Peer-reviewed Journal Articles

1. I. Taniguchi, K. Kinugasa, M. Toyoda, K. Minezaki, K. Mitsuhara, H. Mitsuhara, Piperazine-immobilized polymeric membranes for CO₂ capture: Mechanism of preferential CO₂ permeation, Polym. J., in press.
2. Y. Liu, T. Kodama, T. Kojima, I. Taniguchi, H. Seto, Y. Miura, Y. Hoshino, Fine-tuning of the surface porosity of micropatterned polyethersulfone membranes prepared by phase separation micromolding, Polym. J., 52, 397-403, (2020).
3. Biodegradation of waste PET, K. Hiraga, I. Taniguchi, S. Yoshida, Y. Kimura, K. Oda, EMBO reports, 20, e49365, (2019).
4. Biodegradation of PET: Current Status and Application Aspects, I. Taniguchi, S. Yoshida, K. Hiraga, K. Miyamoto, Y. Kimura, K. Oda, ACS Catalyst, 9, 5, 4089-4105 (2019).
5. Effect of addition of Proline, ionic liquid [Choline][Pro] on CO₂ separation properties of poly(amidoamine) dendrimer/poly(ethylene glycol) hybrid membranes, S.H. Duan, T. Kai, F.A. Chowdhury, I. Taniguchi, and S. Kazama, Materials Science and Engineering, 292, 12040 (2018).
6. CO₂ capture by polymeric membranes composed of hyper-branched polymers with dense poly(oxyethylene) comb and poly(amidoamine), I. Taniguchi, N. Wada, K. Kinugasa, M. Higa, Open Physics, 15, 662-670 (2017). [invited]
7. Effect of amine structure on CO₂ capture by polymeric membranes, I. Taniguchi, K. Kinugasa, M. Toyoda, K. Minezaki, Sci., Technol., Adv. Mater., 18, 950-958 (2017). [invited]
8. Low Energy CO₂ Capture by Electrodialysis, I. Taniguchi, T. Yamada, Energy Procedia, 114C, 1615-1620 (2017).
9. A strategy to enhance CO₂ permeability of well-defined hyper-branched polymers comprised of dense polyoxyethylene comb graft and poly(methyl methacrylate) backbone to form a POE-rich domain upon microphase separation, I. Taniguchi, N. Wada, K. Kinugasa, M. Higa, J. Membr. Sci., 535, 239-247 (2017).
10. Response to “A bacterium that degrades and assimilates polyethylene terephthalate”, S. Yoshida, K. Hiraga, T. Takehana, I. Taniguchi, H. Yamaji, M. Maeda, T. Toyohara, K. Miyamoto, Y. Kimura, K. Oda, Science, 353, 759 (2016).
11. Low-Temperature Processable Block Copolymers That Preserve the Function of Blended Proteins, Y. Iwasaki, K. Takemoto, S. Tanaka, I. Taniguchi, Biomacromolecules, 17, 2466 (2016).
12. A bacterium that degrades and assimilates polyethylene terephthalate, S. Yoshida, K. Hiraga, T. Takehana, I. Taniguchi, H. Yamaji, M. Maeda, T. Toyohara, K. Miyamoto, Y. Kimura, K. Oda, Science, 351, 1196 (2016).
13. Preparation of well-defined hyper-branched polymers and the CO₂ separation performance, I. Taniguchi, K. Kinugasa, S. Egashira, M. Higa, J. Membre. Sci., 502, 124 (2016).
14. Nanoconfinement and chemical structure effects on permeation selectivity of self-assembling graft copolymers, C. Vannucci, I. Taniguchi, A. Asatekin, ACS Macro Lett., 4, 872 (2015).
15. CO₂ separation with nano-thick polymeric membrane for pre-combustion, I. Taniguchi, S. Fujikawa, Energy Procedia, 63, 235 (2014).
16. Preliminary Feasibility Study for On-Site Hydrogen Station with Distributed CO₂ Capture and Storage System, S. Kimura, K. Honda, K. Kitamura, I. Taniguchi, K. Shitashima, T. Tsuji, S. Fujikawa, Energy Procedia, 63, 4575 (2014).
