Juan Bai | Materials and Structures | Women Researcher Award

Posted on by Mechanics Awards
Dr.  Queensland university of technology, Australia

Dr. Bai J. is an ARC DECRA Fellow and Lecturer at Queensland University of Technology, with a strong background in material physics and chemistry. Their research is centered on designing and synthesizing functional nanostructured materials for electrochemistry and energy conversion, particularly in fuel cells and electrocatalysis. Dr. Bai has published 24 papers in leading SCI journals such as Advanced Materials and ACS Energy Letters. Recognized for their contributions, they have received prestigious awards, including the Australian Research Council DECRA and Discovery Projects awards. Dr. Bai holds a Ph.D. from Shaanxi Normal University and has extensive expertise in electrochemical energy storage and conversion devices.

Professional Profiles:

Google scholar

 

🎓 Education

Feb. 2024 – Present:
ARC DECRA Fellow/Lecturer, School of Chemistry and Physics, Queensland University of Technology, Brisbane, Australia.Apr. 2020 – Jan. 2024:
Postdoc in Electrocatalysis, School of Chemistry and Physics, Queensland University of Technology, Brisbane, Australia.
Supervisors: Prof. Ziqi Sun, Jun MeiSep. 2016 – Jun. 2019:
Ph.D. in Material Physics and Chemistry, School of Materials Science and Engineering, Shaanxi Normal University, Xi’an, China.
Supervisors: Prof. Yu Chen, Jinghui ZengSep. 2012 – Jun. 2015:
M.S. in Physical Chemistry, College of Chemistry and Materials Science, Nanjing Normal University, Nanjing, China.
Supervisors: Prof. Dongmei Sun, Yu Chen, Tianhong LuSep. 2008 – Jun. 2012:
B.S. in Science Education, Department of Applied Chemistry, Yuncheng University, Yuncheng, China.

🔬 Research Objectives

My research is centered on the design and synthesis of functional nanostructured materials for applications in electrochemistry and energy conversion devices. Key areas of focus include:Anodic and Cathodic Reactions of Fuel Cells: ORR, MOR, EOR, and FAORElectrocatalysts: Noble metal-based (Pt, Pd, Rh) nanoparticles for HER, OER, and NRRAs the first/co-first/corresponding author, I have published 24 papers in top-tier SCI Journals such as Advanced Materials, ACS Energy Letters, and Advanced Energy Materials.

🏆 Awards and Honors

2023: Australian Research Council Discovery Early Career Researcher Award (DECRA) – $448,407.002023: Australian Research Council Discovery Projects – $404,530.002018: National Scholarship for Graduate Students (Ph.D.)2017: Research Individual Award by Shaanxi Normal University2017: Ji-Xue Scholarship by Shaanxi Normal University2016: Yuan-Ding Scholarship by Shaanxi Normal University2015: Excellent Student Award by Nanjing Normal University

Strengths for the Award

  1. Extensive Research Experience: The candidate has a strong background in material physics and chemistry, with a focus on nanostructured materials and their applications in electrochemical energy conversion. This expertise is highly relevant to the award, as it demonstrates a deep understanding of a critical field in modern science.
  2. Publication Record: With 24 papers published in high-impact SCI journals such as Advanced Materials, ACS Energy Letters, and Advanced Energy Materials, the candidate has established herself as a leading researcher in her field. This prolific publication record underscores her ability to contribute original and significant research to the scientific community.
  3. Award and Recognition: The candidate has received prestigious awards, including the 2023 Australian Research Council Discovery Early Career Researcher Award (DECRA) and substantial research funding. These accolades reflect her recognized potential and achievements within the scientific community.
  4. Research Focus on Sustainability: The candidate’s work on electrocatalysts and fuel cells, especially in the context of sustainable energy, aligns with global priorities in renewable energy and environmental protection. This makes her research not only innovative but also socially and environmentally impactful.
  5. Professional Skills: The candidate has demonstrated a high level of expertise in experimental techniques, theoretical knowledge, and the use of advanced instrumentation. These skills are essential for conducting cutting-edge research in electrochemistry and material science.

