Hydrogen production: current state and future trajectories of development
ChenHongWen Z, Teoh YH, How HG, Yaqoob H, Idroas MY, Le TD, Jamil MA, Jamil MM, Shahzad MW (2026)
Publication Type: Journal article, Review article
Publication year: 2026
Journal
Book Volume: 30
Article Number: 101691
DOI: 10.1016/j.ecmx.2026.101691
Abstract
Hydrogen can act as a low-carbon energy carrier, but its climate benefit depends on the production pathway, energy source, and system boundary. This review synthesizes recent progress (2020–2025) in hydrogen production technologies, covering thermochemical routes (steam methane reforming (SMR) with/without carbon capture and storage (CCS)), water electrolysis (alkaline, proton exchange membrane (PEM), and solid oxide electrolysis (SOEC)), and emerging photo-, bio-, and ultrasound-assisted pathways. To move beyond a descriptive catalog, the technologies are benchmarked using consistent criteria including technology readiness level (TRL), scalability constraints, key technical bottlenecks, and levelized cost of hydrogen (LCOH). Energy efficiencies are reported on a lower heating value (LHV) basis where available and explicitly labeled otherwise. For SOEC in particular, the highest reported LHV efficiencies typically assume high-temperature steam operation and system-level heat integration; accordingly, whenever SOEC efficiency values are discussed, the accounting boundary (electricity-only vs. electricity + heat) is stated to avoid misinterpretation.3. The analysis highlights near-term supply realities and the conditions required for deep decarbonization, while identifying prioritized research trajectories in catalyst durability, system-level heat and mass integration, standardized reporting of energy and cost metrics, and robust life-cycle assessment.
Involved external institutions
University of Science Malaysia (USM) / Universiti Sains Malaysia
Malaysia (MY)
UOW Malaysia KDU Penang University College
Malaysia (MY)
Northumbria University
United Kingdom (GB)
University of Economics Ho Chi Minh City
Viet Nam (VN)
Malaysia (MY)
UOW Malaysia KDU Penang University College
Malaysia (MY)
Northumbria University
United Kingdom (GB)
University of Economics Ho Chi Minh City
Viet Nam (VN)
How to cite
APA:
ChenHongWen, Z., Teoh, Y.H., How, H.G., Yaqoob, H., Idroas, M.Y., Le, T.D.,... Shahzad, M.W. (2026). Hydrogen production: current state and future trajectories of development. Energy Conversion and Management: X, 30. https://doi.org/10.1016/j.ecmx.2026.101691
MLA:
ChenHongWen, Zeng, et al. "Hydrogen production: current state and future trajectories of development." Energy Conversion and Management: X 30 (2026).
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