TAKASHI ENDO

Last Updated :2025/05/09

Affiliations, Positions
Graduate School of Advanced Science and Engineering, Professor, Collaborative Research Laboratory
E-mail
takashi-endohiroshima-u.ac.jp

Basic Information

Academic Degrees

  • Hiroshima University
  • Hiroshima University

Research Fields

  • Agricultural sciences;Forest and forest products science;Wood science
  • Chemistry;Materials chemistry;Polymer / Textile materials
  • Chemistry;Applied chemistry;Polymer chemistry

Research Keywords

  • Cellulose, nanocellulose, wood flour, pulp, composite materials, bioethanol, molding processing

Research Activities

Academic Papers

  1. Fabrication of silica-substituted octacalcium phosphate blocks based on the setting reaction of the CaCO3–H3PO4–Na2SiO3 cementing process, Journal of the Ceramic Society of Japan, 131(12), 901-905, 20231201
  2. Highly surface-selective nitration of cellulose nanofibers under mildly acidic reaction conditions, Cellulose, 30(16), 10083-10095, 20231101
  3. Fabrication of silica-substituted carbonate apatite blocks through phase transformation process from silica-substituted octacalcium phosphate blocks, Journal of the Ceramic Society of Japan, 131(8), 458-465, 20230801
  4. Influence of hemicellulose and lignin on intermolecular interaction between quinacridone and lignocellulosic fibers revealed by gel-state NMR and color measurements, Journal of Wood Science, 69(20), 1-11, 20230518
  5. Inorganic silica hybrid octacalcium phosphate bone substitute: Harmonics to acceleration in biological metabolism and its curing process, Materialia, 28, 101771, 20230501
  6. Effect of fibrillation on the ability of cellulose fibers to suppress the aggregation of quinacridone, Cellul Chem Technol, 56, 861-872, 20220701
  7. Preparation and characterization of nitrocellulose nanofiber, Propellants, Explosives, Pyrotechnics, 46(6), 962-968, 20210601
  8. Suppressing aggregation of quinacridone pigment and improving its color strength by using chitosan nanofibers, Carbohydrate Polymers, 255, 117365, 20210301
  9. Effects of hemicellulose composition and content on the interaction between cellulose nanofibers, Cellulose, 28(1), 259-271, 20210101
  10. Photocatalytic TiO2@ CS-embedded cellulose nanofiber mixed matrix membrane, Applied Catalysis B: Environmental, 276, 119111, 20201105
  11. Extrusion process to enhance the pretreatment effect of ionic liquid for improving enzymatic hydrolysis of lignocellulosic biomass, Wood Science and Technology, 54, 599-613, 20200501
  12. Tannic acid-immobilized cellulose nanofiber prepared by esterification using polycarboxylic acid, Cellul. Chem. Technol, 54, 415-419, 20200501
  13. Dispersion of quinacridone pigments using cellulose nanofibers promoted by CH–pi interactions and hydrogen bonds, Cellulose, 27, 3153-3165, 20200401
  14. Evaluation of the average state of carbohydrate/lignin coexistence in wood by analysis of molecular motion, Cellulose, 27, 41-56, 20200101
  15. Cellulose-nanofiber-mediated sorption-benefitting holed silicalite-1 crystals, ACS omega, 4(8), 12995-13004, 20190808
  16. Effect of the ionic radius of alkali metal ions on octacalcium phosphate formation via different substitution modes, Crystal Growth & Design, 19(7), 4162-4171, 20190605
  17. Role of moisture in esterification of wood and stability study of ultrathin lignocellulose nanofibers, Cellulose, 26, 4721-4729, 20190530
  18. Amphiphilic cellulose nanofiber-interwoven graphene aerogel monolith for dyes and silicon oil removal, Composites Science and Technology, 171, 190-198, 20190208