17. Development of Poly(Amidoamine) Dendrimer/ Poly(Ethylene Glycol) Hybrid Membranes for CO₂ Capture at Elevated Pressures, S. Duan, T. Kai, I. Taniguchi, S. Kazama, Energy Procedia, 63, 167 (2014).
18. A compatible crosslinker for enhancement of CO₂ capture of poly(amidoamine) dendrimer-containing polymeric membranes, I. Taniguchi, T. Kai, S. Duan, S. Kazama, H. Jinnai, J. Membr. Sci., 475, 175 (2015).
19. An alternative CO₂ capture by electrochemical method, I. Taniguchi, D. Ioh, S. Fujikawa, T. Watanabe, Y. Matsukuma, M. Minemoto, Chem. Lett., 43, 1601 (2014).
20. Development of CO₂ separation membrane with poly(amidoamine) dendrimer, I. Taniguchi, T. Kai, S. Duan, S. Kazama, H. Jinnai, Kobunshi Ronbunshu, 71, 202 (2014). (Comprehensive paper)
21. Effect of phase-separated structure on CO₂ separation performance of poly(amidoamine) dendrimer immobilized in a poly(ethylene glycol) network, I. Taniguchi, S. Duan, T. Kai, S. Kazama, H. Jinnai, J. Mater. Chem. A, 1, 14514 (2013).
22. A CO₂-selective molecular gate of Poly(amidoamine) dendrimer immobilized in a poly(ethylene glycol) network, I. Taniguchi, , H. Urai, T. Kai, S. Duan, S. Kazama, J. Membr. Sci., 444, 96 (2013).
23. Poly(amidoamine) dendrimer containing polymeric membrane for preferential CO₂ separation over H₂ – Interplay between CO₂ separation properties and morphology, I. Taniguchi, T. Kai, S. Duan, S. Kazama, Energy Procedia, 37, 1067 ( 2013).
24. Molecular Gate Membrane: Poly(amidoamine) Dendrimer/polymer Hybrid Membrane Modules for CO₂ Capture, T. Kai, I. Taniguchi, S. Duan, F. A. Chowdhury, T. Saito, K. Yamazaki, L. Ikeda, T. Ohara, S. Asano, S. Kazama, Energy Procedia, 37, 961 (2013).
25. Development of poly(amidoamine) dendrimer/polyvinyl alcohol hybrid membranes for CO₂ capture at elevated pressures, S. Duan, I. Taniguchi, T. Kai, S. Kazama, Energy Procedia, 37, 924 (2013).
26. Development of poly(amidoamine) dendrimer/poly(vinyel alcohol) hybrid membranes for CO₂ separation, S. Duan, T. Kai, I. Taniguchi, S. Kazama, Desalin. Water Treat., 51, 5337 (2013).
27. Low-Temperature Processable Degradable Polyesters, I. Taniguchi, N. G. Lovell, Macromolecules, 45, 7420 (2012).
28. Poly(amidoamine) dendrimer/poly(vinyl alcohol) hybrid membranes for CO₂ capture, S. Duan, I. Taniguchi, T. Kai, S. Kazama, J. Membr. Sci., 423-424, 107 (2012).
29. Structural analysis of poly(amidoamine) dendrimer immobilized in cross-linked poly(ethylene glycol), I. Taniguchi, S. Kazama, H. Jinnai, J. Polym. Sci. B: Polym. Phys., 50, 1156 (2012).
30. Polymeric Membranes Composed of Polystyrenes Tethering Amino Acids for Preferential CO₂ Separation over H₂, I. Taniguchi, Y. Ootera, F.A. Chowdhury, K. Tomizaki, T. Kai, S. Kazama, Polym. Bull., 69, 405 (2012).
31. Baroplastics: Polymers with Low-Temperature Flow, I. Taniguchi, J. Japan Soc. Polym. Process., 22, 373 (2010).
32. Facile Fabrication of a Novel High Performance CO₂ Separation Membrane: Immobilization of Poly(amidoamine) Dendrimers in Poly(ethylene glycol) Networks, I. Taniguchi, S. Duan, S. Kazama, Y. Fujioka, J. Membr. Sci., 322, 277 (2008).
