Kyushu University Academic Staff Educational and Research Activities Database
List of Presentations
Takuya Kitaoka Last modified date:2017.09.22

Professor / Sustainable Bioresources Science / Department of Agro-environmental Sciences / Faculty of Agriculture


Presentations
1. Strategic design of structural carbohydrate-based cel culture scaffolds.
2. Strategic design of carbohydrate-based cel culture scaffolds.
3. Enzymatic polymerization of lignin precursor in CNF-assisted pickering emulsions.
4. Acid hydrolysis of acetals on TEMPO-oxidized cellulose nanofibers.
5. Nanocellulose-assisted organocatalytic Michael addition.
6. Cellulose nanofiber as an enhancer of organocatalytic reactions.
7. Enzymatic synthesis of lignin on cellulose nanofibers.
8. Acid Hydrolysis of Acetals by Surface-Carboxylated Cellulose Nanofibers.
9. Acid Hydrolysis of Acetals by High-density Carboxylates on Cellulose Nanofibers.
10. Paper-structured catalyst for SOFC to realize direct conversion of biogas into electricity.
11. Materials Innovation Driven by Nanocellulose Architectures.
12. Catalytic innovation driven by nanocellulose architectures.
13. Fischer-Tropsch synthesis inside paper structure.
14. Hydrolysis of acetals at the interfaces of wood nanocellulose.
15. Metabolic variation of yeasts by heterologous expression of fungal cytochrome P450s.
16. Diversity of sesquiterpene synthases of Phanerochaete chrysosporium.
17. Non-volatile memory made of cellullose nanofiber film.
18. Biogas production from Mekong Delta biomass and its application to fuel cell system.
19. Harmonized catalysis in combination of organocatalysts and cellulose nanofibers.
20. Takuya Kitaoka, Biomaterials and Catalysts, Academic Seminar at Kasetsart University, 2016.12.01.
21. Takuya Kitaoka, Nanocellulose architecture and heterogeneous catalysis, 28th Annual Meeting of the Thai Society for Biotechnology and International Conference (TSB2016); Natural Resources and Bio-based Innovative Products, 2016.11.29.
22. Chaniga Chuensangjun, Takuya Kitaoka, Preparation of cellulose nanofibers from wood/non-wood resources by TEMPO-mediated oxidation, 28th Annual Meeting of the Thai Society for Biotechnology and International Conference (TSB2016); Natural Resources and Bio-based Innovative Products, 2016.11.29.
23. Shota Ukeba, Takuya Kitaoka, Hirofumi Ichinose, Diversity of sesquiterpene synthase from the white-rot basidiomycete Phanerochaete chrysosporium, The 22nd Symposium of Young Asian Biological Engineers' Community, 2016.10.28.
24. Takuya Kitaoka, Nanocellulose composites for heterogeneous catalysis, 2016 Pan Pacific Conference of the Technical Associations of the Pulp and Paper Industry, 2016.10.26.
25. Ayami Saimura, Takuya Kitaoka, Paper-structured catalysts with porous fiber networks for Fischer-Tropsch synthesis, 2016 Pan Pacific Conference of the Technical Associations of the Pulp and Paper Industry, 2016.10.27.
26. Non-volatile memory made of nanocellullose as a paper resource.
27. Identification and functional characterization of sesquiterpene synthases of Phanerochaete chrysosporium.
28. Enzymatic reaction via near-by layout of cytochrome P450 BM3 and coenzyme.
29. Identity of Nanocellulose.
30. Neural stem cell culture on ECM-mimetic scaffolds composed of surface-carboxylated polysaccharide nanofibers.
31. Mayumi Hatakeyama, Takuya Kitaoka, Hirofumi Ichinose, Heterologous expression and functionalization of fungal cytochromes P450 (CYP5136A1 and CYP5136A3) in Escherichia coli, 13th International Symposium on Cytochrome P450 Biodiversity and Biotechnology, 2016.07.24.
32. Advanced Nanocatalysts Pioneered by Nanocellulose.
33. Asymmetric Organocatalysis via Proline Derivatives at Cellulose Nanofiber Interface.
34. Fischer-Tropsch synthesis by paper-structured catalysts.
35. Baeyer-Villiger oxidation over paper-structured catalysts.
36. Asymmetric Organocatalysis via Proline Derivatives at Nanocellulose Interface.
37. Heterologous expression of fungal versatile cytochromes P450 in Escherichia coli.
38. Baeyer-Villiger oxidation over paper-structured catalysts.
39. Asymmetric Organocatalysis via Proline Derivatives at Cellulose Nanofiber Interface.
40. Asymmetric Organocatalysis via Proline Derivatives at Nanocellulose Interface.
41. Future Nanomaterials Pioneered by Nanocellulose.
42. Nanopore drilling of nanocellulose for ultraselective gas separation.
43. Cell adhesion behavior on biomimetic extracellular matrix of surface-carboxylated nanocellulose.
44. Fischer-Tropsch synthesis by paper-structured catalysts.
45. Boost-up of enzymatic reactions by near-by immobilization method using cellulosomal complex.
46. Identification and characterization of sesquiterpene synthases of Phanerochaete chrysosporium.
47. Asymmetric Organocatalysis via Proline Derivatives on Nanocellulose.
48. Heterologous expression of heme proteins by E. coli and ALA synthase.
49. Takuya Kitaoka, Combination of nanocellulose and nanomaterials for functional applications, Anselme Payen Award Symposium, 251st American Chemical Society National Meeting & Exposition, 2016.03.13.
50. Nanopore drilling of nanocellulose film for ultraselective gas separation.
51. Emerging Functions of Nanocellulose Hybrid Materials.
52. Emerging Functions of Nanocellulose Materials.
53. Future Nanomaterials Pioneered by Nanoarchitectonics of Polysaccharides.
54. Nanopore drilling of nanocellulose film for ultraselective gas separation.
55. Takuya Kitaoka, Nanocellulose architectures and hybrid nanomaterials, 9th International Paper and Coating Chemistry Symposium 2015, 2015.10.31.