Areas for Improvement

  1. Broader Impact and Outreach: While the candidate has an impressive academic and research background, there is limited information on her involvement in outreach activities, mentoring, or promoting women in science. Increasing visibility and engagement in these areas could enhance her candidacy for a Women Researcher Award, which often considers contributions beyond academic achievements.
  2. Interdisciplinary Collaboration: While the candidate’s research is highly specialized, further collaboration across disciplines could lead to broader applications of her work and increase its overall impact. Engaging in interdisciplinary projects or collaborations with industry could further elevate her profile.

 

✍️Publications Top Note :

Nanocatalysts for Electrocatalytic Oxidation of Ethanol
Authors: J. Bai, D. Liu, J. Yang, Y. Chen
Journal: ChemSusChem, 12(10), 2117-2132, 2019
Citations: 170
🧪 Focus: Ethanol oxidation using nanocatalysts.

Polyallylamine-Functionalized Platinum Tripods: Enhancement of Hydrogen Evolution Reaction by Proton Carriers
Authors: G.R. Xu, J. Bai, L. Yao, Q. Xue, J.X. Jiang, J.H. Zeng, Y. Chen, J.M. Lee
Journal: ACS Catalysis, 7(1), 452-458, 2017
Citations: 147
🔋 Focus: Hydrogen evolution reaction.

Bimetallic Platinum–Rhodium Alloy Nanodendrites as Highly Active Electrocatalyst for the Ethanol Oxidation Reaction
Authors: J. Bai, X. Xiao, Y.Y. Xue, J.X. Jiang, J.H. Zeng, X.F. Li, Y. Chen
Journal: ACS Applied Materials & Interfaces, 10(23), 19755-19763, 2018
Citations: 145
⚗️ Focus: Platinum-rhodium alloy for ethanol oxidation.

Atomically Ultrathin RhCo Alloy Nanosheet Aggregates for Efficient Water Electrolysis in Broad pH Range
Authors: Y. Zhao, J. Bai, X.R. Wu, P. Chen, P.J. Jin, H.C. Yao, Y. Chen
Journal: Journal of Materials Chemistry A, 7(27), 16437-16446, 2019
Citations: 143
🌊 Focus: Water electrolysis using RhCo alloy nanosheets.

Au Nanowires@Pd-Polyethylenimine Nanohybrids as Highly Active and Methanol-Tolerant Electrocatalysts Toward Oxygen Reduction Reaction in Alkaline Media
Authors: Q. Xue, J. Bai, C. Han, P. Chen, J.X. Jiang, Y. Chen
Journal: ACS Catalysis, 8(12), 11287-11295, 2018
Citations: 133
🧪 Focus: Oxygen reduction reaction in alkaline media.

Polyethyleneimine Functionalized Platinum Superstructures: Enhancing Hydrogen Evolution Performance by Morphological and Interfacial Control
Authors: G.R. Xu, J. Bai, J.X. Jiang, J.M. Lee, Y. Chen
Journal: Chemical Science, 8(12), 8411-8418, 2017
Citations: 115
⚛️ Focus: Hydrogen evolution through platinum superstructures.

Hydrothermal Synthesis and Catalytic Application of Ultrathin Rhodium Nanosheet Nanoassemblies
Authors: J. Bai, G.R. Xu, S.H. Xing, J.H. Zeng, J.X. Jiang, Y. Chen
Journal: ACS Applied Materials & Interfaces, 8(49), 33635-33641, 2016
Citations: 96
🔬 Focus: Rhodium nanosheet for catalytic applications.

Molybdenum‐Promoted Surface Reconstruction in Polymorphic Cobalt for Initiating Rapid Oxygen Evolution
Authors: J. Bai, J. Mei, T. Liao, Q. Sun, Z.G. Chen, Z. Sun
Journal: Advanced Energy Materials, 12(5), 2103247, 2022
Citations: 87
Focus: Oxygen evolution in cobalt.