33. Electrochemical Characterization of Vanadium Oxide Nanostructured Electrode, E.A. Olivetti, K.C. Avery, I. Taniguchi, D.R. Sadoway, A.M. Mayes, J. Electrochem. Soc., 155, A488 (2008).
34. Interplay between PEO Tether Length and Ligand Spacing Governs Cell Spreading on RGD-Modified PMMA-g-PEO Comb Copolymers, W.A. Kuhlman, I. Taniguchi, L.G. Griffith, A.M. Mayes, Biomacromolecules, 8, 3206 (2007).
35. Functional Modification of Biodegradable Polyesters through A Chemoselective Approach: Application to Biomaterial Surfaces, I. Taniguchi, W.A. Kuhlman, L.G. Griffith, A.M. Mayes, Polym. Int., 13, 1385 (2006).
36. Macromolecular Purification Strategy for Well-Defined Polymer Amphiphiles Incorporating Poly(ethylene glycol) Monomethacrylate, I. Taniguchi, W.A. Kuhlman, L.G. Griffith, A.M. Mayes, Macromol. Rapid Commun., 27, 631 (2006).
37. Conductivity Hysteresis in Polymer Electrolytes Incorporating Poly(tetrahydrofuran), O. Akubult, I. Taniguchi, S. Kumar, Y. Shao-Horn, A.M. Mayes, Electrochimica Acta, 52, 1983 (2006).
38. A Chemoselective Approach to Grafting Biodegradable Polyesters, I. Taniguchi, A.M. Mayes, E.W.L. Chan, L.G. Griffith, Macromolecules, 38, 216 (2005).
39. Hydrogel Formation between Enantiomeric B-A-B-Type Block Copolymers of Polylactides (PLLA or PDLA: A) and Polyoxyethylene (PEG: B); PEG-PLLA-PEG and PEG-PDLA-PEG, T. Mukose, T. Fujiwara, J. Nakano, I. Taniguchi, M. Miyamoto, Y. Kimura, I. Teraoka, C.W. Lee, Macromol. Biosci., 4, 361 (2004).
40. Microbial production of poly(hydroxyalkanoate)s from waste edible oils, I. Taniguchi, K. Kagotani, Y. Kimura, Green Chem., 5, 545 (2003).
41. Reaction mechanism of enzymatic degradation of poly(butylene succinae-co-terephthalate) (PBST) with a lipase originated from Pseudomonas cepacia, N. Honda, I. Taniguchi, M. Miyamoto, Y. Kimura, Macromol. Biosci., 3, 189 (2003).
42. Formation of stable nanoparticles of poly(phenyl/methylsilsesquioxane) in aqueous solution, C. Ma, I. Taniguchi, M. Miyamoto, Y. Kimura, Polym. J., 35, 270 (2003).
43. Mechanism of enzymatic hydrolysis of poly(butylene succinate) and poly(butylene succinate-co-L-lactate) with a lipase from Pseudomonas cepacia, I. Taniguchi, S. Nakano, T. Nakamura, A.El. Salmawy, M. Miyamoto, Y. Kimura, Macromol. Biosci., 2, 447 (2002).
44. Poly([R]-3-hydroxybutyrate-co-glycolate): a novel PHB derivative chemically synthesized by copolymerization of a new cyclic diester monomer [R]-4-methyl-1,5-dioxepane-2,6-dione, S. Hiki, I. Taniguchi, M. Miyamoto, Y. Kimura, Macromolecules, 35, 2423 (2002).
45. Synthesis and properties of high-molecular-weight poly(L-lactic acid) by melt/solid polycondensation under different reaction conditions, S-I. Moon, I. Taniguchi, M. Miyamoto, Y. Kimura, High Perform. Polym., 13, 189 (2001).
