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Publication List (2015-2011) |
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2015
A Light-Controlled Release System Based on Molecular Recognition of Cyclodextrins
Lee, I. E. T.; Hashidzume, A.; Harada, A.
Macromol. Rapid Commun. 2015, 36, 2055-2059.
(DOI: 10.1002/marc.201500389)
Manual control of catalytic reactions: Reactions by an apoenzyme gel and a cofactor gel
Kobayashi, Y,: Takashima, Y.; Hashidzume, A.; Yamaguchi, H.; Harada, A.
Scientific Reports, 2015, 5, 16254
(DOI: 10.1038/srep16254)
Self-healing, Expansion-Contraction, and Shape-Memory Properties of Preorganized Supramolecular Hydrogel through Host-Guest Interactions
Miyamae, K.; Nakahata, M.; Takashima, Y.; Harada, A.
Angew. Chem. Int. Ed 2015, 54, 8984-8987.
(DOI: 10.1002/anie.201502957)
Direct Covalent Bond Formation between Materials Using Copper(I)-Catalyzed Azide Alkyne Cycloaddition Reactions
Sekine, T.; Takashima, Y.; Harada, A.
RSC Advances 2015, 5, 56130-56135.
(DOI: 10.1039/C5RA08553E)
Macroscopic Self-assembly Based on Complementary Interaction between Nucleobase Pairs
Nakahata, M.; Takashima, Y.; Hashidzume, A.; Harada, A.
Chem. Eur. J. 2015, 21(7), 2770-2774.
(DOI: 10.1002/chem.201404674)
Adhesion between Semihard Polymer Materials Containing Cyclodextrin and Adamantane Based on Host?Guest Interactions
Kakuta, T.; Takashima, Y.; Sano, T.; Nakamura, T.; Kobayashi, Y.; Yamaguchi, H.; Harada, A.
Macromolecules 2015, 48(3), 732?738.
(DOI: 10.1021/ma502316d)
Cyclodextrin-based Chemo- and pH-Responsive Polymer Systems for Pharmaceutical and Biomedical Applications
Harada, A.; Hashidzume, A.
Chemoresponsive Materials: Stimulation by Chemical and Biological Signals 2015, 7, 167-207.
(DOI: 10.1039/9781782622420-00167)
2014
A Metal-Ion-Responsive Adhesive Material via Switching of Molecular Recognition Properties
Nakamura, T.; Takashima, Y.; Hashidzume, A.; Yamaguchi, H.; Harada, A.
Nature Communications 2014, 5, 4622.
(DOI: 10.1038/ncomms5622)
Supramolecular Polymeric Materials via Cyclodextrin?Guest Interactions
Harada, A.; Takashima, Y.; Nakahata, M.
Acc. Chem. Res., 2014, 47 (7), 2128?2140.
(DOI: 10.1021/ar500109h)
Redox?Responsive Macroscopic Gel Assembly Based on Discrete Dual Interactions
Nakahata, M.; Takashima, Y.; Harada, A.
Angew. Chem. Int. Ed., 2014, 53(14), 3617-3621.
(DOI: 10.1002/anie.201310295)
A Macroscopic Reaction: Direct Covalent Bond Formation between Materials Using a Suzuki-Miyaura Cross-Coupling Reaction
Sekine, T.; Kakuta, T.; Nakamura, T.; Kobayashi, Y.; Takashima, Y.; Harada, A.
Scientific Reports 2014, 4, 6348.
(DOI: 10.1038/srep06348)
pH- and Sugar-Responsive Gel Assemblies Based on Boronate-Catechol Interactions
Nakahata, M.; Mori, S.;Takashima, Y.; Hashidzume, A.; Yamaguchi, H.; Harada, A.
ACS Macro Lett., 2014, 3, 337-340.
(DOI: 10.1021/mz500035w)
Supramolecular Adhesives to Hard Surfaces: Adhesion between Host Hydrogels and Guest Glass Substrates through Molecular Recognition
Takashima, Y.; Sahara, T.; Sekine, T.; Kakuta, T.; Nakahata, M.; Otsubo, M.: Kobayashi, Y.; Harada, A.
Macromol. Rapid Commun., 2014, 35(19), 1646-1652.
