How CO2 Self-Consumption Distorts the Apparent Tafel Slope The Tafel slope is a critical descriptor of electrocatalytic performance; yet, its interpretation is frequently complicated by mass transport limitations. This is particularly true for the electrochem...

Are CO₂ catalysts really underperforming? Understanding and controlling the local reaction environment is essential for accurate data and better catalyst design.
👉 Read the full paper: pubs.acs.org/doi/10.1021/...

Positively Charged Polymer‐Brush MOFs for Large‐Area, Pressure‐Resistant Gas Separation Membranes A universal POPA strategy enables positively charged polymer-brush MOFs with self-adaptive interfacial interlocking to resist aggregation under fast processing. This design ensures seamless dispersio...

The "Velcro" Breakthrough 🌍
A GETCO2 breakthrough uses polymer brush MOFs with static repulsion, like Velcro, to keep particles evenly spaced during high speed coating. Result: roll-to-roll, 1 m wide membranes for industrial CO₂ capture!
advanced.onlinelibrary.wiley.com/doi/10.1002/...

Diverging maturity and converging challenges of water and CO₂ electrolysis in 2025 Nature Reviews Clean Technology - In 2025, water electrolysis for green hydrogen production continued to progress towards gigawatt-scale deployment worldwide, whereas CO₂ electrolysis for...

Chuan Zhao, Huihui Li,& Fengwang Li highlight 2025 as a landmark year for the green electrochemical revolution. Get their take on how the advanced maturity of water electrolysis provides a critical roadmap for commercialisation of CO₂ electrolysis. rdcu.be/eZ9S4

Delicate membranes given super strength to transform green energy tech Chemical engineers at The University of Queensland are harnessing an intricate building technique to produce the hyper-thin film membranes that boost the reliability, efficiency, and lifespan of key c...

Breakthrough membrane tech in Nature Synthesis!
Zhuyuan Wang & Xiwang Zhang developed ultra thin, super strong membranes that boost durability, flexibility & ion transport in clean energy systems.

Study: www.nature.com/articles/s44...

#GETCO2 #MaterialsScience #UQResearch #Electrochemistry

New reviews on catalysts and membrane strategies
👉 Enhancing data reproducibility & relevance for performance-mechanism studies in CO2 electrocatalysis doi.org/10.1016/j.jo...
👉 Advances in Stabilizing Spinel Cobalt Oxide-Based Catalysts for Acidic Oxygen Evolution Reaction doi.org/10.1002/advs...

In this paper from Chemical Society Reviews, Chuan Zhao's team explores how electrochemical systems can convert CO₂ and CO into fuels and chemicals at ampere-level current densities.
👉 pubs.rsc.org/en/content/a...

#GETCO2 #CO2Utilisation #Electrochemistry #CleanEnergy #Catalysis #ClimateTech

Systematic mapping of hydrogen and oxygen bubble contact angles under alkaline water electrolysis conditions: Effects of temperature, KOH concentration, and immersion time Bubble accumulation in the flow channel of graphite bipolar plate of an electrolyser lowers the electrolysis efficiency, yet the hydrogen and oxygen b…

www.sciencedirect.com/science/arti...

Bubble behaviour in electrolysers might seem like a small detail, but it has a big impact on performance.

In this study Prof Yansong Chen and his team measured how hydrogen and oxygen bubbles interact with graphite bipolar plates under alkaline water electrolysis conditions.

A global minerals trust could prevent inefficient and inequitable protectionist policies Critical mineral supply and demand require global coordination to reduce market volatility and conflict risk

Clean energy transition depends on fair access to critical minerals — but how do we ensure equity, stability, and avoid conflict? Prof. Saleem H. Ali (GETCO2, @UDelaware, @UNUINWEH) proposes a global minerals. Read his new paper in Science
#CriticalMinerals #GlobalPolicy #ResourceEquity

Enhancing data reproducibility and relevance for performance-mechanism studies in CO2 electrocatalysis Yu Yang joined Dr. Fengwang Li’s group as a PhD candidate in 2021 at the University of Sydney. Her research focuses on catalyst and system design for …

Making CO₂ useful starts with better science. This article by GETCO2 researchers calls for clear data, shared methods, and real-world testing to boost trust and progress in CO₂ conversion tech. Open data + smart tools = faster climate solutions. #CO2RR #CleanTech #ReproducibleScience

The Ratio of sp2 and sp3 Hybridized Carbon Determines the Performance of Carbon‐based Catalysts in H2O2 Electrosynthesis from O2 In the field of two-electron oxygen reduction reaction, carbon-based catalysts are widely adopted. Our statistical analysis connivingly reveals that the ratio of sp2 to sp3 hybridized carbon, rather ...

GETCO2 researchers have found that tweaking the ratio of different carbon bonds in catalysts can significantly improve their performance in producing hydrogen peroxide (H2O2). This discovery could lead to more efficient and sustainable industrial processes. 🌱🔬 #Catalysis #Sustainability #GETCO2

GETCO2 Muxina and Ray demonstrates electrolysis cell YouTube video by GETCO2

How does an electrochemical cell work, and what is it made of? Dr Ray Bi and Dr Muxina Konarova explain youtu.be/KmNNRtKnpd0?...

Welcome to the ARC Centre of Excellence for Green Electrochemical Transformation of Carbon Dioxide!

Follow us to stay updated on the latest research, converting a waste product, CO2, into valuable products and fuels.

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