46. Melt/solid polycondensation of L-lactic acid: an alternative route to poly(L-lactic acid) with high molecular weight, S-I. Moon, C.W. Lee, I. Taniguchi, M. Miyamoto, Y. Kimura, Polym., 42, 5059 (2001).
47. Synthesis and characterization of a novel rac-PHB derivative containing a-malate units, S. Hiki, I. Taniguchi, M. Miyamoto, Y. Kimura, Sen’I Gakkaishi, 57, 191 (2001).
48. Melt/solid polycondensation of glycolic acid to obtain high-molecular-weight poly(glyocolic acid), K. Takahashi, I. Taniguchi, M. Miyamoto, Y. Kimura, Polym., 41, 8725 (2000).
49. Effect of Macromolecular Assembly of Galactoside-conjugated Polysaccharides on Galactose Oxidase Activity, I. Taniguchi, K. Akiyoshi, J. Sunamoto, Macromol. Chem. Phys., 200, 1386 (1999).
50. Self-Aggregate Nanoparticles of Cholesteryl and Galactoside groups-conjugated Pullulan and Their Specific Binding to Galactose-Specific Lectin, RCA₁₂₀, I. Taniguchi, K. Akiyoshi, J. Sunamoto, Macromol. Chem. Phys., 200, 1554 (1999).
51. Cell-specificity of Macromolecular Assembly of Cholesteryl and Galactoside groups-conjugated Pullulan, I. Taniguchi, K. Akiyoshi, Y. Suda, M. Yamamoto, K. Ichinose, J. Sunamoto, J. Bioact. Compat. Polym., 14, 195 (1999).
52. Substitution for Apoprotein of Neocarzinostatin by Self-Aggregate of Cholesterol-bearing Pullulan, I. Taniguchi, M. Fujiwara, K. Akiyoshi, J. Sunamoto, Bull. Chem. Soci. Japan, 71, 2681 (1998).
53. Hydrogel Nanoparticle Formed by Self-assembly of Hydrophobized Polysaccharide. Stabilization of Adriamycin upon Complexation, K. Akiyoshi, I. Taniguchi, H. Fukui, J. Sunamoto, Eur. J. Pharm. Biopharm., 42, 286 (1996).

 

Peer-reviewed Proceedings (International Meetings)

1. CO₂ capture by polymeric membranes containing amines: interplay between structures and CO₂ separation properties, I. Taniguchi, ICOM 2017, San Francisco, Jul. 31-Aug. 4, 2017.
2. Low-temperature processable bio-based polymers, I. Taniguchi, K. Masutani, the 6^th International Conference on Bio-based Polymers (ICBP2017), Taoyuan, Taiwan, May 17, 2017.
3. CO₂ capture over H₂ by polymeric membranes for carbon-free H₂ production, I. Taniguchi, Separation Technology IX: New Frontiers in Media, Techniques and Technologies, Albufeira, Portugal, Mar. 10, 2017.
4. Mechanism of preferential CO₂ permeation of amine-containing polymeric membrane, M. Yoshizawa, K. Kinugasa, I. Taniguchi, Separation Technology IX: New Frontiers in Media, Techniques and Technologies, Albufeira, Portugal, Mar. 5, 2017.
5. Preferential CO₂ permeation of polymeric membranes and the mechanism, I. Taniguchi, the 11^th SPSJ International Polymer Conference, Fukuoka International Congress Center, Dec. 15, 2016.
6. CO₂ separation membranes over H₂, M. Yoshizawa, K. Kinugasa, I. Taniguchi, the 11^th SPSJ International Polymer Conference, Fukuoka International Congress Center, Dec. 14, 2016.
7. Effect of membrane resistance on CO₂ capture energy by electrodialysis, T. Yamada, I. Taniguchi, M. Higa, the 11^th SPSJ International Polymer Conference, Fukuoka International Congress Center, Dec. 14, 2016.
8. Low energy CO₂ capture by electrodialysis, I. Taniguchi, T. Yamada, the 13^th Greenhouse Gas Control Technologies (GHGT-13), SwissTech Convention Center, Lausanne, Nov. 14-18 (2016).