(DOI: 10.1002/marc.201400324)
Cover Picture
Cyclodextrin-Based Molecular Machines
Hashidzume, A.; Yamaguchi, H.; Harada, A.
Top. Curr. Chem., 2014, 354, 71-110.
(DOI:10.1007/128_2014_547)
(ISBN (print): 978-3-319-08677-4)
2013
Preorganized Hydrogel: Self-Healing Properties of Supramolecular Hydrogels Formed by Polymerization of Host?Guest-Monomers that Contain Cyclodextrins and Hydrophobic Guest Groups
Kakuta, T,: Takashima, Y.; Nakahata, M.; Otsubo, M,; Yamaguchi, H.; Harada, A
Adv. Mater. 2013, 25(20), 2849-2853.
(DOI: 10.1002/adma.201205321)
Inside Front Cover
Redox-Generated Mechanical Motion of a Supramolecular Polymeric Actuator Based on Host?Guest Interactions
Nakahata, M; Takashima, Y; Hashidzume, A.; Harada, A
Angew. Chem. Int. Ed., 2013, 52(22), 5731-5735.
(DOI: 10.1002/anie.201300862)
Reversible self-assembly of gels through metal-ligand interactions
Kobayashi, Y,: Takashima, Y.; Hashidzume, A.; Yamaguchi, H.; Harada, A
Scientific Reports 2013, 3, 1243.
(DOI: 10.1038/srep01243)
Macromolecular Recognition and Macroscopic Interactions by Cyclodextrins
Harada, A.; Takashima, Y.
Chem. Rec., 2013, 13(5), 420-431.
(DOI: 10.1002/tcr.201300006)
Highly Elastic Supramolecular Hydrogels using Host?Guest Inclusion Complexes with Cyclodextrins
Kakuta, T; Takashima, Y; Harada, A
Macromolecules, 2013, 46(11), 4575?4579.
(DOI: 10.1021/ma400695p)
Macroscopic Self-Assembly Based on Molecular Recognition: Effect of Linkage between Aromatics and the Polyacrylamide Gel Scaffold, Amide versus Ester
Hashidzume, A.; Zheng, Y.; Takashima, Y.; Yamaguchi, H.; Harada, A
Macromolecules, 2013, 46(5), 1939?1947.
(DOI: 10.1021/ma302344x)
Ring-Opening Metathesis Polymerization by a Ru Phosphine Derivative of Cyclodextrin in Water
Takashima, Y.; Uramatsu, K.; Jomori, D.; Harima, A; Otsubo, M; Yamaguchi, H.; Harada, A
ACS Macro Lett., 2013, 2, 384-387.
(DOI: 10.1021/mz4001942)
pH-Responsive Self-Assembly by Molecular Recognition on a Macroscopic Scale
Zheng, Y.; Hashidzume, A.; Harada, A
Macromol. Rapid Commun, 2013, 34(13), 1062-1066.
(DOI: 10.1002/marc.201300324)
Cover Picture
Development and Characterization of a Monoclonal Antibody against Triacetone Triperoxide
Matsumoto, T.; Yamaguchi, H.; Kamijo, K.; Akiyoshi, M.; Matsunaga, T.; Harada, A.
Bull. Chem. Soc. Jpn. 2013, 86, 198-202 (BCSJ Award Article).
2012
Photoswitchable gel assembly based on molecular recognition
Yamaguchi, H.;Kobayashi, Y.; Kobayashi, R.; Takashima,Y.; Hashidzume, A.; Harada, A.
Nature Communications 2012, 3, 603.
(DOI; 10.1038/ncomms1617 )
Switching of macroscopic molecular recognition selectivity using a mixed solvent system
Zheng, Y.; Hashidzume, A.; Takashima, Y.; Yamaguchi, H.; Harada, A
Nature Communications 2012, 3, 831.
(DOI: 10.1038/ncomms1841)
Expansioncontraction of photoresponsive artificial muscle regulated by hostguest interactions
Takashima, Y.; Hatanaka, S.; Otsubo, M.; Nakahata, M.; Kakuta, T.; Hashidzume, A.; Yamaguchi, H.; Harada, A
Nature Communications 2012, 3, 1270.
