Effects of Hydride Transfer Ring-Opening Reaction on B(C6F5)3 Catalyzed Polymerization of D4H Cyclosiloxane and Dialkoxysilanes toward Thermally Stable Silsesquioxane–Siloxane Hybrid Materials

Zhu, Huie; Hiruta, Shogo; Demirci, Ali; Kim, Soyeon; Hoshino, Norihisa; Akutagawa, Tomoyuki; Mitsuishi, Masaya

doi:10.1021/acs.macromol.2c00948

Cited by 9 publications

(21 citation statements)

References 56 publications

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“…Results show that the onset decomposition temperature of HMCS-UPy became 24 °C higher after the attachment of cyclosiloxane. With the hybrid cyclosiloxane unit, the multiple-hydrogen-bonded molecules were demonstrated to have improved thermal properties, probably caused by the unique thermal stability of cyclosiloxane. , …”

Section: Resultsmentioning

confidence: 99%

“…With the hybrid cyclosiloxane unit, the multiplehydrogen-bonded molecules were demonstrated to have improved thermal properties, probably caused by the unique thermal stability of cyclosiloxane. 43,44 The DSC curves for four heating−cooling cycles of UPy-3 and HMCS-UPy are shown in Figure 2b,c. In the first scanning curves of UPy-3 (black, Figure 2b) and HMCS-UPy (black, Figure 2c), one peak (46 °C for UPy-3 and 39 °C for HMCS-UPy) and one sharp endothermic peak (153.8 °C for UPy-3 and 138.1 °C for HMCS-UPy) can be found, corresponding to the dissociation temperature of urea groups 45 and melting of UPy dimers.…”

Section: ■ Introductionmentioning

confidence: 99%

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Nanosheets Based on Hard 2-Ureido-4[1H]-pyrimidone Units and Soft Cyclosiloxane Units as Membrane Materials

Chen

Zhu

Mitsuishi

2023

ACS Appl. Nano Mater.

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Two-dimensional (2D) nanomaterials have attracted great attention in recent years because of their unique physical, optical, chemical, and electronic properties, and their great potential for use in various applications such as gas and chemical sensors based on nanomaterials. Particularly, two-dimensional materials provide excellent sensitivity because of nanoscale-specific characteristics such as a large surface-to-volume ratio, good room-temperature mobility, and chemical stability. Their hydrophobic and hydrophilic components combined with supramolecular assembly properties are anticipated to prepare organic and organic–inorganic hybrid 2D nanomaterials with a large area and high quality. As described herein, we designed and synthesized a hybrid small molecule, designated as HMCS-UPy, that combines two components through an alkyl linker: (1) 2-ureido-4[1H]-pyrimidone (UPy) units, which are dynamic and hard segments with multiple hydrogen bonding sites; and (2) soft cyclosiloxane (HMCS) units, which are hydrophobic and incompatible with other chemical groups. The HMCS-UPy molecules underwent self-assembly to form a large-area nanosheet with a lamellar structure and 2.9 nm layer thickness through a simple solution process driven by a soft–hard microphase separation and multiple hydrogen bonding interactions. Findings also indicate the nanosheet assembly formation as based on 2D sheets consisting of UPy dimer planes and indicate microphase separation of soft HMCS and hard UPy regions.

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Section: Resultsmentioning

confidence: 99%

Section: ■ Introductionmentioning

confidence: 99%

Nanosheets Based on Hard 2-Ureido-4[1H]-pyrimidone Units and Soft Cyclosiloxane Units as Membrane Materials

Chen

Zhu

Mitsuishi

2023

ACS Appl. Nano Mater.

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“…Measurements and Analysis. 1 H nuclear magnetic resonance ( 1 H NMR), 11 B nuclear magnetic resonance ( 11 B NMR), and 13 C nuclear magnetic resonance ( 13 C NMR) spectral analyses were performed on a Bruker AVANCE III Ultra-Shield (Bruker, Fallanden, Switzerland) spectrometer. Tetramethylsilane (TMS) was used as the internal reference material in CDCl 3 solutions at 25 °C.…”

Section: ■ Introductionmentioning

confidence: 99%

“…A colorless transparent liquid was obtained as the product (90% yield) after column chromatography on a silica gel column using hexane. (4,5,7,8,9,10,11,12). This known compound was fully characterized previously.…”

Section: ■ Introductionmentioning

confidence: 99%

“…Recently, a cyclosiloxane hybrid polymer (CHP) was fabricated from tetra-functional monomers. CHP has gained much attention due to its molecularly smooth highly cross-linked hybrid network, thermal stability, and hard but elastic nature. − Compared to linear polysiloxane, CHP has better thermal stability due to reduction in “back-biting” of linear siloxane chains . Previous studies have shown the nano-size structure of CHP to be layered but isotropic in bulk due to different orientations of nano-sized layers .…”

Section: Introductionmentioning

confidence: 99%

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Anchoring Effect of Hyperbranched Carborane in Highly Cross-Linked Cyclosiloxane Networks toward High-Performance Polymers

Chen

et al. 2023

Macromolecules

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High-performance polymers (HPPs) have good thermal and mechanical properties even under harsh environments and are widely used in aerospace, microelectronics, automobile, and other fields. Traditional employed highly cross-linked HPPs tend to fail in their performance at high temperatures due to the structural defects, which remains a challenge in both scientific investigation and engineering applications for decades. Herein, we employed a cyclosiloxane hybrid polymer (CHP) to investigate a new design strategy to compensate for the structural defects in the highly cross-linked network, which avoids catastrophic failure at high temperatures. Hyperbranched o-carborane was synthesized and used to compensate for structural defects of CHP. The antioxidant ability and toughness of CHP were improved, and it had better mechanical properties over a wide temperature range. Moreover, the anchoring effect of hyperbranched o-carborane in the cyclosiloxane network was systematically investigated. The hyperbranched o-carborane cage could stabilize the CHP network under dynamic thermal stress through anchoring the dangling bonds, and the highly cross-linked network suppressed the disintegration of the o-carborane cage by anchoring boron atoms of the ocarborane cage. Furthermore, the structural evolution mechanism of the o-carborane cage with increasing temperature was proposed. This fundamental research provided new insights into the design of HPPs for harsh environments.

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Recent Advance in Low‐Dielectric‐Constant Organosilicon Polymers

2023

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Comprehensive SummaryLow dielectric (low‐k) organosilicon polymers have received extensive interests from industry and academia due to good electrical insulation, high temperature resistance, flame retardancy and hydrophobicity. These attractive properties enable them to be utilized as low‐k materials in fabrication of electronic devices in high‐frequency communication technology. This review summarizes recent progress in developing low‐k organosilicon polymers, including the synthetic methods and properties of different organosilicon polymers classified according to the chemical structures. It may provide some inspiration to design new low‐k organosilicon polymers for application in the future.

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Effects of Hydride Transfer Ring-Opening Reaction on B(C₆F₅)₃ Catalyzed Polymerization of D₄^H Cyclosiloxane and Dialkoxysilanes toward Thermally Stable Silsesquioxane–Siloxane Hybrid Materials

Cited by 9 publications

References 56 publications

Nanosheets Based on Hard 2-Ureido-4[1H]-pyrimidone Units and Soft Cyclosiloxane Units as Membrane Materials

Nanosheets Based on Hard 2-Ureido-4[1H]-pyrimidone Units and Soft Cyclosiloxane Units as Membrane Materials

Anchoring Effect of Hyperbranched Carborane in Highly Cross-Linked Cyclosiloxane Networks toward High-Performance Polymers

Recent Advance in Low‐Dielectric‐Constant Organosilicon Polymers

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