2024
Molecular Design of a Discrete Oligosaccharide-block-Oligodimethylsiloxane System: Toward Microphase Separation with 1 nm Domain Size and Angstrom-Scale Size Control
Nishimura T, Lee C, Nunokawa R, Cheng Y, Li F, Yamamoto T, Tajima K, Borsali R, Chen H, Satoh T, Isono T. Molecular Design of a Discrete Oligosaccharide-block-Oligodimethylsiloxane System: Toward Microphase Separation with 1 nm Domain Size and Angstrom-Scale Size Control. Macromolecules 2024, 58: 266-278. DOI: 10.1021/acs.macromol.4c02262.Peer-Reviewed Original ResearchBlock copolymersDegree of polymerizationMicrophase-separated lamellar structureThiol-ene reactionSmall-angle X-ray scatteringX-ray scatteringMolecular weight distributionDimethylsiloxane unitsSynthetic accessibilityMolecular designLinker structureAngstrom-scaleMicrophase separationStructural stabilityPolymerizationLamellar structurePolymerization degreeOligodimethylsiloxaneWeight distributionDomain sizeSize controlMonomeric glucoseMicrophaseCopolymersStructure
1996
Electrochemistry of cast films of ferredoxin and lipid bilayers on electrodes
Nassar A, Rusling J, Tominaga M, Yanagimoto J, Nakashima N. Electrochemistry of cast films of ferredoxin and lipid bilayers on electrodes. Journal Of Electroanalytical Chemistry 1996, 416: 183-185. DOI: 10.1016/s0022-0728(96)01013-3.Peer-Reviewed Original ResearchCast filmsGraphite electrodePyrolytic graphite electrodeLipid bilayerRedox wavesFerredoxinElectrochemical communicationNative ferredoxinAir atmosphereStructural stabilitySpecular reflectance spectraStable immobilizationElectrodeQuartz substratesBiological lipidsReflectance spectraElectrochemistryLipidWell-definedOriginal structureBilayer membranesProteinAgClDimyristoylphosphatidylcholine
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