口頭発表 Lignin-Based Carbon Nanoarchitectures for CO2 Capture Applications

SZABO Laszlo (Center for Advanced Materials, Forestry and Forest Products Research Institute) ; Mizuki Inoue SAMURAI ORCID (Research Center for Macromolecules and Biomaterials/Macromolecules Field/Polymer Process Technology Team, National Institute for Materials Science) ; Yurina Sekine (Center for Advanced Materials, Forestry and Forest Products Research Institute) ; Ryuhei Motokawa (Japan Atomic Energy Agency) ; Yusuke Matsumoto (Center for Advanced Materials, Forestry and Forest Products Research Institute) ; Thi Thi Nge (Center for Advanced Materials, Forestry and Forest Products Research Institute) ; Edhuan Ismail ORCID (Research Center for Macromolecules and Biomaterials/Macromolecules Field/Polymer Process Technology Team, National Institute for Materials Science) ; Izumi Ichinose SAMURAI ORCID (Research Center for Macromolecules and Biomaterials, National Institute for Materials Science) ; Tatsuhiko Yamada (Center for Advanced Materials, Forestry and Forest Products Research Institute)

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引用
SZABO Laszlo, Mizuki Inoue, Yurina Sekine, Ryuhei Motokawa, Yusuke Matsumoto, Thi Thi Nge, Edhuan Ismail, Izumi Ichinose, Tatsuhiko Yamada. Lignin-Based Carbon Nanoarchitectures for CO2 Capture Applications. https://doi.org/10.48505/nims.6056

説明:

(abstract)

In developing materials for CO2 capture, we need to be careful about the CO2 footprint of the material itself. Lignin has already sequestered biogenic carbon incorporated in its structure (i.e., atmospheric CO2 is captured during photosynthesis and plant growth). When extracted from wood through environmentally benign ways (e.g., using the polyethylene glycol (PEG) solvolysis process developed in our laboratory at FFPRI), lignin can be considered a superior starting material compared to petroleum-based analogues in respect to CO2 footprint. Furthermore, lignin is attractive for the synthesis of carbon materials, as it already has a polyaromatic structure, thus higher conversion yields can be realized compared to other biomass components (like cellulose).
We fabricated a unique large-pore mesoporous carbon from a PEG-grafted technical lignin (coined as glycol lignin). This material showed an exceptional CO2 capture-and-release profile due to capillary condensation in large mesopores close to the saturation pressure (3.2 MPa) at 270 K. On account of this phenomenon, a more energy-efficient pressure-swing regeneration process can be realized compared to a benchmark nanoporous (activated) carbon. Large-pore mesoporous carbons are considered those that have pores larger than 10 nm, thus cannot be fabricated using conventional soft-templating methods based on Pluronic® surfactants. In this presentation, we will share our latest results on our ongoing efforts in developing a new family of CO2 capture materials based on the nanoconfinement-induced capillary condensation phenomenon, offering energy-efficient, cost effective regeneration options.

権利情報:

キーワード: lignin, mesoporous carbon, CO2 reocovery

会議: The 19th Pacific Polymer Conference (PPC19) (2025-07-06 - 2025-07-10)

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原稿種別: 著者最終稿 (Accepted manuscript)

MDR DOI: https://doi.org/10.48505/nims.6056

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更新時刻: 2025-12-23 11:43:38 +0900

MDRでの公開時刻: 2026-01-10 08:21:19 +0900

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