Session Details
[BR-P]Biorefinery and Bioeconomy
Wed. Mar 19, 2025 9:00 AM - 12:00 PM JST
Wed. Mar 19, 2025 12:00 AM - 3:00 AM UTC
Wed. Mar 19, 2025 12:00 AM - 3:00 AM UTC
Exhibition Hall 2 (Exhibition Bldg.)(Biorefinery and Bioeconomy)
[BR-P-01]Conversion of cellulose to levoglucosan by fast pyrolysis under infrared irradiation
○Takashi Nomura1, Eiji Minami1, Haruo Kawamoto1 (1. Kyoto University (Japan))
[BR-P-02]Hydrothermal conversion of softwood leaves into valuable chemicals and hydrochars
○Chen QU1, Shengjie Song2,3, Douglas Law2, Akira Yoko1, Tadafumi Adschiri1 (1. Advance Institute for Materials Research (AIMR), Tohoku University (Japan), 2. Faculty Health And Life Science, INTI International University (Malaysia), 3. School of Life Science, Jiangxi Science & Technology Normal University (China))
[BR-P-03]Demethoxylation occurring during pyrolysis-assisted catalytic hydrogenolysis of lignin in alkane solvents
○Jiaqi Wang Wang1, IKEDA FRANCISCO Alex1, Eiji Minami1, Haruo Kawamoto1 (1. Kyoto University (Japan))
[BR-P-04]Preparation of Metal Biochar Catalysts using Delignified Japanese Cedar Wood for Efficient Catalytic Activity
○RAMADAN M M ELJAMAL1, Ryosuke Hanada1, Eiji Minami1, Haruo Kawamoto1 (1. Department of Socio-Environmental Energy Science, Graduate School of Energy Science, Kyoto University (Japan))
[BR-P-05]Gasification of glucose and cellulose in ionic liquid treatment
○Takumi Ogino1, Takashi Hosoya1, Hisashi Miyafuji1 (1. Kyoto Prefectural University (Japan))
[BR-P-06]The decomposition of monosaccharides in solution plasma
○Takaki Miyamoto1, Eiji Minami1, Haruo Kawamoto1 (1. Kyoto University (Japan))
[BR-P-07]Effect of fiber width and crystallinity index of cellulose II nanofibers on the thermal conductive properties of their films
○Nana Koda1, Kazuho Daicho2, Noriyuki Isobe3, Kojiro Uetani1 (1. Tokyo Univ. of Sci. (Japan), 2. The Univ. of Tokyo (Japan), 3. JAMSTEC (Japan))
[BR-P-08]Size Distribution of Tunicate Nanocellulose Evaluated by AFM Image Analysis
○Keita Mayumi1, Tomoki Ito2, Shingo Kiyoto1, Masahisa Wada1, Kayoko Kobayashi1 (1. Kyoto Univ. (Japan), 2. The Univ. of Tokyo (Japan))
[BR-P-09]Influence of fine cellulose fiber size in pulp fiber suspension on its drainability
○Haruka Koizumi1, Junko Ikeda2,3, Izumi Yamane2, Takuma Kozono1, Ryota Kose1 (1. Tokyo University of Agriculture and Technology (Japan), 2. Mageleka Japan Co,. Ltd. (Japan), 3. Tohoku University (Japan))
[BR-P-10]Preparation of water-repellent films via dispersant-dependent assembly by using locally hydrophobic cellulose nanofibrils
○Kazuki Nakamitsu1, Shingo Yokota1 (1. Kyushu University (Japan))
[BR-P-11]Synthesis and characterization of polyketones derived from divanillic acid as bio-based super-high-performance plastics via Friedel-Crafts reaction
○Takaaki Kamishima1, Kouji Inagaki1, Akira Nukazuka1, Tadahisa Iwata2, Yukiko Enomoto2 (1. DENSO CORPORATION (Japan), 2. Agricultural and Life Sciences, The University of Tokyo (Japan))
[BR-P-12]Solubilization of Japanese cedar components by treatment with 1,8-Diazabicyclo[5,4,0]-7-undecene
○Yuta Togano1, Takashi Hosoya1, Hisashi Miyafuji1 (1. Kyoto Prefectural University (Japan))
[BR-P-13]Synthesis of Lignin-Derived Deep Eutectic Solvents and their Application for Corn Cob Solubilization
○Harifara Fenohasina Rabemanolontsoa1, Haruo Kawamoto1 (1. Graduate School of Energy Science, Kyoto University (Japan))
[BR-P-14]Solubility trends of technical lignins in various organic solvents and their solubility parameters
○Shiho Takahashi1, Keishi Tanifuji1 (1. Forestry and Forest Products Research Institute (Japan))
[BR-P-15]Environmental biodegradability of divanillic acid-derived polyesters
○Yoshihiro Minegishi1, Yukiko Enomoto1, Jin Ho Seok1, Tadahisa Iwata1 (1. The University of Tokyo (Japan))
[BR-P-16]Creation of a split intein toolkit for creation of multicatalytic enzymes:
A case study on xyloglucan degradation
○Tove Widén1, Linus Storm1, Daniel Krska1, Johan Larsbrink1 (1. Chalmers University of Technology (Sweden))
[BR-P-17]Enhanced Ethanol Production in Saccharomyces cerevisiae Through Co-Utilization of Acetic Acid and Glucose with Improved Hypoxic Tolerance and Flocculatio
○Mohammed Oksh Mohammed Mousa1, Sadat Mohammed Rezk Khattab1, Takashi Nagata1, Takashi Watanabe1, Masato Katahira1 (1. Kyoto University (Japan))
[BR-P-18]How much lumber can be obtained from Konara oak in Satoyama?
○Masaki Kado1, Wakana Azuma1, Keiko Kuroda1 (1. Kobe University (Japan))