56. Yuki Ishihara, Taichi Homma, Takuya Kitaoka, Microflow catalytic reaction for organic synthesis over multilayer-stacked paper-structured catalysts, 9th International Paper and Coating Chemistry Symposium 2015, 2015.10.30.
57. Ayami Saimura, Yusuke Shiratori, Takuya Kitaoka, Sequential desulfurization and methane steam reforming of simulated biogas by dual-layered paper-structured catalysts, 9th International Paper and Coating Chemistry Symposium 2015, 2015.10.30.
58. Makoto Matsumoto, Takuya Kitaoka, Nanocellulose paper with metal-organic frameworks for gas separation, 9th International Paper and Coating Chemistry Symposium 2015, 2015.11.01.
59. Influence of ALA synthase on heterologous expression of heme proteins by E. coli
.
60. Sequential enzymatic reaction on cellulosomal biomimetic complex
.
61. Cell Adhesion Behavior on Biomimetic ECMs Composed of Surface-carboxylated Cellulose Nanofibers.
62. Asymmetric Organocatalysis via Proline Derivatives on Cellulose Nanofibers.
63. Makoto Matsumoto, Takuya Kitaoka, Molecular-sieving gas separation with nanoporous metal-organic frameworks synthesized on highly-dense nanocellulose matrix, International Symposium on Wood, Fibre and Pulping Chemistry 2015 (18th ISWFPC2015), 2015.09.09.
64. Xin Jin, Takuya Kitaoka, Cooperative asymmetric organocatalysis with proline and nanocellulose, International Symposium on Wood, Fibre and Pulping Chemistry 2015 (18th ISWFPC2015), 2015.09.09.
65. Cooperative Enzymatic Reaction by Cellulosome-mimetic Enzyme Assembly Immobilized on Cellulose Matrix
.
66. Synthesis of Molecular-Sieving Gas Separation Films by Nanodrilling of Highly-Dense Nanocellulose Layers.
67. Cooperative Asymmetric Organocatalysis with TEMPO-oxidized Nanocellulose and Proline.
68. Nanocellulose Innovation.
69. Heterologous expression of fungal versatile cytochromes P450 in Escherichia coli.
70. Cell culture behavior of cellulose nanofiber matrix
.
71. Culture behavior of muscle satellite cells on sulfated glyco-biointerfaces
.
72. On-paper synthesis of metal oxide nanoparticles and desulfurization−methane steam reforming for hydrogen production in fuel cell applications.
73. Asymmetric organocatalysis with proline and cellulose nanofibers
.
74. Cellulose Innovation.
75. Mayumi Hatakeyama, Yukiyo Yamauchi, Takuya Kitaoka, Hirofumi Ichinose, Chimerization for heterologous expression of fungal cytochromes P450 in Escherichia coli, 19th International Conference on Cytochrome P450, 2015.06.13.
76. Cooperative Asymmetric Organocatalysis with Nanocellulose and Proline
.
77. Molecular-Sieving Gas Separation Paper Designed by Nanoboring Highly-Dense Nanocellulose Layers with Porous Metal-Organic Frameworks
.
78. Microflow Catalytic Reaction over Piled-Up Paper-Structured Catalysts
.
79. Two-step Reaction of Desulfurization−Methane Steam Reforming by Dual-Layered Paper-Structured Catalysts
.
80. Cell culture behavior on condroitin sulfate-SAMs.
81. Sequential desulfurization and methane reforming by paper-structured catalysts.
82. Development of paper-structured microreactor.
83. Activation of heme synthsis in E. coli .
84. Makoto Matsumoto, Takuya Kitaoka, Wood cellulose nanofiber films containing metal−organic frameworks for selective gas separation, International Symposium on Wood Science and Technology 2015 (IAWPS2015), 2015.03.16.
85. Xin Jin, Takuya Kitaoka, Proline-mediated organocatalysis on wood cellulose nanofibers, International Symposium on Wood Science and Technology 2015 (IAWPS2015), 2015.03.16.
86. Takashi Nogita, Hirofumi Ichinose, Takuya Kitaoka, Cooperative enzymatic reaction by cellulosome-mimetic complex on cellulose paper, International Symposium on Wood Science and Technology 2015 (IAWPS2015), 2015.03.16.
87. Mayumi Hatakeyama, Yukiyo Yamauchi, Takuya Kitaoka, Hirofumi Ichinose, Heterologous expression of cytochrome P450 from wood-rotting basidiomycetes in Escherichia coli, International Symposium on Wood Science and Technology 2015 (IAWPS2015), 2015.03.16.
88. Nagashima K., Koga H., Celano U., Zhuge F., Kanai M., Rahong S., Meng G., He Y., Boeck J. D., Jurczak M., Vandervorst W., Takuya Kitaoka, Nogi M., Yanagida T., Cellulose nanofiber paper as an ultra flexible nonvolatile memory, 2014 Materials Research Society (MRS) Fall Meeting & Exhibit, 2014.12.01.
89. Osamu Higashi, Yusuke Shiratori, Takuya Kitaoka, Hiroaki Shirakawa, Zero emission system for sustainable agriculture in Asia, AGRO’2014 -9th IWA (International water association) International Symposium on Waste Management Problems in Agro-Industries, 2014.11.24.
90. Direct stimulation of intracellular signaling system on glyco-biointerface composed of oligosaccharides.
91. Materials Development Inspired by Nanocellulose itself.
92. Takuya Kitaoka, Concept-driven materials design of glyco-nanocomposites, Japanese-European Workshop Cellulose and Functional Polysaccharides, 2014.10.16.
93. Takashi Nogita, Hirofumi Ichinose, Takuya Kitaoka, Sequential enzymatic reaction by enzyme complex immobilized on cellulose matrix via cohesin-dockerin interaction, International Symposiumon Fiber Science and Technology 2014 (ISF2014) , 2014.09.29.