One-Pot Fabrication of Hollow and Porous Pd–Cu Alloy Nanospheres and Their Remarkably Improved Catalytic Performance for Hexavalent Chromium Reduction
Authors: S.H. Han, J. Bai, H.M. Liu, J.H. Zeng, J.X. Jiang, Y. Chen, J.M. Lee
Journal: ACS Applied Materials & Interfaces, 8(45), 30948-30955, 2016
Citations: 85
🌍 Focus: Catalytic reduction of hexavalent chromium.

Glycerol Oxidation Assisted Electrocatalytic Nitrogen Reduction: Ammonia and Glyceraldehyde Co-Production on Bimetallic RhCu Ultrathin Nanoflake Nanoaggregates
Authors: J. Bai, H. Huang, F.M. Li, Y. Zhao, P. Chen, P.J. Jin, S.N. Li, H.C. Yao, J.H. Zeng
Journal: Journal of Materials Chemistry A, 7(37), 21149-21156, 2019
Citations: 84

Conclusion

The candidate is exceptionally well-suited for the Women Researcher Award, given her extensive research experience, strong publication record, and recognized achievements in the field of electrochemistry and materials science. Her work is not only innovative but also highly relevant to global challenges, particularly in sustainable energy. To further strengthen her candidacy, the candidate might consider expanding her impact through outreach, mentoring, and interdisciplinary collaboration.

Prof Dr. Ang Cao | theoretical catalysis | Best Researcher Award

Posted on by Mechanics Awards

Prof Dr. Ang Cao | theoretical catalysis | Best Researcher Award

Prof Dr. Ang Cao, zhejiang university, china

Prof Dr. Ang Cao is academic and researcher in the field of renewable energy, holds a PhD in Bio systems Engineering from Kangwon National University, South Korea. His academic journey has been marked by a profound dedication to advancing solar energy technologies, specifically in solar thermal harvesting and its integration into agricultural and architectural applications.

 

Professional Profiles:

Google scholar

Education Background 🎓

Ph.D. in Chemical Engineering
09/2016 – 03/2018
Stanford University
Supervisor: Prof. Jens K. Nørskov

Industrial Catalysis
09/2012 – 07/2018
Tianjin University

Work Experiences 🧪

Researcher/Professor
03/2024 – Present
Zhejiang UniversityTenure-Track Researcher
07/2023 – 02/2024
Technical University of DenmarkPostdoctoral Researcher
03/2019 – 06/2023
Technical University of Denmark
Supervisor: Prof. Jens K. NørskovAssistant Researcher
07/2018 – 02/2019
Westlake University
Supervisor: Prof. Jianping Xiao

Highlights

Research interests in the theoretical description of surface, catalysts, and nanostructure.🔍 Focus on reaction mechanism understanding and catalyst design of CO/CO2/N2 reduction. Rich experience in preparing catalysts derived from layered double hydroxides (LDHs) and perovskite.💻 Proficient in DFT calculation, Machine Learning, and Spin Catalysis.

Skills 💻

Material Analysis Techniques: XRD, SEM, TEM, XPS, TPR, TPD, Raman, BET, FT-IR, TGA, Gas chromatography, etc.Software: Quantum Espresso, Gaussian, VASP, MS Office, Origin, AutoCAD, Photoshop, etc.Programming Language: Python

📖 Publications Top Note :

Synergy Effects on Sn-Cu Alloy Catalyst for Efficient CO2 Electroreduction to Formate with High Mass Activity

K Ye†, A Cao†, J Shao†, G Wang, R Si, N Ta, J Xiao, G Wang
Science Bulletin 65 (9), 711-719 163 2020

Monitoring Oxygen Production on Mass-Selected Iridium–Tantalum Oxide Electrocatalysts

