Dr. Xiaoxiang Wang | Energy storage materials | Best Researcher Award

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Dr. Xiaoxiang Wang : Leading Researcher in Energy storage materials

Research scientist at Energy storage materials, Anteotech Australia Ltd, Australia

He remarkable academic journey, extensive research contributions, and dedication to the field of psychology are truly commendable. Your wealth of knowledge and diverse skill set reflect a deep commitment to understanding and addressing critical issues such as bullying, inclusion, and socialization.

🔬 He successful completion of a PhD in Psychology, along with the numerous advanced courses and workshops, showcases your continuous pursuit of excellence and expertise in your field.

🏆 The awards and recognitions, including the First Place in the Poster Award at the University of Stavanger, underscore the impact of your research and the high regard it holds in the academic community.

Professional Profiles:

Education:

Dr. Xiaoxiang Wang completed their academic journey with a Doctorate in Material Chemistry from Queensland University of Technology in March 2021. Prior to this, they earned a Master’s Degree in Green Technology from Hong Kong Baptist University in November 2015 and a Bachelor’s Degree in Chemical Engineering from East China University of Science & Technology in July 2013. 🎓📚

Professional & Research Experience:

🔬 Dr. Xiaoxiang Wang led and managed a team of technicians to conduct rigorous testing on 600 battery channels, ensuring accurate and reliable data collection for analysis and decision-making. 🛠️ He spearheaded the optimization of Power BI dashboards, resulting in improved data representation and more effective insights for project stakeholders and management. 🤝 Dr. Wang collaborated closely with research and development teams in the application of advanced silicon-based anode materials for fast-charging lithium-ion batteries, contributing to the enhancement of battery performance and energy density. ⚡ He demonstrated expertise in assembling both coin cell and pouch cell battery configurations, facilitating comprehensive electrochemical tests such as Electrochemical Impedance Spectroscopy (EIS), Direct Current Internal Resistance (DCIR), Cyclic Voltammetry (CV), and Galvanostatic Charge-Discharge (GCD) across both two-electrode and three-electrode systems. 🧪 Furthermore, he developed and implemented rigorous testing protocols, ensuring the accuracy and repeatability of experimental results and fostering a culture of precision and quality within the research environment.

Postdoctoral Researcher:

Dr. Xiaoxiang Wang specializes in cutting-edge research involving the conversion of minimal precursor amounts into metallic clusters directly on electrode surfaces, with a subsequent focus on stabilizing resulting sub-nano-clusters and single atoms on defect-engineered surfaces. This innovative approach holds promise for various applications, particularly in the field of electrocatalytic water splitting. Dr. Wang’s work also explores the use of low-temperature atmospheric pressure plasmas, such as plasma jets, to expedite the conversion of solution metal precursors. This method not only accelerates the process but also enables precise control over the formation of sub-nano-clusters or single atom-site catalysts on metallic surfaces, which is crucial for efficient electrocatalysis. Ultimately, the goal is to advance the development of electrode materials capable of effectively facilitating water splitting, encompassing both hydrogen evolution and oxygen evolution. 🧪🔬⚡

Memberships:

Dr. Xiaoxiang Wang is an active member of the Queensland Chinese Association of Scientists and Engineers (QCASE), where they engage with fellow professionals in the Chinese scientific and engineering community in Queensland. This affiliation provides Dr. Wang with opportunities for networking, collaboration, and staying updated with the latest developments in their field within the local Chinese community. Additionally, as a member of the Australian Nanotechnology Network (ANN), Dr. Wang is part of a larger network that focuses on advancing nanotechnology research and its applications in Australia. This membership allows Dr. Wang to connect with other experts in nanotechnology, participate in relevant events and conferences, and contribute to the growth of the field nationally. 🌏🔬

Skills:

Dr. Xiaoxiang Wang possesses a diverse range of technical skills, including proficiency in Microsoft Office Pack, Power BI, Origin, Digital Micrograph, CasaXPS, EC-lab, Bruker-diffrac, 3dsMax, and Photoshop. These skills equip Dr. Wang with the necessary tools for data analysis, visualization, and image processing. In addition to their technical expertise, Dr. Wang has a strong foundation in laboratory techniques, particularly in the synthesis of nanomaterials and wet-chemical reactions. Their experience extends to coin/pouch cell assembly, lab management, and low-temperature plasma treatment, demonstrating a comprehensive understanding of experimental procedures and laboratory management. When it comes to materials characterization, Dr. Wang is well-versed in a variety of analytical techniques. This includes proficiency in field-emission scanning electron microscopy (FESEM), transmission electron microscopy (TEM), X-ray diffraction (XRD), X-ray photoelectron spectroscopy (XPS), thermogravimetric analysis (TGA), UV-visible spectroscopy (UV-vis), BET surface area analysis, Raman spectroscopy, and gas chromatography-mass spectrometry (GCMS). Their familiarity with these techniques highlights their ability to analyze and characterize materials at a detailed level, essential for their research in material chemistry. 🖥️🔬

Publication:

Corrigendum to “Aqueous alkaline–acid hybrid electrolyte for zinc-bromine battery with 3V voltage window” [Energy Storage Materials Volume 19, May 2019, Pages 56-61] (Energy Storage Materials (2019) 19 (56–61), (S2405829718312601), (10.1016/j.ensm.2019.02.024))

Porous Indium Nanocrystals on Conductive Carbon Nanotube Networks for High-Performance CO2-to-Formate Electrocatalytic Conversion

Non-thermal plasma enhances performances of biochar in wastewater treatment and energy storage applications

Biorefining of sugarcane bagasse to fermentable sugars and surface oxygen group-rich hierarchical porous carbon for supercapacitors

Potassium Doping to Enhance Green Photoemission of Light-Emitting Diodes Based on CsPbBr3 Perovskite Nanocrystals

Spiro-OMeTAD or CuSCN as a preferable hole transport material for carbon-based planar perovskite solar cells

The effect of ethylene-amine ligands enhancing performance and stability of perovskite solar cells

High performance carbon-based planar perovskite solar cells by hot-pressing approach

Plasma-induced on-surface sulfur vacancies in NiCo2S4 enhance the energy storage performance of supercapatteries

Alkaline-earth bis(trifluoromethanesulfonimide) additives for efficient and stable perovskite solar cells