co, Ltd
    Open grant
  • 2015 - 2018
    Development of High Performance Nanostructured (Bi, Sb)2Te3 Nanomaterials
    ARC Discovery Projects
    Open grant
  • 2012 - 2015
    Smart Futures Fellowship (Early): Development of high-efficiency thermoelectric nanowire arrays for power generation devices
    Queensland Government Smart Futures Fellowships
    Open grant
  • 2012 - 2013
    Queensland International Fellowship: Towards power generation devices for converting waste heat into power energy
    Queensland International Fellowships
    Open grant
  • 2011 - 2012
    Epitaxial Growth of Nanostructured Thermoelectric Zn4Sb3 p-n Junction Heterostructure Arrays for Power-Generation Devices
    UQ Foundation Research Excellence Awards - DVC(R) Funding
    Open grant
  • 2011 - 2012
    An integrated system for measuring thermoelectric properties of advanced materials
    ARC Linkage Infrastructure, Equipment and Facilities
    Open grant
  • 2011 - 2013
    Development of Nanostructured Sensors for Ultra-sensitive, Label-free and Selective Detection of Biological and Chemical Species
    ARC Discovery Projects
    Open grant
  • 2010
    Development of Nanostructured Thermoelectric Materials for Power-Generation Devices
    UQ Early Career Researcher
    Open grant
  • 2009 - 2012
    Development of silicon nanowire sensors for detection of chemical species
    UQ New Staff Research Start-Up Fund
    Open grant
  • 2009 - 2011
    Epitaxial growth of Zn-VI/III-N nanowire-based structures for future device applications
    ARC Discovery Projects
    Open grant

Availability

Honorary Professor Zhi-Gang Chen is:
Available for supervision

Before you email them, read our advice on how to contact a supervisor.

Available projects

  • Design low-cost, low-toxic and high performance thermoelectric materials

    The direct energy conversion between heat and electricity, based on thermoelectric effects without moving parts, has been considered as a green and sustainable solution to the global energy dilemma. This project aims to develop novel band-engineered metal selenides for high-efficiency energy conversion using novel microwave assisted wet chemistry approach, coupled with nanostructure and band engineering strategies. The key breakthrough is to design high performance metal selenide thermoelectrics for satisfying the high efficiency solid-state devices. The expected outcomes will lead to an innovative technology that waste heat recovery and refrigeration, which will place Australia at the forefront of practical energy technologies.

  • Design low-cost and high performance two dimensional topological insulators

    Superfast information technology had HOV lanes so that data could be stored, processed and disseminated many times faster than possible with today's electronics. This project aims to develop new topological insulators using chemical vapor depostion and coupling unique nanostructure and band engineering strategies. The ultimate target is to be used for this new generation devices, such a speedway for future devices, an exotic type of electrical conductor.

Supervision history

Current supervision

  • Doctor Philosophy

    Design high-performance fiber-based thermoelectrics for wearable electronics

    Principal Advisor

    Other advisors: Professor Matthew Dargusch, Emeritus Professor Jin Zou

  • Doctor Philosophy

    Development of High-Performance Thermoelectric Materials and Devices for on-chip Applications

    Principal Advisor

    Other advisors: Professor Matthew Dargusch, Emeritus Professor Jin Zou

  • Doctor Philosophy

    Development of thermoelectric materials

    Associate Advisor

    Other advisors: Emeritus Professor Jin Zou

  • Doctor Philosophy

    Advanced Microscopy Technique for High-performance Thermoelectric Materials

    Associate Advisor

    Other advisors: Emeritus Professor Jin Zou

  • Doctor Philosophy

    Understanding the structural characteristics for two-dimensional nanostructure heterojunction

    Associate Advisor

    Other advisors: Emeritus Professor Jin Zou

  • Doctor Philosophy

    Atomic scale phase transition study in two-dimensional material heterostructures by in-situ transmission electron microscopy

    Associate Advisor

    Other advisors: Emeritus Professor Jin Zou

  • Doctor Philosophy

    Atomic scale phase transition study in two-dimensional material heterostructures by in-situ transmission electron microscopy

    Associate Advisor

    Other advisors: Emeritus Professor Jin Zou

  • Doctor Philosophy

    Development of thermoelectric materials

    Associate Advisor

    Other advisors: Emeritus Professor Jin Zou

Completed supervision

Enquiries

Contact Honorary Professor Zhi-Gang Chen directly for media enquiries about:

  • Engineering
  • Light electronics
  • Lights
  • Nanomaterials
  • Nanostructures
  • Optoelectronic devices

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