YR Zheng, J Vernieres, Z Wang, K Zhang, D Hochfilzer, K Krempl, …
Nature Energy 7 (1), 55-64 128 2022

Elucidation of the Synergistic Effect of Dopants and Vacancies on Promoted Selectivity for CO2 Electroreduction to Formate

Z Li†, A Cao†, Q Zheng, Y Fu, T Wang, KT Arul, JL Chen, B Yang, NM Adli, …
Advanced Materials 33 (2), 2005113 116 2021

Relations between Surface Oxygen Vacancies and Activity of Methanol Formation from CO2 Hydrogenation Over In2O3 Surfaces

A Cao, Z Wang, H Li, JK Nørskov
ACS Catalysis 11 (3), 1780-1786 105 2021

Understanding Oxygen Vacancies in Disorder-Engineered Surface and Subsurface of CaTiO3 Nanosheets on Photocatalytic Hydrogen Evolution

J Cai, A Cao, J Huang, W Jin, J Zhang, Z Jiang, X Li
Applied Catalysis B: Environmental 267, 118378 105 2020

Selectivity of Synthesis Gas Conversion to C2+ Oxygenates on fcc(111) Transition-Metal Surfaces

J Schumann, AJ Medford, JS Yoo, ZJ Zhao, P Bothra, A Cao, F Studt, …
ACS Catalysis 8 (4), 3447-3453 86 2018

Copper/Alkaline Earth Metal Oxide Interfaces for Electrochemical CO2-to-Alcohol Conversion by Selective Hydrogenation

A Xu, SF Hung, A Cao†, Z Wang, N Karmodak, JE Huang, Y Yan, …
Nature Catalysis, 1-8 76 2022

Electrocatalytic Nitrate-to-Ammonia Conversion with ~100% Faradaic Efficiency via Single-Atom Alloying

J Cai†, Y Wei†, A Cao†, J Huang, Z Jiang, S Lu, SQ Zang
Applied Catalysis B: Environmental 316, 121683 76 2022

Mechanistic Insights into the Synthesis of Higher Alcohols from Syngas on CuCo Alloys

A Cao, J Schumann, T Wang, L Zhang, J Xiao, P Bothra, Y Liu, …
ACS Catalysis 8 (11), 10148-10155 74 2018

The Deactivation of Cu–Co Alloy Nanoparticles Supported on ZrO2 for Higher Alcohols Synthesis from Syngas

GL Liu, T Niu, A Cao, YX Geng, Y Zhang, Y Liu
Fuel 176, 1-10 66 2016

Nanoparticles of Cu–Co Alloy Derived from Layered Double Hydroxides and Their Catalytic Performance for Higher Alcohol Synthesis from Syngas

A Cao, G Liu, Y Yue, L Zhang, Y Liu
RSC Advances 5 (72), 58804-58812 64 2015

Growing Layered Double Hydroxides on CNTs and Their Catalytic Performance for Higher Alcohol Synthesis from Syngas

A Cao, G Liu, L Wang, J Liu, Y Yue, L Zhang, Y Liu
Journal of Materials Science 51, 5216-5231 62 2016

A Spin Promotion Effect in Catalytic Ammonia Synthesis

A Cao, VJ Bukas, V Shadravan, Z Wang, H Li, J Kibsgaard, I Chorkendorff, …
Nature Communications 13 (1), 2382 60 2022

Metal-Organic Frameworks Derived Anatase/Rutile Heterostructures with Enhanced Reaction Kinetics for Lithium and Sodium Storage

G Liu, L Xu, Y Li, D Guo, N Wu, C Yuan, A Qin, A Cao, X Liu
Chemical Engineering Journal 430, 132689 55 2022

Origins of the Instability of Nonprecious Hydrogen Evolution Reaction Catalysts at Open-Circuit Potential

Z Wang, YR Zheng, J Montoya, D Hochfilzer, A Cao, J Kibsgaard, …
ACS Energy Letters 6 (6), 2268-2274 55