9. Preferential CO₂ permeation of polymeric membranes over H₂, I. Taniguchi, K. Kinugasa, the 67^th Division meeting on Colloid and Interface Chemistry International Symposium, Hokkaido University of Education, Asahikawa Campus, Asahikawa, Japan, Sep. 22-24 (2016).
10. Synthesis and Characterization of Amine- Tethering Polymers for Preferential CO₂ permeation over H₂, I. Taniguchi, M. Yoshizawa, K. Kinugasa, the 10^th Conference of Aseanian Membrane Society, Nara Kasugano International Forum IRAKA, Nara, Japan, Jul. 26-29 (2016).
11. Development of Nanogel Membranes for CO₂ Separation, Y. Hoshino, T. Gyobu, K. Imamura, I. Taniguchi, Y. Miura, the 10^th Conference of Aseanian Membrane Society, Nara Kasugano International Forum IRAKA, Nara, Japan, Jul. 26-29 (2016).
12. Effect of water vapor on CO₂ recovery in CO₂ capture by electrodialysis, T. Yamada, I. Taniguchi, M. Higa, the 10^th Conference of Aseanian Membrane Society, Nara Kasugano International Forum IRAKA, Nara, Japan, Jul. 26-29 (2016).
13. Effective CO₂ Separation over H₂ by Amine-Containing Polymeric Membranes and the Factors to Determine the CO₂ Separation Properties, I. Taniguchi, K. Kinugasa, the 10^th Conference of Aseanian Membrane Society, Nara Kasugano International Forum IRAKA, Nara, Japan, Jul. 26-29 (2016).
14. Interplay between CO₂ separation properties and membrane morphology, I. Taniguchi, K. Kinugasa, The 2015 International Chemical Congress of Pacific Basin Societies (Pacifichem), Hawaii Convention Center, Hawaii, USA, Dec. 15-20 (2015).
15. Degradable plastics with low-temperature formability, I. Taniguchi, K. Masutani, The 2015 International Chemical Congress of Pacific Basin Societies (Pacifichem), Hawaii Convention Center, Hawaii, USA, Dec. 15-20 (2015).
16. Preparation of CO₂ separation polymeric membranes with high CO₂ permeability, T. Shirouzu, I. Taniguchi, The 28^th International Symposium on Chemical Engineering (ISChE 2015), Jeju, Korea, Dec. 4-6 (2015).
17. Development of amine derivatives for preferential CO₂ separation over H₂, M. Yoshizawa, I. Taniguchi, The 28^th International Symposium on Chemical Engineering (ISChE 2015), Jeju, Korea, Dec. 4-6 (2015).
18. An effective CO₂ capture technology by electrodialysis, T. Yamada, I. Taniguchi, M. Higa, Taiwan/Japan/Korean Joint meeting on Chemical Engineering (TJK meeting), Kaohsiung, Taiwan, Nov. 5-7 (2015).
19. Poly(amidoamine) for CO₂ –free H₂ production, I. Taniguchi, K. Kinugasa, S. Fujikawa, K. Honda, TCCS8, Trondheim, Norway, Jun. 16-18 (2015).
20. CO₂ capture in H₂ production by polymeric membrane, I. Taniguchi, K. Kinugasa, S. Fujikawa, K. Honda, Advanced Membrane Technology VI, Sicily, Italy, Feb. 8-13 (2015).
21. An alternative CO₂ capture by electrodialysis, I. Taniguchi, D. Ioh, S. Fujikawa, M. Higa, Advanced Membrane Technology VI, Sicily, Italy, Feb. 8-13 (2015).
22. CO₂ separation with nano-thick polymeric membrane for pre-combustion, I. Taniguchi, S. Fujikawa, GHGT-12, Austin, TX, USA, Oct. 5-9 (2014).
23. Development of poly(amidoamine) dendrimer/ poly(ethylene glycol) hybrid membranes for CO₂ capture at elevated pressures, S. Duan, T. Saito, K. Yamazaki, K. Ikeda, I. Taniguchi, S. Kazama, T. Kai, GHGT-12, Austin, TX, USA, Oct. 5-9 (2014).
