Biography summary
Before joining the University of Deakin, Dr. Han has been working at the University of Florida and the University of Melbourne focusing on development of new technologies for waste recycling and clean energy generation. Dr. Han is now working closely with industrial partners from Australia to transform lab research into pilot- and industrial-scale production line with a focus on waste-to-product circular economy. He is also playing consultant role for several Australian companies.
Career highlights
Dr. Han is the receipient of several awards including Melbourne Early Career Researcher Grant, Melbourne Collaborative Research Development Grant and Research Innovation Award (China). He is also the lead chief investigator for Innovation Connection Grant, multiple NSFC Grants and industrial grants. He has been involved in CRC-P, ARC-LP, Meat & Livestock Australia, Victoria-Jiangsu Innovation Technology R&D project, Recycling and Clean Energy Commercialisation Hub, and NSFC Key R&D projects.
Research interests
Dr. Han is interested in transforming waste into value-added products and clean energy at lab, pilot and industrial scales. Biomass (straw, sawdust), municipal waste (end-of-life tyre, plastic, film), animal waste (cattle manure, poultry litter), low-grade coal (lignite, tailing waste) are transformed into fertiliser, soil remediation materials and activated carbon using a low-temperature partial-oxidation process facilitated by novel catalysts. These technologies have significant contribution to Australia circular economy and 2030 zero emission target.
Knowledge areas
Waste recycling, low emissions, catalysis, titanium dioxide, waste tyres, biomass, low-grade coal, animal waste, N fertiliser, soil remediation materials, activated carbon, wastewater treatment, hydrogen production, carbon dioxide conversion, circular economy, greenhouse gas mitigation, solar energy havesting, ammonia capture, heavy metal immobilisation, ASPEN PLUS simulation, pyrolysis.
Professional activities
Youth Editorial Board for Carbon Research
Youth Editorial Board for Biochar
Member for Melbourne Early Career Academic committee
Publications
Abating ammonia emission from poultry manure by Pt/TiO2 modified corn straw
Yunhong Jiao, Jie Huang, Jing Hu, Anthony Weatherley, Wei Liu, Chaoyu Li, Zhiling Ma, Bing Han
(2024), Vol. 350, pp. 1-11, Journal of Environmental Management, Amsterdam, The Netherlands, C1
Catalytic oxidation of lignite by Pt/TiO2 can enhance cadmium adsorption capacity
J Hu, B Han, C Butterly, W Zhang, J He, D Chen
(2024), Vol. 465, pp. 1-13, Journal of Hazardous Materials, Amsterdam, The Netherlands, C1-1
S Rong, S Wang, H Liu, Y Li, J Huang, W Wang, B Han, S Su, W Liu
(2024), Vol. 912, pp. 1-11, Science of the Total Environment, Amsterdam, The Netherlands, C1-1
Yun Cao, Mei Bai, Bing Han, Clayton Butterly, Hangwei Hu, Jizheng He, David Griffith, Deli Chen
(2024), pp. 1-14, Environmental Technology, London, Eng., C1-1
Catalytic modification of corn straw facilitates the remediation of Cd contaminated water and soil
J Huang, Y Jiao, A Weatherley, A Duan, S Wang, C Li, Z Ma, W Liu, B Han
(2023), Vol. 445, pp. 1-11, Journal of Hazardous Materials, Amsterdam, The Netherlands, C1-1
Ke Zhang, Qiang Cao, Xiao Song, Bing Han, Yu Zhang, Xiaojun Liu, Yan Zhu, Weixing Cao, Deli Chen, Yongchao Tian
(2023), Vol. 69, pp. 2878-2897, Archives of Agronomy and Soil Science, London, Eng., C1-1
Modification of naturally abundant resources for remediation of potentially toxic elements: A review
B Han, A Weatherley, K Mumford, N Bolan, J He, G Stevens, D Chen
(2022), Vol. 421, pp. 1-13, Journal of Hazardous Materials, Amsterdam, The Netherlands, C1-1
Identifying adsorption sites for Cd(II) and organic dyes on modified straw materials