94. Makoto Matsumoto, Takuya Kitaoka, Selective gas separation by metal-organic frameworks synthesized on cellulose nanofiber matrix, International Symposiumon Fiber Science and Technology 2014 (ISF2014) , 2014.09.29.
95. Fumi Uemura, Takuya Kitaoka, Cellular immune responses via TLR-mediated signaling on glyco-decorated biointerfaces, International Symposiumon Fiber Science and Technology 2014 (ISF2014) , 2014.09.30.
96. Pornthia Poosala, Takuya Kitaoka, Biomimetic alignment and responses of myoblast cells on glyco-clustered biointerfaces with micropatterned geometries, International Symposiumon Fiber Science and Technology 2014 (ISF2014), 2014.10.01.
97. Mayumi Hatakeyama, Yukiyo Yamauchi, Takuya Kitaoka, Hirofumi Ichinose, Chimerization for heterologous expression of fungal cytochromes P450 in Escherichia coli, The 12th International Symposium on Cytochrome P450 Biodiversity and Biotechnology, 2014.09.27.
98. New Frontiers of Natural Polysaccharide Materials.
99. Harmonized Organocatalysis via Cellulose Nanofibers and Proline.
100. Gas Separation Using MOF-conjugated Softwood Cellulose Films.
101. Functional Enhancement of Cytochrome P450s from White-rot Fungi Using E. coli.
102. Immobilized Enzymes on Cellulose Matrix Inspired by Enzyme Complex of Cellulose-degrading Microorganisms.
103. Mayumi Hatakeyama, Yukiyo Yamauchi, Takuya Kitaoka, Hirofumi Ichinose, Overexpression of fungal cytochrome P450 in Escherichia coli, The 10th International Mycological Congress, 2014.08.04.
104. Sequential Enzymatic Reaction by Cellulosome-mimetic Enzyme Complex Immobilized on Cellulose Paper
.
105. Synthesis of Metal-Organic Frameworks in Cellulose Matrix and Gas Separation by Paper Composites

.
106. Direct Cell Stimulation of Innate Immune System via toll-like receptor on glyco-biointerface composed of oligosaccharides.
107. Pornthia Poosala, 北岡 卓也, Bioactive carbohydrate-decorated scaffolds to promote cellular function of myoblast cells
, セルロース学会第21回年次大会, 2014.07.17.
108. Cellulose Nanopaper-based Flexible Nonvolatile Resistive Memory.
109. Pornthia Poosala, 北岡 卓也, Micropatterned chitooligomer clusters enhance cellular biofunction of myoblast cells
, 第51回化学関連支部合同九州大会, 2014.06.28.
110. Direct stimulation of intracellular signaling via hybrid glyco-biointerfaces.
111. Gas Separation by Polymer Hybrids of Cellulose Nanofibers and Metal-Organic Frameworks

.
112. Harmonized Enzymatic Reaction by Enzyme Complex via Cohesin-dockerin Interaction

.
113. Fumi Uemura, Takuya Kitaoka, Glyco-decorated biointerface directly stimulates the intracellular signaling of cultured cells, 2014 TAPPI International Conference on Nanotechnology of Renewable Materials, 2014.06.24.
114. Pornthia Poosala, Takuya Kitaoka, Biofunctional micropatterning of glyco-decorated scaffolds affects myoblast cell alignment, 2014 TAPPI International Conference on Nanotechnology of Renewable Materials, 2014.06.25.
115. Takuya Kitaoka, Synthesis and heterogeneous catalysis of metal nanocatalysts on TEMPO-oxidized cellulose matrix
, 2014 TAPPI International Conference on Nanotechnology of Renewable Materials, 2014.06.25.
116. Catalysis and Reaction Engineering Inspired by Paper-specific Microstructures

.
117. Gas Separation by Cellulose Nanofiber Film Containing Metal-Organic Frameworks

.
118. Sequential Enzymatic Reaction by Enzyme Complex via Cohesin-dockerin Interaction

.
119. Pornthia Poosala, 北岡 卓也, Glyco-clustered Biointerfaces with Micropatterned Geometries Guide Myoblast Differentiation, 繊維学会年次大会2014, 2014.06.13.
120. Hybrid Glyco-nanolayers to Directly Stimulate Cellular Biofunction.
121. Harmonized enzymatic reaction by cellulosomal enzyme complex immobilized on cellulose paper
.
122. Development of selective gas-separation paper containing metal-organic frameworks synthesized in cellulose nanofiber thin film
.
123. Ultra flexible nonvolatile resistive memory using Ag-decorated cellulose nanopaper.
124. Enzymatic reaction by enzyme complex immobilized on cellulose via cohesin-dockerin interaction.
125. Gas separation via MOF-cellulose hybrid membranes.
126. Harmonized biocatalysis via two enzymes immobilized on cellulose nanofibers.
127. Organocatalysis on TEMPO-oxidized cellulose nanofibers with proline.
128. Direct stimulation by hybrid glyco-nanolayers to cellular immune response.
129. Paper-structured Catalysts.
130. Taiki Yamaura, Takuya Kitaoka, Immobilization and biocatalytic applications of enzymes on cellulose paper matrix, International Symposium on Agricultural, Food, Environmental and Life Sciences in Asia, 2013 (AFELiSA2013), 10th International Joint Symposium between Japan and Korea, 2013.11.07.
131. Fumi Uemura, Takuya Kitaoka, TLR-mediated cell stimulation on glyco-decorated biointerfaces composed of chitohexaose and cellohexaose, 3rd EPNOE (European Polysaccharide Network of Excellence) International Polysaccharide Conference 2013, 2013.10.23.