24. Preliminary Feasibility Study for On-Site Hydrogen Station with Distributed CO₂ Capture and Storage System, S. Kimura, K. Honda, K. Kitamura, I. Taniguchi, K. Shitashima, T. Tsuji, S. Fujikawa, the 12^th International Conference on Greenhouse Gas Control Technologies, Austin, TX, USA, Oct. 5-9 (2014).
25. Preferential CO₂ Separation over H₂ with Polymeric Membranes containing Various Amine Compounds, I. Taniguchi, K. Kinugasa, S. Fujikawa, the 15^th IUMRS-ICA, Fukuoka, Japan, Aug. 24-30 (2014).
26. CO₂ separation properties of poly(amidoamine) dendrimer/poly(ethylene glycol) hybrid membranes, K. Yamazaki, S. Duan, T. Saito, K. Ikeda, I. Taniguchi, T. Kai, the 15^th IUMRS-ICA, Fukuoka, Japan, Aug. 24-30 (2014).
27. Preferential CO₂ Permeation with Poly(amidoamine) Dendrimer Containing Polymeric Membranes, I. Taniguchi, K. Kinugasa, S. Fujikawa, ICOM 2014, Suzhou, China, Jul. 20-25 (2014).
28. Improvement of CO₂ separation performance of thin poly(amidoamine) dendrimer/poly(ethylene glycol) hybrid membranes, S. Duan, T. Saito, K. Yamazaki, I. Taniguchi, K. Ikeda, S. Kazama, T. Kai, ICOM 2014, Suzhou, China, Jul. 20-25 (2014).
29. Preferential CO₂ separation over H₂ with poly(amidoamine) dendrimer containing polymeric membranes, I. Taniguchi, K. Kinugasa, S. Fujikawa, 2014 MRS spring meeting & exhibitions, San Francisco, CA, USA, Apr. 21-25 (2014).
30. Electrochemical method as a novel CO₂ removal system, D. Ioh, K. Sugi, J. Kohara, T. Watanabe, Y. Matsukuma, I. Taniguchi, S. Fujikawa, the 26^th International symposium on chemical engineering, Busan, Korea, Dec. 6-8 (2013).
31. Preferential CO₂ separation over H₂ with poly(amidoamine) dendrimer-containing polymeric membrane, I. Taniguchi, S. Fujikawa, 2013 MRS fall meeting & exhibitions, Boston, MA, USA, Dec. 1-6 (2013).
32. Fabrication of nano-thick membranes to improve preferential CO₂ permeation over H₂, I. Taniguchi, S. Fujikawa, IMSTEC 2013, Melbourne, Australia, Nov. 25-29 (2013).
33. Preferential CO₂ separation over H₂ with polymeric membranes, I. Taniguchi, 10^th Asia Oceania Geosciences Society meeting, Brisbane, Australia, Jun. 24-28 (2013). [Invited]
34. Preferential CO₂ separation over H₂ with poly(amidoamine) dendrimer immobilized in a poly(ethylene glycol) network, I. Taniguchi, S. Duan, T. Kai, S. Kazama, 2012 AIChE annual meeting, Pittsburgh, USA, Oct. 28-Nov.2 (2012).
35. Room temperature processable degradable polyesters, I. Taniguchi, 2012 Asian Workshop on Polym. Process., Kyoto, Japan, Aug. 28-31 (2012).
36. Development of Poly(amidoamine) Dendrimer/Poly(vinyl alcohol) Hybrid Membranes for CO₂ Separation, S. Duan, T. Kai, I. Taniguchi, S. Kazama, The 7^th Conference of Aseanian Membrane Society, Busan, Korea, Jul. 4-7 (2012).
37. Development of poly(amidoamine) dendrimer/polymer hybrid membranes for CO₂/H₂ separation, T. Kai, S. Duan, I. Taniguchi, S. Kazama, the 2011 Intl. Congress on Membranes and Membrane Processes, Amsterdam, The Netherlands, Jul. 23-29 (2011).
