Highly Thermally Stable, Reversible, and Flexible Main Chain Type Benzoxazine Hybrid Incorporating Both Polydimethylsiloxane and Double‐Decker Shaped Polyhedral Silsesquioxane Units through Diels–Alder Reaction

Chen, Cheng-Yu; Chen, Wei-Cheng; Mohamed, Mohamed Gamal; Chen, Zih-Yu; Kuo, Shiao‐Wei

doi:10.1002/marc.202200910

Cited by 17 publications

(8 citation statements)

References 59 publications

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“…DA and rDA reactions in a system composed of polysiloxanes (Mn~13,000 g mol −1 ) grafted with maleimidocarboxyphenyl units (3–4 mol%) and POSS with eight furan moieties (maleimide:furan mole ratio of 1:3.5) occurred at 50 °C and 110 °C, respectively [ 25 ]. Bifunctional furan end-grafted PDMS was crosslinked with bismaleimide-functionalized double-decker silsesquioxane (DDSQ-BMI) ( Scheme 3 ) [ 26 ]. Thermally stable product ( T d10 = 441 °C; char yield = 60.1 wt.%) of low surface free energy (18.18 mJ m −2 ) was flexible enough ( T g = 177 °C) to undergo a DA/rDA reaction.…”

Section: General Characteristics Of Self-healing Mechanisms In Silico...mentioning

confidence: 99%

Synergistic Self-Healing Enhancement in Multifunctional Silicone Elastomers and Their Application in Smart Materials

Kowalewska,

Majewska-Smolarek

2024

Polymers

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Organosilicon polymers (silicones) are of enduring interest both as an established branch of polymer chemistry and as a segment of commercial products. Their unique properties were exploited in a wide range of everyday applications. However, current silicone trends in chemistry and materials engineering are focused on new smart applications, including stretchable electronics, wearable stress sensors, protective coatings, and soft robotics. Such applications require a fresh approach to methods for increasing the durability and mechanical strength of polysiloxanes, including crosslinked systems. The introduction of self-healing options to silicones has been recognized as a promising alternative in this field, but only carefully designed multifunctional systems operating with several different self-healing mechanisms can truly address the demands placed on such valuable materials. In this review, we summarized the progress of research efforts dedicated to the synthesis and applications of self-healing hybrid materials through multi-component systems that enable the design of functional silicon-based polymers for smart applications.

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Section: General Characteristics Of Self-healing Mechanisms In Silico...mentioning

confidence: 99%

Synergistic Self-Healing Enhancement in Multifunctional Silicone Elastomers and Their Application in Smart Materials

Kowalewska,

Majewska-Smolarek

2024

Polymers

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“…30–33 In pursuit of improved thermal properties for BMI derivatives, in our previous study, we proposed the incorporation of inorganic nanoparticles such as double-decker-shaped polyhedral silsesquioxane ( DDSQ ). 34 In polymer/ DDSQ or polymer/POSS hybrids, 35–46 there is high thermal stability because of their intrinsic inorganic cage structure, which can increase the thermal decomposition temperatures of BMI resins using physical dispersion or chemical covalent bonding.…”

Section: Introductionmentioning

confidence: 99%

Enhanced thermal and porous properties of double-decker-shaped polyhedral silsesquioxane-bismaleimide (DDSQ-BMI) nanocomposites for high-performance CO₂ storage and supercapacitors

Chen,

Kuo

2024

Polym. Chem.

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“…A developed porous material, based on polyhedral oligomeric silsesquioxanes (POSS), demonstrates variable properties and a highly symmetrical three-dimensional structure with specified nanometer-sized dimensions. − Its potential lies in the combination of versatile and flexible organic shells surrounding a rigid silica core. It is a promising candidate for synthesizing hybrid nanocomposites that exhibit properties midway between organics and ceramics, − The increasing demand for POSS in scientific research and industry is attributed to their customizable physical and chemical properties. − Another crucial aspect of functionalized silsesquioxanes is their physicochemical properties arising from their hybrid (organic–inorganic) nature. − The Si–O–Si framework, corresponding to silica with a well-defined structure, could serve as an intriguing material for modifying polymers and acting as fillers (nanofillers). − The precise control of molecule sizes and the variation in functional groups within the POSS core allow for their accurate deposition and embedding in a polymer matrix. − This, in turn, results in the creation of composite materials with unique characteristics. These organic–inorganic hybrid materials showcase a diverse range of fascinating physicochemical properties, including alterations in solubility, enhanced dielectric characteristics, improved resistance to oxidation and fire, elevated decomposition and glass transition temperatures, reduced heat transfer rates, and an impact on the hardness of the resulting materials. − …”