132. Pornthida Poosala, Takuya Kitaoka, Glyco-mediated alignment and regulation of myoblast cells cultured on GlcNAc-clustered micropatterns, 3rd EPNOE (European Polysaccharide Network of Excellence) International Polysaccharide Conference 2013, 2013.10.23.
133. Hybrid glyco-nanolayers to directly stimulate cellular immune response.
134. In situ synthesis of gold nanocatalysts on TEMPO-oxidized pulp paper for catalytic applications.
135. Harmonized biocatalysis via enzymes immobilized on wood paper matrix.
136. Takuya Kitaoka, Taichi Homma, Alcohol oxidation in multiphase gas-liquid-solid reactions over porous paper composites with ruthenium hydroxide catalysts, Sixteenth International Symposium on Relations between Homogeneous and Heterogeneous Catalysis (ISHHC-16), 2013.08.07.
137. Study on glycosynthesis by nonaqueous biocatalysis and functional design of glycobiointerfaces.
138. Immunological activation via self-assembled glyco-nanolayers.
139. Immunological activation via cell attachment on glyco-clustered biointerfaces.
140. Paper-Structured Catalysts.
141. Harmonized biocatalysis via enzymes immobilized on cellulose paper matrix.
142. Green synthesis of gold nanocatalysts on TEMPO-oxidized pulp paper for catalytic applications.
143. Biomimetic alignment of myoblast cells on micropatterned glyco-biointerfaces.
144. Hybrid glyco-nanolayers to directly stimulate cellular biofunction.
145. Harmonized enzymatic catalysis on crystalline cellulose matrix.
146. Materials Frontier of Structural Polysaccharides for Medical Applications.
147. Activation of cellular signaling system stimulated by glyco-interface.
148. Al-doped ZnO film as a transparent conductive substrate in indoline-sensitized nanoporous ZnO solar cell.
149. Materials Frontier of Structural Polysaccharides.
150. Biodiesel fuel conversion to renewable electricity with a new SOFC concept.
151. Biofunctional glyco-interfaces of chitooligomers aligned on gold micropatterns for cell culture applications
.
152. Environmental and energy applications of paper-structured catalysts.
153. Crystalline cellulose nanofibers as catalyst supports for heterogeneous catalysis.
154. Micropatterned biointerfaces of chitooligomers for cell alignment and cellular biofunction.
155. Self-assembly immobilization and biointerface design of chitohexaose/cellohexaose hybrid nanolayers.
156. Hybrid nano-materials for catalysis on crystalline cellulose nanofibers.
157. Highly-strong, transparent and conductive nanocomposite material based on carbon nanotubes and cellulose nanofibrils.
158. MOF synthesis on polysaccharide nanofibers and gas-separation function.
159. Nanostructural control of carbohydrate membranes for cellular bioresponse.
160. Biological response of human liver cancer cells using hybrid membranes composed of bioactive oligosaccharides
.
161. Novel catalysis with Lewis acid and base pairs fixed on crystalline cellulose nanofibers
.
162. Immobilization and harmonized catalysis of enzymes on a cellulose matrix.
163. Self-assembly immobilization and biofunction of chitohexaose on a gold micropattern.
164. Self-assembly and bio-interface function of chitohexaose/cellohexaose hybrid nanolayers.
165. Preparation of hybrid gas-separation membranes of cellulose nanofibers and metal-organic frameworks.
166. Catalytic behaviors of enzymes accumulated on crystalline cellulose nanofibers.
167. Catalytic effects of frustrated Lewis pairs immobilized on crystalline cellulose nanofibers.
168. Cellular response control via carbohydrate-integrated substrates.
169. Preparation and gas-separation performance of polymer hybrids composed of cellulose and metal-organic framework.
170. Structural and functional design of hybrid materials composed of nanocatalysts and cellulose nanofibers.
171. Development of cellulose-based composite materials for catalytic and electronic applications.
172. Synthesis and catalytic behavior of bimetallic nanoparticles supported on TEMPO-oxidized cellulose nanofibers.
173. Functional nanocomposites based on TEMPO-oxidized cellulose nanofibers.
174. Development of nickel-supported paper for efficient hydrogen production.
175. Integrated immobilization and catalytic behavior of enzymes on a cellulose matrix.
176. Bio-interface function of carbohydrate-integrated surfaces.
177. Preparation and functional design of carbon nanotube/cellulose nanofibril hybrids.
178. Functional design of paper-structured catalysts for efficient hydrogen production.
179. Direct synthesis of nickel nanoparticles on paper-like inorganic supports for catalytic hydrogen production.
180. High performance papers designed by silane-coupling technique.
181. Fusion materials of cellulose nanofibers and metal nanocatalysts.
182. Efficient synthesis of cellulose via acid-assisted enzymatic dehydration in organic media.
183. One-pot synthesis of monodispersed hybrid glyco-conjugated GNPs for lectin-binding biosensing.
184. Preparation of paper-like fiber/metal nanocatalysts for hydrocarbon reforming.
185. Synthesis and catalysis of hetero metal nanoparticles supported on cellulose nanofibers.
186. One-pot synthesis of monodisperse carbohydrate-conjugated GNPs in a reverse micelle and their lectin-binding assay.
187. Regulation of bio-interface functions by integrated structural carbohydrates.
188. Nanostructure and catalytic function of Cu(I) exposed on cellulose nanofibers.
189. Synthesis and catalysis of hybrid metal nanoparticles supported on cellulose nanofibers.
190. Functional composite materials based on TEMPO-oxidized cellulose nanofibers.
191. Development of hybrid metal nanocatalysts supported on cellulose nanofibers.
192. In situ synthesis of bimetallic hybrid nanocatalysts on a paper-structured matrix for catalytic reduction.
193. In situ synthesis of gold nanoparticles on zinc oxides preloaded into paper matrix for catalytic applications.
194. In situ modification of cellulose paper with functional groups using a silane coupling technique.
195. Preparation and click catalysis of cellulose-Cu(I) hybrid aerogels.
196. Bio-interfaces composed of integrated carbohydrates via vectorial chain immobilization.
197. In situ modification of cellulose paper with amino groups using a silane coupling technique for catalytic applications.