38. Development of Molecular Gate Membrane for CO₂ Capture, S. Duan, T. Kai, I. Taniguchi, S. Kazama, the 6^th Japan-China Symposium on Chemical Engineering, Wuhan, China, Jun. 21-24 (2011).
39. Polymeric membranes containing poly(amidoamine) (PAMAM) dendrimer for preferential CO₂ separation over H₂, I. Taniguchi, R. Shimizu, S. Duan, T. Kai, S. Kazama, 2010 International Chemical Congress of Pacific Basin Societies (Pacifichem 2010), Hawaii, USA, Dec. 15-20 (2010).
40. Development of Poly(amidoamine) Dendrimer/Poly(vinyl alcohol) membrane for CO₂ Capture, S. Duan, I. Taniguchi, T. Kai, S. Kazama, The 6^th Conference of Aseanian Membrane Society, Sydney, Australia, Nov. 22-26 (2010).
41. CO₂-selective Membrane of Poly(amidoamine) Dendrimer incorporated into cross-linked Poly(vinyl alcohol) for CO₂ Capture, S. Duan, I. Taniguchi, S. Kazama, Y. Fujioka, the 5^th Japan-China Symposium on Chemical Engineering (CJCES-5), Xi'an, Shaanxi, China, Jul. 21-23 (2009).
42. Poly(amidoamine) Dendrimer Immobilized Poly(ethylene glycol) Network for a Novel CO₂ Separation Membrane, I. Taniguchi, S. Kazama, H. Jinnai, the 11^th Pacific Polymer Conference, Cairns, Australia, Dec. 6-10 (2009).
43. Dendrimer immobilized hydrogel membrane for the separation of carbon dioxide, R. Shimizu, I. Taniguchi, S. Kazama, Y. Fujioka, The 5^th Conference of Aseanian Membrane Society, Kobe, Japan, Jul. 12-14 (2009).
44. Development of CO₂ selective separation membranes of poly(amidoamine) dendrimer incorporated into cross-linked poly(vinyl alcohol), S. Duan, I. Taniguchi, S. Kazama, Y. Fujioka, The 5^th Conference of Aseanian Membrane Society, Kobe, Japan, Jul. 12-14 (2009).
45. Poly(amidoamine) Dendrimer in Poly(ethylene glycol) Network for a CO₂ Separation Membrane: Mechanism of Preferential CO₂ Separation, I. Taniguchi, S. Duan, S. Kazama, Y. Fujioka, the 237^th American Chemical Society meeting, Salt Lake City, USA, Mar. 22–26 (2009).
46. Functionalized Blending Membranc of PAMAM Dendrimer in the Rigid Polymer Matrix for CO₂ Separation, R. Shimizu, I. Taniguchi, S. Kazama, Y. Fujioka, The 1^st International Conference on Multifunctional, Hybrid and Nanomaterials, Tours, France, Mar. 15-19 (2009).
47. Immobilization of Poly(amidoamine) Dendrimers in Poly(ethylene glycol) Network for a Novel CO₂ Separation Membrane, I. Taniguchi, S. Duan, R. Shimizu, S. Kazama, Y. Fujioka, the International Material Research Society meeting, Chongqing, China, Jun. 9-12 (2008).
48. Charged Polymer Nanofiltration Membranes for Selective Retention, G.N. Lovell, A.M. Mayes, I. Taniguchi, A. Asatekin, the 233^rd ACS National Meeting, Chicago, IL, USA, Mar. 25-29 (2007).
49. Macromonomer Purification of Poly(ethylene glycol) Monomethacrylate Using An Alkylsilyl Resin, I. Taniguchi, W.A. Kuhlman, L.G. Griffith, A.M. Mayes, The 232^nd American Chemical Society meeting, San Francisco, CA, USA, Sept. 10-14 (2006).
50. Functional Modification of Biodegradable Polyester For Cell-Specific Biomaterial Surfaces, I. Taniguchi, W.A. Kuhlman, L.G. Griffith, A.M. Mayes, The 232^nd American Chemical Society meeting, San Francisco, CA, USA, Sept. 10-14 (2006).