(DOI: 10.1038/ncomms2280)
[Naute Com. Press releases Dec.11th]
Temperature-Sensitive Macroscopic Assembly Based on Molecular Recognition
Zheng, Y.; Hashidzume, A.; Takashima, Y.; Yamaguchi, H.; Harada, A
ACS Macro Letters 2012, 1, 1083-1085.
(DOI: 10.1021/mz300338d)
Interaction of cyclodextrins with pyrene-modified polyacrylamide in a mixed solvent of water and dimethyl sulfoxide as studied by steady-state fluorescence
Hashidzume, A.; Zheng, Y.; Harada, A
Beilstein J. Org. Chem. 2012, 8, 13121317.
(DOI:10.3762/bjoc.8.150)
Supramolecular Hydrogels Formed from Poly(viologen) Crosslinked with Cyclodextrin Dimers and Their Physical Properties
Takashima, Y.; Yang, Y.; Otsubo, M; Yamaguchi, H.; Harada, A
Beilstein J. Org. Chem. 2012, 8, 1594-1600.
(DOI:10.3762/bjoc.8.182)
Emission Properties of Cyclodextrin Dimers Linked with Perylenediimide - Effect of Cyclodextrin Tumbling
Takashima, Y.; Fukui, Y.; Otsubo, M.; Hamada, N.; Yamaguchi, H.; Yamamoto, H.; Harada, A.
Polymer Journal 2012, 44, 278-285.
Cyclodextrin-Based Polyrotaxanes
Harada, A.; Yamaguchi, H
In “Synthesis of Polymers -New Structures and Methods-” Ed. by Schlter, D. A.; Hawker, C.; Sakamoto, J. Wiley-VCH, Weinhein, Germany, 1113-1130, 2012.
(ISBN: 978-3-527-32757-7)
Cyclodextrin-Based Supramolecular Polymers
Harada, A.; Hashidzume, A.; Yamaguchi, H.; Takashima, Y.
“Polyrotaxanes” The 4th Edition, Encyclopedia of Polymer Science and Technology, 2012, in press.
(ISBN: 978-0-471-44026-0)
2011
Macroscopic Self-Assembly through Molecular Recognition
Harada, A.; Kobayashi, R.; Takashima, Y.; Hashidzume, A.; Yamaguchi, H.
Nature Chem. 2011, 3, 34-37.
[Nature.com] [Nature | Research Highlights] ,
[RSC:Chemistry World]
Redox-responsive self-healing materials formed from host?guest
polymers
Nakahata, M.; Takashima, Y.; Yamaguchi H.;Harada, A.
Nature Communications 2011, 2, 511.
(DOI; 10.1038/ncomms1521)
[Natureasia:日本版]
Artificial Molecular Clamp: A Novel Device for Synthetic Polymerases
Takashima, Y.; Osaki, M.; Ishimaru, Y.; Yamaguchi, H.; Harada, A.
Angew. Chem. Int. Ed. 2011, 33, 7524-7528.
Hot paper :
Back cover,
[Nature | Research Highlights]
[RSC:Chemistry World]
[RSC: Education in Chemistry, 2011, 48(5), "Distillates"]
Selective Photoinduced Energy Transfer from a Thiophene Rotaxane to Acceptor
Sakamoto, K.; Takashima, Y.; Hamada, N.; Ichida, H.; Yamaguchi, H.; Yamamoto, H.; Harada, A.
Org. Lett. 2011, 13 (4), 672-675.
Photoresponsive Formation of Pseudo[2]rotaxane with Cyclodextrin derivatives
Wang, Z.; Takashima, Y.; Yamaguchi, H.; Harada, A.
Org. Lett. 2011, 13(16), 4356-4359.
Recognition of polymer side chains by cyclodextrins
Hashidzume, A.; Harada, A.
Polym. Chem. 2011, 2 (10), 2146-2154.
Self-Assembly of Gels through Molecular Recognition of Cyclodextrins: Shape Selectivity for Linear and Cyclic Guest Molecules
Yamaguchi, H.; Kobayashi, R.; Takashima, Y.; Hashidzume, A.; Harada, A.
Macromolecules 2011, 44 (8), 2395-2399.