198. Cellulose-Cu(I) hybrid aerogel catalyst.
199. Structural and biointerfacial design of hybrid carbohydrate-integrated nanolayers.
200. Nonaqueous biocatalysis by lipase fixed on cellulose paper.
201. Synthesis and catalysis of bimetal nanoparticles on cellulose nanofibers.
202. In-situ synthesis of hybrid metal nanoparticles on a whisker for catalytic applications.
203. On-paper synthesis of gold nanoparticles for catalytic applications.
204. Development of novel paper-structured catalysts for hydrogen production.
205. On-paper synthesis of nickel nanocatalysts and hydrogen production for fuel cells.
206. On-paper amination of cellulose filter and base-catalyst properties.
207. Synthesis and bio-functional design of carbohydrate-gold nanoconjugates.
208. Carbohydrate bio-interfaces designed by vectorial chain immobilization via self-assembly.
209. Self-assembly immobilization and cell culture behavior of hyaluronan nanolayers.
210. Synthesis and catalysis of cellulose nanofiber-GNPs composites.
211. Synthesis and bio-applications of structural carbohydrate-decrated GNPs.
212. Bio-interface of hybrid SAM of cellohexaose and chitohexaose.
213. Synthesis of cellulose-GNPs composites in a reversed micelle and their lectin-binding assay.
214. On-paper synthesis and FC application of nickel nanoparticles.
215. Hybrid sugar-decorated gold nanoparticles for bio-applications.
216. Nano- & bio-materials research of cellulose.
217. Development and catalytic performance of cellulose/metal nanoparticles composites.
218. Synthesis and catalysis of gold nanoparticles on crystalline cellulose nanofibers.
219. Vectorial immobilization and cell culture behavior of chitohexaose nanolayers.
220. Vectorial immobilization and cell culture behavior of hyaluronan nanolayers.
221. On-paper synthesis and functional applications of metal nanoparticles.
222. On-paper synthesis of nickel nanocatalysts and hydrogen production by propane steam reforming.
223. Synthesis and bio-applications of carbohydrate–gold nanoparticle conjugates.
224. One-step lactosylation of hydrophobic alcohols by nonaqueous biocatalysis.
225. Sugar density control and bio-interface functions of chitin-oriented membranes.
226. On-paper synthesis and applications of metal nanoparticles.
227. Glyco-modification and cell culture behavior of silicon rubber using azo-type molecular anchor.
228. Synthesis and nano-design of gold nanoparticles in water-in-oil emulsions.
229. Synthesis and catalytic function of gold nanoparticles on crystalline cellulose nanofibers.
230. On-paper synthesis of nickel nanoparticles and hydrocarbon reforming.
231. On-paper synthesis of metal nanoparticles and catalyst design for efficient NOx reduction.
232. Self-assembling immobilization and bio-functional design of chitin nanolayers on a gold surface.
233. One-step lactosylation of hydrophobic alcohols via nonaqueous enzymatic reaction.
234. Development of sugar-based hydrogelators and their application to scaffold materials.
235. Synthesis of gold nanoparticles using NMMO redox system for in situ glyco-conjugation.
236. Synthesis of glyco-azobenzene derivatives and their application to surface glyco-modifications.
237. Synthesis of disaccharide lactone hydrogelators and their application as a cell scaffold.
238. One-pot synthesis of biomimetic alkyllactosides via nonaqueous biocatalysis.
239. Surface morphology and biofunctional characteristics of hyaluronan nanolayers.
240. Surface nanostructure and biofunctional characteristics of self-assembled chitin nanolayers.
241. Glycosynthesis via nonaqueous enzymatic reactions.
242. On-fiber synthesis of Au nanoparticles and their CO oxidation behavior.
243. Biofunctional characteristics of hyaluronan-fixed membrane.
244. On-paper synthesis of Pt nanoparticles and their NOx reduction behavior.
245. Computational fluid dynamic analysis of NOx reduction reaction in paper-structured catalysts.
246. Synthesis of gold nanoparticles for in situ glyco-conjugation in NMMO system.
247. Cellulose synthesis via nonaqueous enzymatic reactions.
248. Novel sugar nano-cylinder designed via self-assembly of supramolecular hydrogelator.
249. One-pot synthesis of alkylglycosides via nonaqueous enzymatic reaction.
250. Preparation and biofunctional characteristics of self-assembled chitin nanolayers.
251. In situ synthesis of gold nanocatalysts on a paper-structured matrix for catalytic CO oxidation.
252. In situ synthesis of platinum nanocatalysts on a paper-structured matrix for catalytic reduction of nitrogen oxides
.
253. Carbohydrate-gold nanoparticles: synthesis, chemistry and applications.
254. Bioactive paper designed by surface modification with lactose via nonaqueous biocatalysis.
255. Synthesis of oligolactose and alkyllactosides by nonaqueous biocatalysis.
256. In situ synthesis of silver nanoparticles on ZnO whiskers embedded in a paper matrix for antibacterial applications.
257. Novel synthesis of gold nanoparticles for in situ conjugation with various carbohydrates via an NMMO-mediated redox reaction.
258. Cellulose model surfaces of different crystalline characteristics and their evaluation in enzyme adsorption and hydrolysis.
