スポンサーリンク
Department of Organic and Polymeric Materials, Tokyo Institute of Technology | 論文
- Synthesis and Properties of Polysiloxanes Possessing 9,9-Diarylfluorene Structure in the Main Chain
- A Novel Synthetic Route to Poly(crown ether) through Rotaxanation-Protection Protocol
- Catalytic Asymmetric Synthesis and Optical Resolution of Planar Chiral Rotaxane
- Tributylphosphane-catalyzed Condensation of Alcohol and Carboxylic Acid with DCC Directed toward Rotaxane Synthesis
- Tributylphosphine-catalyzed Acylation of Alcohol by Active Ester Directed toward Effective End-capping of Pseudorotaxane Consisting of Ammonium Group and Crown Ether
- Polyrotaxane and Polyrotaxane Network : Supramolecular Architectures Based on the Concept of Dynamic Covalent Bond Chemistry
- Synthesis of [2]- and [3]Rotaxanes by an End-Capping Approach Utilizing Urethane Formation
- Chiral Recognition with Crown Ethers Having Planar Chiral (η^4-Diene)tricarbonyliron Moieties
- A Novel Route to (η^3-Allyl)dicarbonylnitrosyliron Complexes via Transmetallation of η^3-Allyl Palladium Complexes
- Electrophilic l,2-Addition of Oxoammonium Salts to Olefins
- Synthesis of A Main Chain-Type Polyrotaxane Consisting of Poly (crown ether) and sec-Ammonium Salt Axle and Its Application to Polyrotaxane Network
- Main Chain-type Polyrotaxane with Controlled Ratio of Rotaxanated Units
- Syntheses of [60]Fullerene and N, N-Bis(4-biphenyl)aniline-Tethered Rotaxane : Photoinduced Electron-Transfer Processes via Singlet and Triplet States of [60]Fullerene
- Synthesis of Side-Chain Polyrotaxane via Radical Polymerizations of Vinylic Pseudorotaxane Monomers Having Paraquat-type Macrocycle as a Wheel Component
- Photoreaction of Cinnamate with Nitrogen Monoxide Catalyzed by Metallosalen Complexes
- Polyslipping: A New Approach to Polyrotaxane-like Assemblies
- Chemical Modification of Amide-Based Catenanes and Rotaxanes II. Synthesis of tertiary Amine [2]Catenanes and [2] Rotaxanes via N-Methylation Followed by Borane Reduction of Secondary Amide [2] Catenanes and [2] Rotaxanes and Mobility of Their Components
- Chemical Modification of Amide-Based Catenanes and Rotaxanes I. Synthesis of secondary Amine [2]Catenanes and [2]Rotaxanes by theBorane Reduction of secondary Amide[2]Catenanes and [2]Rotaxanes and Mobility of Their Components
- Unusually Lowered Acidity of Ammonium Group Surrounded by Crown Ether in a Rotaxane System and Its Acylative Neutralization
- "Unlock-Lock" Approach to [2] and [3]Rotaxanes:Entering of a Ring through Disulfide Linkage That is Unlocked by Thiol "Key"