51. Conductivity Hysteresis in Polymer Electrolytes Incorporating Poly(tetrahydrofuran), O. Akbulut, I. Taniguchi, S. Kumar, Y. Shao-Horn, A.M. Mayes, The American Physical Society meeting (2006 APS March Meeting), Baltimore, MD, USA, Mar. 13–17 (2006).
52. Conductivity of Polymer Electrolytes Incorporating Poly(tetrahydrofuran) and Its Mechanism, I. Taniguchi, O. Akbulut, S. Kumar, Y. Shao-Horn, A.M. Mayes, The 10^th International Symposium on Polymer Electrolytes, Foz do Iguaçú-PR, Paraná, Brazil, Oct. 15-19 (2006).
53. The Effects of Ligand Presentation on EGFR Signaling, E.T. Dimalanta, M.L. Ufret, I. Taniguchi, N.A. Marcantonio, L.B. Richardson, A.M. Mayes, L.G. Griffith, the Biomedical Engineering Society annual fall meeting, Baltimore, MD, USA, Sep. 28 – Oct. 3 (2005).
54. Chemoselective Grafting of Polyethylene Oxide onto Biodegradable Polyester, I. Taniguchi, A.W. Kuhlman, A.M. Mayes, E.W.L. Chan, L.G. Griffith, the 230^th American Chemical Society meeting, Washington DC, USA, Aug. 28-Sept. 1 (2005).
55. Prediction and Characterization of Biodegradable Baroplastics with Low Temperature Processability, G.N. Lovell, I. Taniguchi, A.M. Mayes, the American Physical Society meeting (2005 APS March Meeting), Los Angeles, CA, USA, Mar. 21–25 (2005).
56. Biodegradable Plastic with Low Temperature Formability, I. Taniguchi, G.N. Lovell, A.M. Mayes, the Material Research Society fall meeting, Boston, Mass., USA, Nov. 28 – Dec. 2 (2004).
57. Microbial Degradation of Poly(ethylene terephthalate) and Its Degradation Mechanism, I. Taniguchi, K. Kagotani, M. Miyamoto, K. Hiraga, H. Oyama, K. Oda, Y. Kimura, the 1^st International Symposium on Green & Sustainable Chemistry meeting (GSC-1), Tokyo, Japan, Mar. 13-15 (2003).
58. Polyhydroxyalkanoate (PHA) biosynthesis from Waste Oil, K. Kagotani, I. Taniguchi, M. Miyamoto, K. Kimura, Y. Nishikawa, S. Kunimatsu, Y. Kimura, the 1^st International Symposium on Green & Sustainable Chemistry meeting (GSC-1), Tokyo, Japan, Mar. 13-15 (2003).
59. Synthesis of Polyglactin by Melt/Solid Polycondensation of Glycolic/L-Lactic acids, S.-I. Moon, K. Deguchi, I. Taniguchi, M. Miyamoto, Y. Kimura, the 1^st International Symposium on Green & Sustainable Chemistry meeting(GSC-1), Tokyo, Japan, Mar. 13-15 (2003).
60. Biodegradation Mechanism of Polyesters, I. Taniguchi, Y. Kimura, the 2^nd Eco-energy Material Science and Engineering Symposium, Kyoto, Japan, (2003).
61. Cell-Specific Hydrophobized Polysaccharides, I. Taniguchi, K. Akiyoshi, J. Sunamoto, the IUPAC International Symposium on Ionic Polymerization, Kyoto, Japan, Jul. (1999).
62. Hydrogel Nanoparticles formed by Self-Aggregation of Hydrophobized Polysaccharides, J. Sunamoto, K. Akiyoshi, S. Deguchi, Y. Kato, I. Taniguchi, Y. Sasaki, K. Kuroda, the 216^th American Chemical Society meeting, Boston, USA, (1998).
63. Neocarzinostatin Chromophore Complexed with Self-Aggregate of Hydrophobized Polysaccharide and Its Biological Activity, I. Taniguchi, K. Akiyoshi, J. Sunamoto, the 3^rd International Symposium on Polymer Therapeutics, London, UK, Jan. 7-9 (1998).
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