This page provides an English interface to the gxceed GX paper corpus. The corpus aggregates papers from 13 open scholarly metadata sources and uses AI-assisted classification to identify signals related to measurement, policy narratives, outcomes, implementation, industrial adoption, and verification.
The goal is not only to discover papers, but to observe how GX research is distributed across research substance, implementation narratives, external expectations, implementation substance, and judgment formation.
Summaries are AI-assisted. Always refer to the original paper for authoritative conclusions.
Showing 61–80 of 146 papers
Li H.
This comprehensive review examines global research on carbon capture, utilization, and storage (CCUS) technology in the context of China's carbon peak and neutrality goals. It synthesizes current progress and identifies challenges, offering…
Sun Y.
This paper systematically identifies and analyzes obstacles hindering the commercialization of CCUS technology in China under its carbon neutrality target. It evaluates technical, economic, policy, and social barriers, offering insights for…
Buure K.
This paper examines the business case for carbon capture, utilisation and storage (CCUS). It likely explores the gap between its promise and commercial reality, questioning whether a viable business model exists.
Stephen Heath, K. Jarrahian, E. Mackay
This review explores the potential of subsurface microbial biomineralization for CCUS. Ureolysis and carbonic anhydrase-driven carbonate precipitation can seal fractures and enhance CO2 trapping. Challenges include microbial survival under …
Hesham Moubarak, Alireza Bigdeli, A. Agarwal +2
This review comprehensively surveys direct air capture (DAC) technologies, sorbent materials, energy systems, and subsurface CO2 storage. It compares solid- and liquid-based DAC, discusses challenges, and notes capture costs of $200-600/ton…
T. G. Krupnova, O. Rakova
This review comprehensively examines the latest technologies and practices for decarbonizing the steel industry, focusing on innovations such as CCUS, direct reduction with green hydrogen, and direct electrolysis of iron ore. It analyzes cu…
Yue Wang
This review systematically summarizes CCUS pathways including advanced adsorption, catalytic conversion, biological sequestration, and mineralization. It analyzes challenges such as material costs, energy consumption, environmental risks, a…
Adam Wilson
This report from the 2026 CCUS conference highlights the scaling and funding challenges of carbon capture, and the phenomenon of 'greenhushing' where companies underreport their transition investments due to political backlash.
PRIYA RANJAN
This paper introduces the application and development of carbon reduction and carbon capture technologies in industrial sustainable development, analyzing the importance of CCUS in greenhouse gas reduction and highlighting cases in steel, r…
Luciana Miu, Rebecca Wells, Dan Hill +1
This systematic review and expert interview study finds that public perceptions of CCS vary by context and can change quickly. Key concerns include safety, cost, fossil lock-in, and local disruption. Tailored communication from credible mes…
Wenchao Lan, Shuangjun Li, Shuai Deng
This paper proposes a Cluster Adsorption Langmuir Model (CALM) for CO2 adsorption in carbon capture, bridging ideal and real adsorption scenarios. It improves the predictive accuracy for CO2 capture performance, contributing to CCUS technol…
Amanda Campos, M. Z. Jacobson
Lifecycle analysis of 116 US CCUS projects finds average net capture rates of 39-58%, well below the common 90% assumption. Projects using CO2 for enhanced oil recovery often result in net emissions increases, suggesting flaws in the 45Q ta…
Xingran Wang, Huilin Fan, Chao LIN +2
This technology uses renewable electricity to electrochemically capture CO2, achieving negative carbon emissions. It offers a promising alternative to conventional amine scrubbing with lower energy consumption. However, cost and scalability…
Zhifu Liu, Chuhan Fu, Tao Qi +4
This review systematically summarizes pore structure construction strategies for porous carbon materials (PCMs) for CO2 capture. Ideal pore features include specific surface area >1000 m2/g, total pore volume >0.5 cm3/g, high proportion of …
Nitin Goyal, Peng Gao, Liying Liu +4
This study develops CO2 capture technology using amine-impregnated oxidized granular carbon, demonstrating high selectivity over N2 and efficient CO2 separation. It contributes to CCUS advancement.
Han-Shu Jao, Zeyu Tao, Jin Shang +1
This study develops a 0-D equilibrium screening framework to translate laboratory adsorption data into process-level performance indicators for CO2 capture. It evaluates three scenarios (post-combustion, direct air capture, natural gas puri…
Eduardo G. Pereira, Cristina Rodrigues, Margarita Nieves Zárate +1
This paper analyzes legal and regulatory challenges in repurposing decommissioned petroleum infrastructure for CCUS projects. It identifies gaps in ownership, liability, and long-term monitoring, recommending regulatory harmonization, finan…
Zi Wang, Jiayu Zheng, Siyuan Guo +6
This review categorizes direct ocean carbon capture methods into biological, electrochemical, and membrane-based types, evaluating efficiency, energy consumption, cost, TRL, scalability, and challenges. Electrochemical methods achieve 60-85…
Yyldyz Berdimyradova, Gurbanmyrat Gurbanmyradov
This paper evaluates the role of CCUS technologies in mitigating GHG emissions from the fossil fuel sector. It examines technical processes of CO2 capture, transport, injection into depleted reservoirs or saline aquifers, the economic viabi…
Zhen Xu, Angus Pedersen, Shunsuke Shimizu +5
This study develops a new porous carbon electrode for electrochemical CO2 capture. Combining micro- and mesoporosity, it outperforms commercial benchmarks with faster CO2 adsorption and lower energy consumption, highlighting the importance …
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