259. On-paper synthesis and antibacterial effect of silver nanoparticles.
260. Preparation and NOx reduction performance of platinum-containing paper-structured catalysts.
261. Catalytic mechanisms of cellulase in nonaqueous cellulose synthesis.
262. Synthesis of gold nanoparticles and in situ glyco-modification in an amine oxide medium.
263. Glyco-conjugation of hydrophobic alcohols by nonaqueous biocatalysis.
264. Nano-structural design and interfacial characteristics of chitin nanolayers.
265. Site-specific synthesis and catalytic function of platinum nanoparticles on cellulose crystals.
266. Surface glyco-modification of cellulose films by nonaqueous biocatalysis and their biointerfacial function.
267. Paper-structured catalyst with layered fiber-network microstructure for efficient autothermal hydrogen production.
268. Catalytic NOx reduction using paper-structured catalyst for the purification of automobile exhaust gas.
269. Development of activated carbon filter from biomass wastes for water purification application.
270. Development of paper-structured catalyst for effective hydrogen production by methanol reforming.
271. Effect of fiber-network microstructure of paper-structured catalyst on methanol reforming behavior.
272. Paper-structured catalyst for catalytic NOx removal from combustion exhaust gas.
273. Structural analysis and interfacial functions of self-assembled cellulosic nano-layers.
274. Nonaqueous cellulose synthesis by using cellulase/polymer complexes.
275. Glyco-synthesis by nonaqueous biocatalysis and structural and functional analysis.
276. Synthesis of oligolactose and lactosides by nonaqueous biocatalysis.
277. Synthesis and functional design of non-natural oligolactose by nonaqueous biocatalysis.
278. Synthesis of carbohydrate-conjugated gold nanoparticles and their functional design for cell sensing.
279. On-fiber synthesis of Pt nanoparticles and NOx reduction behavior by paper-structured Pt catalysts.
280. Development of paper-like microstructured catalysts and their NOx reduction performance.
281. CFD simulation of catalytic methanol reforming reaction in fiber-network microstructure.
282. Production of pure hydrogen by paper-structured catalyst containing Cu-nanoparticles.
283. Fiber-network microstructure effect of paper-structured catalyst on methanol reforming behavior
.
284. Catalytic reduction of NOx using paper-structured catalyst for the purification of automotive emissions
.
285. Preparation of cellulose-GNP complex in an NMMO/H2O system.
286. In-situ synthesis of Cu nanocatalyst on ZnO fibers embedded in a microstructured paper composite for effective hydrogen production.
287. Biofunctionality of cellulosic nanolayers designed by vectorial chain immobilization.
288. Nonaqueous enzymatic synthesis and structural characterization of novel oligosaccharides.
289. Surface morphology and cell attachment behavior of glyco-modified cellulose films.
290. Microstructure analysis of paper-structured catalyst for combustion exhaust gas purification.
291. Biofunctional cellulosic nanomaterials designed by self-assembly.
292. Biofunctional cellulosic nanomaterials designed by self-assembly.
293. Nonaqueous enzymatic polymerization of bioactive sugars by surfactant-enveloped enzymes.
294. Preparation and nano-structural analysis of gold nano-particles conjugated with cellulose.
295. One-pot glycosynthesis by nonaqueous enzymatic biocatalysis.
296. Surface structural characterization and cell culture behavior of lactose-modified cellulose membranes.
297. Synthesis and structural characterization of oligo-saccharides from lactose by surfactant-enveloped enzyme.
298. Selective synthesis of Cu nano-particles on ZnO fiber and methanol reforming by the paper composite.
299. Development of paper-structured catalyst with porous microstructure as a reaction field for NOx reduction.
300. Enzymatic synthesis of carbohydrate polymers by surfactant-enveloped enzyme in nonaqueous media.
301. Bio-functional interfaces composed of cellulosic biopolymers.
302. Effective hydrogen production using paper-structured catalyst with porous fiber-network microstructure.
303. Nonaqueous biocatalytic glycosynthesis by surfactant-enveloped enzymes.
304. Enzymatic polymerization of lactose by surfactant-enveloped enzymes in nonaqueous media.
305. Cellulosic bio-interface designed by vectorial chain immobilization via self-assembly.
306. Paper-structured catalyst prepared by a papermaking technique for hydrogen production.
307. Surface nano-structure and bio-interface function of oriented biopolymer membranes.
308. Nonaqueous glyco-synthesis by using surfactant-enveloped enzymes.
309. Bio-interface function of oriented biopolymer membranes.
310. Glyco-synthesis from unmodified disaccharides by nonaqueous enzymatic catalysis.
311. Paper-structured catalyst -Effective hydrogen production for fuel cell applications-.
312. Synthesis and in situ surface sugar modification of Au nanoparticles in aqueous NMMO system.
313. Paper-structured catalyt with fiber network structure as a catalytic reforming field for hydrogen production.
314. Computational fluid dynamic analysis of methanol steam refoming reaction on paper-structured catalyst with different shapes.