W Liu, J Huang, A Weatherley, W Zhai, F Liu, Z Ma, Y Jiao, C Zhang, B Han
(2022), Vol. 301, pp. 1-7, Journal of Environmental Management, Amsterdam, The Netherlands, C1-1
Modified lignite and black coal reduce ammonia volatilization from cattle manure
W Zhang, C Butterly, B Han, J He, D Chen
(2022), Vol. 301, pp. 1-7, Journal of Environmental Management, Amsterdam, The Netherlands, C1-1
Increasing reactivity of plasmonic hot holes by a trapping strategy
C Li, Z Ma, B Han
(2022), Vol. 303, pp. 1-7, Applied Catalysis B: Environmental, Amsterdam, The Netherlands, C1-1
Surface modification of coal tailings by thermal air oxidation for ammonia capture
W Zhang, B Han, U Wille, C Butterly, J He, D Chen
(2022), Vol. 362, pp. 1-9, Journal of Cleaner Production, Amsterdam, The Netherlands, C1-1
Adsorbent materials for ammonium and ammonia removal: A review
B Han, C Butterly, W Zhang, J He, D Chen
(2021), Vol. 283, pp. 1-19, Journal of Cleaner Production, Amsterdam, The Netherlands, C1-1
Temperature effects on redox potentials and implications to semiconductor photocatalysis
Z Ma, W Liu, W Yang, W Li, B Han
(2021), Vol. 286, pp. 1-4, Fuel, Amsterdam, The Netherlands, C1-1
Increasing straw surface functionalities for enhanced adsorption property
Y Fu, X Li, Z Yang, X Duan, Z Ma, B Han
(2021), Vol. 320, pp. 1-6, Bioresource Technology, Amsterdam, The Netherlands, C1-1
Lignite, dewatered lignite and modified subbituminous coal reduce nitrogen loss from broiler litter
B Costello, D Chen, B Han, W Zhang, C Butterly
(2021), Vol. 136, pp. 113-121, Waste Management, Amsterdam, The Netherlands, C1-1
Z Ma, Q Jia, C Tao, B Han
(2020), Vol. 238, pp. 1-6, Separation and Purification Technology, Amsterdam, The Netherlands, C1-1
Enhanced nitrogen retention by lignite during poultry litter composting
Y Cao, M Bai, B Han, R Impraim, C Butterly, H Hu, J He, D Chen
(2020), Vol. 277, pp. 1-10, Journal of Cleaner Production, Amsterdam, The Netherlands, C1-1
Z Ma, Q Jia, Y Shi, X Duan, B Han
(2020), Vol. 38, pp. 1-8, Journal of Water Process Engineering, Amsterdam, The Netherlands, C1-1
Modification of bituminous coal by air oxidation to increase ammonia capture
W Zhang, B Han, J He, D Chen
(2020), Vol. 151, pp. 1-8, Journal of Analytical and Applied Pyrolysis, Amsterdam, The Netherlands, C1-1
In-situ FTIR-DRS investigation on shallow trap state of Cu-doped TiO2 photocatalyst
Lihong Zhang, Bing Han, Peifu Cheng, Yun Hu
(2020), Vol. 341, pp. 21-25, Catalysis Today, Amsterdam, The Netherlands, C1-1
Lignite ammonia adsorption and surface chemistry after dewatering
B Han, W Zhang, J He, D Chen
(2020), Vol. 253, pp. 1-6, Separation and Purification Technology, Amsterdam, The Netherlands, C1-1
Tunable selectivity of radical generation over TiO
C Tao, Q Jia, B Han, Z Ma
(2020), Vol. 214, pp. 1-7, Chemical Engineering Science (CES), Amsterdam, The Netherlands, C1-1
Bing Han, Wei Wei, Meijia Li, Kai Sun, Yun Hu
(2019), pp. 7816-7819, Chemical Communications, Cambridge, Eng., C1-1
Bing Han, Yun Hu
(2017), Vol. 28, pp. 1-8, Nanotechnology, Bristol, Eng., C1-1
Efficient Visible Light Photocatalytic CO2 Reforming of CH4
Bing Han, Wei Wei, Liang Chang, Peifu Cheng, Yun Hu
(2016), Vol. 6, pp. 494-497, ACS Catalysis, Washington, D.C., C1-1
MoS2 as a co-catalyst for photocatalytic hydrogen production from water
Bing Han, Yun Hu
(2016), Vol. 4, pp. 285-304, Energy Science and Engineering, London, Eng., C1-1
Highly Efficient Temperature-Induced Visible Light Photocatalytic Hydrogen Production from Water
Bing Han, Yun Hu
(2015), Vol. 119, pp. 18927-18934, JOURNAL OF PHYSICAL CHEMISTRY C, C1-1
Funded Projects at Deakin
No Funded Projects at Deakin found
Supervisions
No completed student supervisions to report