GX Research Hub · English
GX & Decarbonization Research
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.
🇪🇺 Europe📚 Peer-reviewed · JournalSustainable Development2026#Energy TransitionDOI
Learning to Power the Future: How Education, Finance, and R&D Drive Sustainable Bioenergy Transitions
Xin Li, Derrick Fulton
This study analyzes drivers of bioenergy transition in Nordic countries from 1996 to 2023 using quantile regression. Research intensity (RI) is the strongest and most consistent factor, with a 1% increase leading to a 12.2% increase in bioe…
📚 Peer-reviewed · JournalRevista ft2026#Energy TransitionDOI
THE ROLE OF UNDERWATER ROBOTICS IN THE OFFSHORE ENERGY TRANSITION: SUPPORT FOR OFFSHORE WIND, GREEN HYDROGEN, AND CCS
Igor Barcelo Uchoa de Castro
This paper reviews the role of underwater robotics (ROVs and AUVs) in supporting offshore wind, green hydrogen, and CCS, based on Brazilian studies. It systematizes evidence on subsea activities like seabed surveys, cable inspection, and en…
🇺🇸 USA📚 Peer-reviewed · JournalJournal of Petroleum Technology2026#Energy TransitionDOI
Field-Proven Mobile LNG Technology Shifts From Flaring to Power Generation
C. Carpenter
This paper introduces a field-deployable, trailer-mounted LNG system that converts flared gas into low-carbon LNG, reducing methane emissions and displacing diesel in oilfield operations and off-grid applications. It addresses challenges of…
Kuwait Oil & Gas Show2026#Energy TransitionDOI
Framework for Managing Energy Transition in Kuwait Oil Company
B. Al-Moosawi, N. Aravind, M. Haider
This paper presents Kuwait Oil Company's energy transition framework to achieve net-zero by 2050. It integrates flaring elimination, energy efficiency, renewables, CCUS, and offsetting into existing management systems and governance. The fr…
CN📚 Peer-reviewed · JournalNature Communications2025#Energy TransitionDOI
Reducing transition costs towards carbon neutrality of China’s coal power plants
Rui Wang, Wenjia Cai, Ryna Yiyun Cui +14
This paper examines strategies to reduce the economic costs of transitioning China's coal power plants to carbon neutrality. It explores policy mechanisms and technological options to minimize stranded assets and ensure a just transition.
🌍 GlobalPreprintNew Trends in Sustainable Business and Consumption2025#Energy TransitionDOI
Economic Barriers and Incentives in the Energy Transition: A Comparative Analysis of Policy Frameworks and Market Responses
Mădălina Ana Burduja, Dorel Mihai Paraschiv
This paper examines how carbon pricing, subsidies, and green finance affect renewable energy investment across the EU, US, and South Korea. It finds that well-structured carbon pricing and consistent regulatory frameworks are essential, wit…
🌍 GlobalPreprintEast Asia2025#Energy TransitionDOI
A Silent Monopoly? China’s Growing Influence on Latin America’s Energy Transition
Ge Gao
This article examines China's expanding and evolving influence on Latin America's energy transition, from early sovereign loans for fossil fuels and hydroelectric projects, through state-owned M&A in clean energy, to recent greenfield inves…
🌍 Global📚 Peer-reviewed · Journalsteel research international2026#Energy TransitionDOI
Barriers to Steel Decarbonization
Pasquale Cavaliere
This paper comprehensively reviews barriers to steel decarbonization, covering the transition from BF-BOF to EAF and DRI, the role of hydrogen and CCUS, and policy support. It highlights projects like HYBRIT and identifies economic, technol…
🌍 GlobalDatasetZenodo (CERN European Organization for Nuclear Research)2026#Energy TransitionDOI
Future scenarios for the cost of capital of energy technologies linked to the Shared Socioeconomic Pathways
Luke Hatton, Gbemi Oluleye, Florian Egli +3
This paper presents global scenarios for the cost of capital (CoC) of energy technologies from 2025 to 2100 across 188 countries, linked to Shared Socioeconomic Pathways. It accounts for technology maturity levels and policy environments, w…
🌍 GlobalDatasetZenodo (CERN European Organization for Nuclear Research)2026#Energy TransitionDOI
Future scenarios for the cost of capital of energy technologies linked to the Shared Socioeconomic Pathways
Luke Hatton, Gbemi Oluleye, Florian Egli +3
This paper presents global scenarios for the cost of capital (CoC) of energy technologies, linked directly to the Shared Socioeconomic Pathways (SSPs). It covers 188 countries from 2025 to 2100, considering five technology maturity levels a…