315. Effective purification of combustion exhaust gas using paper-structured catalyst.
316. NOx reduction by carbon paper containing Pt nanoparticles.
317. AFM imaging of single cellulosic polymers.
318. Synthesis of non-natural polysaccharides from bioactive sugars by nonaqueous biocatalysis.
319. Surface sugar modification of cellulose membranes by nonaqueous biocatalysis and their application to cell culture.
320. Computational fluid dynamic analysis of methanol steam reforming behavior using paper-structured catalyst .
321. Paper-structured catalyst with porous fiber network for hydrogen production.
322. Catalytic NOx reduction using paper-structured catalyst for combustion exhaust gas purification.
323. Bio-interface designed by self-assembly of structural polysaccharides.
324. Bio-interface designed by nonaqueous enzymatic sugar modification of cellulose membrane.
325. Paper-structured catalyst with porous microstructure for hydrogen production.
326. Recent advances in bioresources chemistry.
327. Development of paper-structured catalyst with microporous structure for methanol reforming catalysis.
328. CFD-supported material design of hydrogen-producing paper-structured catalyst via methanol reforming.
329. NOx removal by using paper-structured Pt catalyst.
330. Sugar-chain synthesis and surface modification of polysaccharide membrane via nonaqueous biocatalysis.
331. Cultivation behavior of hepatic cells on the nano-structured cellulosic membranes.
332. AFM observation of nano-network structure consisting of molecularly-dispersed cellulose chains.
333. Preparation of polysaccharide-oriented membranes and functional design of their interfaces.
334. Development of porous catalyst/fiber composites effective for hydrogen production by methanol steam reforming.
335. Glyco-modification of cellulose by nonaqueous enzymatic treatment and the application to cell cultivation.
336. Autothermal reforming behavior of methanol by catalyst paper.
337. Cellulose synthesis and surface glyco-modification using surfactant-coated cellulase in nonaqueous media.
338. Preparation and characterization of cellulose-modified gold nanoparticles.
339. AFM observation of cellulosic polymers: Nano-structures and dynamics.
340. Structural design of cellulose layer oriented by vectorial chain control.
341. In vitro synthesis of cellulose using cellulase/surfactant complex in nonaqueous media.
342. Surface characteristics of cellulosic thin layer designed by self-assembly.
343. Methanol steam reforming by catalyst paper and computational fluid dynamic analysis of hydrogen production behavior.
344. Formation of functional materials on paper surface using interfacial polymerization technique.
345. Autothermal reforming of methanol using catalyst paper for hydrogen fuel cell application.
346. In vitro synthesis of cellulose from cellobiose using surfactant-coated cellulase in LiCl/DMAc solvent system.
347. Preparation and structural characteristics of self-assembled cellulose I layer.
348. Porous catalyst paper effective for hydrogen production by methanol steam reforming.
349. Adsorption behavior of cellobiose-pendant polymers at the cellulose/water interface.
350. Methanol steam reforming performance of catalyst paper prepared by a papermaking technique.
351. In vitro synthesis of cellulose and reconstruction of its native crystal.
352. In vitro synthesis of structural polysaccharide cellulose using surfactant-coated enzymes.
353. Methanol steam reforming in the micro voids of porous catalyst paper.
354. Autothermal reforming of methanol using hydrogen-producing catalyst paper.
355. Architectural arrangement of cellulose by self-assembly.
356. Hydrogen production for fuel cells using paper-shaped catalyst/fiber composites.
357. Autothermal reforming of methanol using catalyst paper with porous fiber network.
358. Cellulose synthesis using surfactant-coated cellulase in organic solvent.
359. Influence of cationic retention aids on water- and oil- repellencies of papersheets prepared with diperfluoroalkylethyl phosphate.
360. Preparation and wet-end performance of cellobiose-pendant polymer.
361. Structural characteristics of cellulose layer self-assembled on Au surface.
362. Wetting and morphological characteristics of cellulosic substrates.
363. Preparation of prous catalyst paper by a papermaking and hydrogen production by methanol steam reforming.
364. Research and development of porous catalyst papers effective for hydrogen production by methanol steam reforming.
365. Observation of cellulose derivatives by atomic force microscopy.
366. Surface morphology and wetting features of thermally responsive methylcellulose SAM.
367. In vitro synthesis of structural polysaccharides by nonaqueous enzymatic polymerization.
368. Architectural design and characterization of oriented cellulose assembly layer.
369. Preparation of cellobiose-pendant polymers acting at cellulose/water interface.
370. Cellulose synthesis using cellulase-surfactant complex in nonaqueous media.
371. Wet-end chemistry and applications based on the molecular recognition of cellulose.
372. In vitro synthesis of cellulose and reconstruction of native cellulose crystal.
373. Functional design and applications of cellulose fiber-based materials.
374. Surface chemistry of cellulose for paper materials.
375. Porous structure of catalyst paper involved in methanol reforming performance.
376. Autothermal reforming using catalyst paper for hydrogen production.
377. Surface morphology and water repellency of sized cellulosic substrates.
378. Preparation and characterization of cellulose derivatives by regioselective esterification of biodegradable cyclic esters.
379. Wet-end interaction of cellulose-affinity molecules as retention promoter.
380. Architectural design of cellulose monolayer at Au interface.
381. Molecular design of cellulose anchor for wet-end applications.
382. Cellulose synthesis with surfactant-coated cellulase in organic solvent.
383. Preparation of cellulose derivatives by regioselective ring-opening esterification of cyclic esters.
384. Crystalline cellulose architecture designed by self assembly.
385. Preparation and wetting behavior of self-assembled methylcellulose monolayers.
386. Preparation and performance of catalyst paper for methanol steam reforming.
387. Preparation and hydrogen production of catalyst paper for methanol steam reforming.
388. Functional protection of cellulase with surfactant and cellulose synthesis in organic solvent.
389. Material science of cellulose architectures.
390. Advanced technology for photocatalyst applications.
391. Research strategy for pulp/paper science and technology.
392. Regioselective derivatization of cellulose with L-lactide by ring-opening esterification in LiCl/DMAc solvent system.
393. Preparation and characterization of cellulose monolayer.
394. Photocatalytic effects of composite TiO2-zeolite sheets on the decomposition of bisphenol A in water.
395. Hydrogen production for fuel cells by methanol steam reforming using paperlike catalyst/fiber composites.
396. Catalyst paper for hydrogen production.
397. Functional application of cellulose-anchoring molecules in wet-end system.
398. Preparation and performance of paperlike catalyst composites for methanol steam reforming.
399. Sizing response induced by the attractive force acting at size molecules/substrate interfaces.
400. Affinity evaluation and wet-end application of cellulose-anchoring molecules.
401. Crystalline structure of self-assembled cellulose monolayer.
402. Preparation of cellulose derivatives by ring-opening esterification of cyclic esters.
403. Preparation of catalyst paper with methanol steam reforming performance.
404. Novel wet-end system using cellulose-anchoring molecules.
405. Functional application of cellulose-binding abilities of cellulase at wet-end process.
406. Preparation and morphological analysis of self-assembled monolayer of thiol-modified cellulose derivative.
407. Preparation and characterization of regioselectively derivatized cellulose by ring-opening esterification of L-lactide.
