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Oxygen-rich microporous carbons with exceptional hydrogen storage capacity

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  • L. Scott Blankenship

    (University of Nottingham, University Park)

  • Norah Balahmar

    (University of Nottingham, University Park)

  • Robert Mokaya

    (University of Nottingham, University Park)

Abstract

Porous carbons have been extensively investigated for hydrogen storage but, to date, appear to have an upper limit to their storage capacity. Here, in an effort to circumvent this upper limit, we explore the potential of oxygen-rich activated carbons. We describe cellulose acetate-derived carbons that combine high surface area (3800 m2 g−1) and pore volume (1.8 cm3 g−1) that arise almost entirely (>90%) from micropores, with an oxygen-rich nature. The carbons exhibit enhanced gravimetric hydrogen uptake (8.1 wt% total and 7.0 wt% excess) at −196 °C and 20 bar, rising to a total uptake of 8.9 wt% at 30 bar, and exceptional volumetric uptake of 44 g l−1 at 20 bar, and 48 g l−1 at 30 bar. At room temperature they store up to 0.8 wt% (excess) and 1.2 wt% (total) hydrogen at only 30 bar, and their isosteric heat of hydrogen adsorption is above 10 kJ mol−1.

Suggested Citation

  • L. Scott Blankenship & Norah Balahmar & Robert Mokaya, 2017. "Oxygen-rich microporous carbons with exceptional hydrogen storage capacity," Nature Communications, Nature, vol. 8(1), pages 1-12, December.
    • Handle: RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_s41467-017-01633-x
    DOI: 10.1038/s41467-017-01633-x
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    Cited by:

    1. Al Ibtida Sultana & Nepu Saha & M. Toufiq Reza, 2021. "Synopsis of Factors Affecting Hydrogen Storage in Biomass-Derived Activated Carbons," Sustainability, MDPI, vol. 13(4), pages 1-18, February.
    2. Shengjun Du & Jiawu Huang & Matthew R. Ryder & Luke L. Daemen & Cuiting Yang & Hongjun Zhang & Panchao Yin & Yuyan Lai & Jing Xiao & Sheng Dai & Banglin Chen, 2023. "Probing sub-5 Ångstrom micropores in carbon for precise light olefin/paraffin separation," Nature Communications, Nature, vol. 14(1), pages 1-9, December.
    3. Khiari, Besma & Jeguirim, Mejdi & Limousy, Lionel & Bennici, Simona, 2019. "Biomass derived chars for energy applications," Renewable and Sustainable Energy Reviews, Elsevier, vol. 108(C), pages 253-273.
    4. Sara Stelitano & Giuseppe Conte & Alfonso Policicchio & Alfredo Aloise & Giovanni Desiderio & Raffaele G. Agostino, 2020. "Pinecone-Derived Activated Carbons as an Effective Medium for Hydrogen Storage," Energies, MDPI, vol. 13(9), pages 1-16, May.
    5. Munawar, Muhammad Assad & Khoja, Asif Hussain & Naqvi, Salman Raza & Mehran, Muhammad Taqi & Hassan, Muhammad & Liaquat, Rabia & Dawood, Usama Fida, 2021. "Challenges and opportunities in biomass ash management and its utilization in novel applications," Renewable and Sustainable Energy Reviews, Elsevier, vol. 150(C).
    6. Hoang, Anh Tuan & Pandey, Ashok & Martinez De Osés, Francisco Javier & Chen, Wei-Hsin & Said, Zafar & Ng, Kim Hoong & Ağbulut, Ümit & Tarełko, Wiesław & Ölçer, Aykut I. & Nguyen, Xuan Phuong, 2023. "Technological solutions for boosting hydrogen role in decarbonization strategies and net-zero goals of world shipping: Challenges and perspectives," Renewable and Sustainable Energy Reviews, Elsevier, vol. 188(C).
    7. Efstathios E. Michaelides, 2021. "Thermodynamics, Energy Dissipation, and Figures of Merit of Energy Storage Systems—A Critical Review," Energies, MDPI, vol. 14(19), pages 1-41, September.
    8. Senthil, Chenrayan & Lee, Chang Woo, 2021. "Biomass-derived biochar materials as sustainable energy sources for electrochemical energy storage devices," Renewable and Sustainable Energy Reviews, Elsevier, vol. 137(C).
    9. Francesca Lionetto & Sonia Bagheri & Claudio Mele, 2021. "Sustainable Materials from Fish Industry Waste for Electrochemical Energy Systems," Energies, MDPI, vol. 14(23), pages 1-19, November.

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