Macroscopic Observations of Molecular Recognition: Discrimination of the Substituted Position on the Naphthyl Group by Polyacrylamide Gel Modified with β-Cyclodextrin
Zheng, Y.; Hashidzume, A.; Takashima, Y.; Yamaguchi, H.; Harada, A
Langmuir 2011, 27(22), 13790-13795.
(DOI;10.1021/la2034142)
Macromolecular Recognition: Discrimination between Human and Bovine Serum Albumins by Cyclodextrins
Oi, W.; Isobe, M.; Hashidzume, A.; Harada, A.
Macromol. Rapid Commun. 2011, 32(6), 501-505.
Cover Picture: Macromol. Rapid Commun.
Double Threaded Dimer and Supramolecular Oligomer Formed by Stilbene Modified Cyclodextrin Effect of Acyl Migration and Photo Stimuli
Kanaya, A.; Takashima, Y.; Harada A.
J. Org. Chem. 2011, 76 (2), 492-499.
Macromolecular Recognition by Cyclodextrins. Interaction of Cyclodextrins with Poly(N-acryloyl-amino acids)
Oi, W.; Hashidzume, A.; Harada, A.
Polymer 2011, 52 (3), 746-751.
Photochemically-controlled Supramolecular
Curdlan/Single-Walled Carbon Nanotube Composite Gel: Preparation of Molecular Distaff by Cyclodextrin Modified Curdlan and Phase Transition Control
Tamesue,S.; Takashima, Y.; Yamaguchi, H.;Shinkai, S.; Harada, A.
Eur. J. Org. Chem. 2011,2801-2806.
Specific Biosensing with Supramolecular Complexes of Antibodies
Yamaguchi, H.; Harada, A.
Chem. Sens. 2011, 27 (1), 8-14.
Photoregulated Switching of the Recognition Site of α-Cyclodextrin in a Side Chain Polyrotaxane Bearing Two Recognition Sites Linked with Oligo(ethylene glycol)
Hu, J.; Hashidzume, A.; Harada, A.
Macromol. Chem. Phys. 2011, 212 (10), 1032-1038.
Cover Picture: Macromol. Chem. Phys.
Complex Formation of Cyclodextrins with a Dumbbell Molecule Bearing Two Ferrocene Moieties at the Ends
Yamamoto, T.; Oi, W.; Hashidzume, A.; Harada, A.
Bull. Chem. Soc. Jpn. 2011, 84 (9), 918-925.
Selected Papers
Supramolecular Spherical b-Cyclodextrin32-Dendrimer: Inclusion Property and Supramolecular Structure
Takashima, Y.; Oka, T.; Yoshida, S.; Yamaguchi, H.; Harada, A.
Chem. Lett. 2011, 40, 742-743. [Editor's Choice]
pH Responsive [2] Rotaxanes with 6-Modified-a-Cyclodextrins
Omori, K.; Takashima, Y.; Yamaguchi, H.; Harada, A.
Chem. Lett. 2011, 40, 758-759.
Macromolecular Recognition Using α-Cyclodextrin Rotaxane Complex with Polyethylene Glycol
Harada, A.
Kobunshi 2011, 60, 15-16.
Photocontrollable Supramolecular Materials formed by cyclodextrins and azobenzene polymers
Tamesue,S.; Takashima, Y.; Yamaguchi, H.;Shinkai, S.; Harada, A.
Koubunshi Ronbunshu 2011, 68, 669.
(Doi:10.1295/ koron.68.669)
Sensor Development Using Existing Scaffolds
Yamaguchi, H.; Ogoshi, T.; Harada, A.
In "Chemosensors: Principles, Strategies, and Applications” Ed. by Wang, B. and Anslyn, E. V. Wiley, 2011.
Antibody Dendrimers and DNA Catenanes
Yamaguchi, H.; Harada, A.
In “Supramolecular Polymer Chemistry” Ed. by Harada, A.Wiley-VCH, 2011, in press.
A Chemically-Controlled Supramolecular Protein Polymer Formed by a Myoglobin-Based Self-Assembly System
Oohora, K.; Onoda, A.; Kitagishi, H.; Yamaguchi, H.; Harada, A.; Hayashi, T.
Chem. Sci. 2011, 2,1033-1038.