408. Morphological study on paper sizing.
409. Effects of paper void of photocatalyst paper on VOC decomposition.
410. Functional design of photocatalyst paper for improving water environment.
411. Preparation of catalyst paper and hydrogen production at MSR process.
412. Preparation and environmental applications of paper-like photocatalyst composites.
413. Development of porous catalyst/fiber composites for MSR process.
414. Preparation and photocatalytic effect of porous ceramic felts containing TiO2.
415. Functional application of cellulose-binding domain of cellulase as a retention promoter for papermaking additive.
416. Preparation and characteristics of cellulose derivative by ring-opening esterification of L-lactide.
417. Self-assembled monolayer of thiol derivative of cellulose on Au interface.
418. Methanol steam reforming by catalyst-containing paper composites prepared by a papermaking technique.
419. Preparation and environmental applications of paperlike fiber/photocatalyst composites.
420. Preparation of cellulose derivatives by ring-opening esterification of L-lactide.
421. Morphological analysis of regenerated cellulose films.
422. Retention behavior and paper-strength enhancement of CBD-polymers.
423. Preparation of high performance paper containing TiO2 photocatalyst supported on inorganic fiber matrix.
424. Photocatalytic decomposition of bisphenol A in water by paper-like TiO2-zeolite composites.
425. Photocatalytic oxidation of NOx by paper-like TiO2 composites containing zeolite and metallic oxides.
426. Efficient surface modification of pulp fibers by fluorine-containing reagents under aqueous conditions and its application to papermaking.
427. Surface characteristics and sizing response of paper sheets sized by anionic emulsion of fatty acids.
428. Preparation and characteristics of polymer additive containing cellulose-binding domain of cellulase.
429. Preparation of cellulose-based biodegradable materials.
430. Degradation and mineralization of bisphenol A by TiO2-zeolite sheets.
431. Sizing mechanism of paper based on the molecular interactions.
432. NOx remobal by TiO2-containing inorganic sheets.
433. Preparation and characterization of spin-coated cellulose films.
434. Environmental improvement by composite TiO2-zeolite sheets.
435. Photocatalyst paper and environmental improvement.
436. NOx removal by TiO2-zeolite sheets prepared through a papermaking technique.
437. Paper-strength enhancement by polymer additive containing cellulose-binding domain of cellulase.
438. NOx removal by composite photocatalyst/adsorbent sheets.
439. Photodegradation of bisphenol A by TiO2-zeolite sheets.
440. Determination of cationic demand of papermaking process and sludge by C-DADMAC.
441. VOC decomposition by photocatalyst paper.
442. Sizing response factor characterized by XPS/PyGC comparative analysis.
443. Preparation of cationic styrene-based polymers and their sizing effect.
444. Functional design of photocatalyst paper by inorganic fiber matrix.
445. R & D of composite TiO2-zeolite sheets for environmental cleanup.
446. Paper-strengthning effect of A-PAM containing cellulose-binding domain of cellulase.
447. Flocculation behavior of size components in paper for sizing appearance.
448. Vinylformamide-based cationic polymers as retention aid in alkaline papermaking.
449. Photocatalytic decomposition of bisphenol A by TiO2-zeolite sheets.
450. Photocatalyst paper: Preparation and environmental applications.
451. Passive removal of NOx by inorganic TiO2 sheets.
452. Sizing response mechanism determined by XPS analysis.
453. Distribution analysis of various elements adsorbed on oxidized cellulose.
454. Characterization of sized paper surface by X-ray photoelectron spectroscopy.
455. Determination of cationic demand of paper mill machines by chromo-PDADMAC.
456. Sizing mehanism of paper by rosin emulsion-alum sizing systems.
457. Preparation of TiO2-zeolite sheets and improvement of indoor pollution.
458. Removal of indoor pollutants by composite TiO2-zeolite sheets.
459. Recent trend in pulp and paper chemistry.
460. Surface sizing with emulsion rosin sizes: Two- dimensional XPS analysis of rosin distribution in paper.
461. Preparation of TiO2-zeolite composite sheet using a papermaking technique: Application to decomposition of environmental pollutants.
462. Preparation of multi-functional zeolite sheets and their VOC decomposition.
463. Novel synthesis of cationic chromo-polymer and its application to determining cationic demand of practical papermaking.
464. Distribution characteristics of rosin size and sizing features of paper in internal paper sizing.
465. Relationship between Al-mapping and fiber charge.
466. Determination of cationic demand with chromo-PDADMAC.
467. Relationship between rosin-mapping and paper sizing.
468. Uniformity of zeolite sheets and VOC adsorptivity.
469. VOC decomposition by composite TiO2-zeolite sheets.
470. Photocatalytic decomposition of VOC by zeolite-TiO2 composite sheet prepared using a papermaking technique.
471. Determining cationic demand of suspensions using chromo-PDADMAC.
472. Two-dimensional XPS analysis of aluminum components on the fiber surfaces related to their charge properties at the wet-end.
473. Water-resistant mechanism of N-chlorinated paper.
474. Fiber charge characteristics of pulp suspension containing aluminum sulfate.
475. Functional mechanisms of cationic polymers in neutral-alkaline paper sizing with rosin sizes.
476. Determination of the cationic demand of papermaking stock using chromophoric labeled cationic polymers.
477. X-ray photoelectron spectroscopic analysis of aluminum compounds adsorbed on pulp fiber surfaces.
478. Preparation of platelike zeolite composites using papermaking technique.
479. TEMPO-mediated oxidation of cellulose.
480. TEMPO-modification and characteristics of cellulose.
481. Determination of cationic demand at wet-end.
482. Sizing mechanism of neutral rosin size, IV Size distribution and sizing effect.
483. TEMPO-mediated oxidation of cellulosic materials.
484. Physical enhancement of zeolite sheets by binder.
485. Surface sizing with rosin emulsion size.
486. Functional modification of cellulose by TEMPO-midiated oxidation.
487. Effects of in-paper distribution states of rosin particles on paper sizing.