Section: Introductionmentioning

confidence: 99%

Hybrid Porous Polymers Combination of Octavinylsilsesquioxane/Pyrene with Benzothiadiazole Units for Robust Energy Storage and Efficient Photocatalytic Hydrogen Production from Water

Mohamed,

Hammad Elsayed,

Hassan

et al. 2024

ACS Appl. Polym. Mater.

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We investigated the performance that is improved in various applications through molecular structural alterations. Specifically, we emphasized the importance of controlling the branching densities of organic moieties as a useful tactic for varying the surface area and porosity of hybrid porous organic/inorganic polymers (HPPs), which include octavinylsilsesquioxane (OVS) units. This study shows that adjusting the branching densities could greatly enhance energy storage and hydrogen production. The two-branched chemical structure (4,7-dibromo-2,1,3-benzothiadiazole, BT-Br 2 ) and the four-branched organic compound (1,1,2,2-tetrakis(4-bromophenyl)ethylene, TPE-Br 4 ) are individually reacted with OVS and 1,3,6,8-tetrabromopyrene (Py-Br 4 ) twice to prepare the HPPs. These materials with high or low crosslinking density, as well as small and large surface areas, are synthesized by this dual reaction, which also produces HPPs with different cross-linking densities. Based on Brunauer−Emmett− Teller calculations, the OVS-Py-BT HPP has more than 4.5 times larger surface area than the OVS-Py-TPE HPP material. Remarkably, OVS-Py-BT HPP exhibited exceptional results for supercapacitor applications, with specific capacitance values of 248 and 54 F/g for OVS-Py-BT and OVS-Py-TPE HPPs, respectively, as determined by galvanostatic charge−discharge. OVS-Py-BT HPP significantly outperformed OVS-Py-TPE HPP in photocatalytic hydrogen evolution. This is evident from their respective hydrogen evolution rates: 1348 μmol g −1 h −1 for OVS-Py-BT HPP and a much lower 11.3 μmol g −1 h −1 for OVS-Py-TPE HPP.

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Highly Thermally Stable, Reversible, and Flexible Main Chain Type Benzoxazine Hybrid Incorporating Both Polydimethylsiloxane and Double‐Decker Shaped Polyhedral Silsesquioxane Units through Diels–Alder Reaction

Cited by 17 publications

References 59 publications

Synergistic Self-Healing Enhancement in Multifunctional Silicone Elastomers and Their Application in Smart Materials

Synergistic Self-Healing Enhancement in Multifunctional Silicone Elastomers and Their Application in Smart Materials

Enhanced thermal and porous properties of double-decker-shaped polyhedral silsesquioxane-bismaleimide (DDSQ-BMI) nanocomposites for high-performance CO₂ storage and supercapacitors

Hybrid Porous Polymers Combination of Octavinylsilsesquioxane/Pyrene with Benzothiadiazole Units for Robust Energy Storage and Efficient Photocatalytic Hydrogen Production from Water

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Highly Thermally Stable, Reversible, and Flexible Main Chain Type Benzoxazine Hybrid Incorporating Both Polydimethylsiloxane and Double‐Decker Shaped Polyhedral Silsesquioxane Units through Diels–Alder Reaction

Cited by 17 publications

References 59 publications

Synergistic Self-Healing Enhancement in Multifunctional Silicone Elastomers and Their Application in Smart Materials

Synergistic Self-Healing Enhancement in Multifunctional Silicone Elastomers and Their Application in Smart Materials

Enhanced thermal and porous properties of double-decker-shaped polyhedral silsesquioxane-bismaleimide (DDSQ-BMI) nanocomposites for high-performance CO2 storage and supercapacitors

Hybrid Porous Polymers Combination of Octavinylsilsesquioxane/Pyrene with Benzothiadiazole Units for Robust Energy Storage and Efficient Photocatalytic Hydrogen Production from Water

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Enhanced thermal and porous properties of double-decker-shaped polyhedral silsesquioxane-bismaleimide (DDSQ-BMI) nanocomposites for high-performance CO₂ storage and supercapacitors