🌍 Global📚 Peer-reviewed · JournalClimate Policy2026#Energy TransitionDOI
Deep Decarbonization Pathways for national development consistent with carbon neutrality
Henri Waisman, Chris Bataille, Yann Briand +2
This paper proposes deep decarbonization pathways that align with carbon neutrality while supporting national development. It integrates energy systems, industrial structures, and policy instruments, demonstrating applicability across diver…
🌍 GlobalJournal2026#Energy TransitionDOI
Decarbonization and the Energy Transition in Waste Management in the Pulp and Paper Industry
Suresh Kumar Sundaramurthy, Anuj Kumar Verma
The pulp and paper industry generates large amounts of waste (bark, black liquor, lignocellulosic sludge) that can be converted into methane as an energy source. This methane production enhances national energy security, helps decarbonize p…
🌍 GlobalPreprint2025#Energy TransitionDOI
Implementing Sustainable Living at Scale
Willis, John
This book is a practical manual for translating sustainability principles into repeatable delivery routines. It centers on four claims: reduce structural demand, build continuous networks, embed stewardship and justice, and bind money to ve…
🇯🇵→🌍 Japan-to-Global🇯🇵 Japan📚 Peer-reviewed · JournalResourceedings2026#Energy TransitionDOI
Optimization of Campus Distributed Energy System Based on Multi-Criteria Decision-Making: A Case Study of Kitakyushu Science and Research Park
Yi Yu, Weijun Gao
This study diagnoses a 108% increase in carbon emission intensity at Kitakyushu Science and Research Park using 20 years of operational data. Applying AHP-TOPSIS, it evaluates technologies including PV, storage, and smart microgrids, findin…
CNPreprintSustainability2025#Energy TransitionDOI
Sustainable Transition Pathways for Steel Manufacturing: Low-Carbon Steelmaking Technologies in Enterprises
Jinghua Zhang, Haoyu Guo, Gaiyan Yang +2
This paper systematically reviews low-carbon steelmaking technologies across three stages (source, process, end-of-pipe) for both BF-BOF and EAF routes. It compares hydrogen direct reduction, CCUS, and other technologies, evaluating emissio…
🌍 Global📚 Peer-reviewed · JournalInternational Journal of Drug Delivery Technology2026#Energy TransitionDOI
Digital Twins For Urban Mitigation: Modelling City-Wide Carbon Neutrality Scenarios Via High-Performance Computing (HPC)
Nilesh Patil, Balajee Maram
This paper proposes a framework integrating urban digital twins with high-performance computing (HPC) to model city-wide carbon neutrality pathways. It combines building energy, transport, renewable generation, and microclimate models, enab…
🌍 GlobalPreprintResearch Square2026#Energy TransitionDOI
Commonalities and differences in national pathways toward net-zero emissions
Anuj Pathak, Saritha Sudharmma Vishwanathan, Shinichiro Fujimori +47
This study compares and contrasts national pathways toward net-zero emissions across multiple countries, focusing on policy, technology, and socio-economic factors to identify commonalities and differences.
🌍 Global📚 Peer-reviewed · JournalJournal of Energy Storage2026#Energy TransitionDOI
The next frontier in cathode chemistry: A global patent landscape on Lithium Manganese Iron Phosphate (LMFP) blended cathode materials in lithium-ion batteries
Rakesh Jain, Athira K.R, Jignesh Bhate
This paper presents a global patent landscape analysis of LMFP blended cathode materials for lithium-ion batteries, revealing technology trends and key patent holders. It provides a valuable resource for understanding the competitive landsc…
🇪🇺 Europe📚 Peer-reviewed · JournalResources2026#Energy TransitionDOI
Carbon Emissions Modeling of Coal and Natural Gas Use in Poland’s Net-Zero Energy Transition
Bożena Gajdzik, Radosław Wolniak, D. Bałaga +1
This study develops econometric models to analyze GHG emissions from coal and natural gas consumption in Poland (2015-2023). Results show coal remains the dominant driver of absolute emissions, while renewable expansion significantly reduce…
🇯🇵→🌍 Japan-to-Global🇯🇵 Japan📚 Peer-reviewed · JournalJ-STAGE#Energy TransitionDOI
What Is Needed for a Decarbonized Business Model
脱炭素のビジネスモデルに必要なもの
(著者不明)
This article discusses the necessity for companies to transform their business models to achieve decarbonization. It highlights key elements such as integration into business strategy, technology investment, and stakeholder collaboration, w…