Visible, Mid- and Long-Wave Infrared Transparent Sulfur-Rich Polymer with Enhanced Thermal Stability

Jang, Wontae; Choi, Keonwoo; Kang, Minjeong; Park, Soohye; Kim, Do Heung; Ahn, Junhyoung; Lim, Hyungjun; Char, Kookheon; Lim, Jeewoo; Im, Sung Gap

doi:10.1021/acs.chemmater.3c01679

Cited by 7 publications

(6 citation statements)

References 67 publications

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“…The selective and partial oxidation of the side methylthio groups successfully enhanced near-UV–visible transparency without a serious increment in free volume. Therefore, this strategy can contribute to the precise modulation of the integrated performance (thermostability, RI, Abbe number, and transparency) of HRIPs-containing sulfur-rich side chains, breaking the empirical dichotomy ,, between these parameters.…”

Section: Results and Discussionmentioning

confidence: 99%

“…The intermolecular H-bonds between thiols and the π−π interactions of PPS chains synergistically impeded the formation of long-range ordered structures, similar to the case of the hydroxy-substituted PPS. 16,17,27 In contrast to the general RI-T g dichotomy observed in various ultrahigh-RI polymer categories (e.g., high-sulfur content polymers), 24,35 this H-bonding approach can fulfill these parameters by reducing free volume.…”

Section: Synthesis and Properties Of Thiol-containing Ppsmentioning

confidence: 96%

“…Among the various SCPs, our focus has been on the poly(phenylene sulfide) (PPS) family with side chains because of its high solubility, visible transparency, and high RI ( n D ∼ 1.7–1.8) resulting from a high aromatic and sulfur content . Notably, PPS with hydrogen bonds (H-bonds) , exhibits exceptional RI (above 1.8) along with significantly higher visible transparency and Abbe numbers (ν D ∼ 20) compared with other HRIPs, including poly(thioamide)s, , sulfur-rich polymers, , and sCVD-synthesized polymers. − Furthermore, PPS derivatives can undergo further functionalization via post-polymerization modification (PPM), enabling side chain and terminal transformations to enhance optical properties. ,, In particular, sulfide groups of PPS derivatives can also be oxidized to sulfoxide or sulfone, resulting in a higher valency of sulfur atoms and enhancing UV–vis transparency through the electron distribution tuning . However, employing such a main chain S = O introduction strategy may deteriorate the high RI properties of the original PPS derivatives owing to its high bulkiness (i.e., large molecular volume).…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Diverse Side-Chain Transformation of High Refractive Index Methylthio-Substituted Poly(phenylene sulfide)s

Watanabe,

Tsunekawa,

Takayama

et al. 2024

Macromolecules

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Sulfur-containing polymers are useful in a wide range of optoelectronic applications, although their transparency and refractive indices are challenging to control precisely. Herein, we present a facile strategy for systematically modulating the optical properties of poly(2-methylthio-1,5-phenylene sulfide) (SMePPS) via post-polymerization modification. Initially, the selective side-chain oxidation of SMePPS yielded methyl sulfoxide-containing poly-(phenylene sulfide) (PPS), exhibiting higher Abbe numbers, higher transparency, and ultrahigh refractive indices (n D = 1.75−1.80). Demethylation of SMePPS also yielded thiol-substituted PPS (SHPPS) with an even higher refractive index (n D = 1.84), owing to the intermolecular hydrogen bonding and the trace cross-linking effect. Furthermore, the film formability/stability of SHPPS was enhanced through copolymerization with methoxy-substituted PPS without comprising the refractive index properties. This facile post-polymerization modification strategy can achieve desirable tuning of optical properties in various sulfur-containing polymers.

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Section: Results and Discussionmentioning

confidence: 99%

Section: Synthesis and Properties Of Thiol-containing Ppsmentioning

confidence: 96%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Diverse Side-Chain Transformation of High Refractive Index Methylthio-Substituted Poly(phenylene sulfide)s

Watanabe,

Tsunekawa,

Takayama

et al. 2024

Macromolecules

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“…High-sulfur content polymers are widely used in various applications including Li–S batteries, , heavy metal adsorption, − high refractive index ( n ) materials, − and infrared (IR) transmissive materials − thanks to the unique characteristics of the sulfur atom. In 2013, inverse vulcanization, a compelling process to prepare high sulfur content polymers using elemental sulfur and organic cross-linker, was established.…”

Section: Introductionmentioning

confidence: 99%

Structural Effect of Cyclic Olefin Cross-Linkers on Long-Wave Infrared-Transmitting Sulfur Polymers

Lee,

Jang,

Yeo

et al. 2024

Macromolecules

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The structural characteristics of the organic crosslinker greatly affect the potential infrared (IR) optics applications of sulfur polymers synthesized through the inverse vulcanization reaction. Unlike elemental sulfur, organic cross-linkers induce various absorptions in the IR region and leave organic moieties that affect the IR transmittance, even after inverse vulcanization. Most of the cyclic olefin cross-linkers [e.g., dicyclopentadiene (DCPD)] investigated so far are expected to produce side reactions and form byproducts during inverse vulcanization. The side reactions caused by differences in reactivity between the reaction sites can result in the deterioration of the optical properties of sulfur polymers. In this study, thiol groups were introduced as a cross-linker to effectively control the side reactions and byproducts that may occur in inverse vulcanization. The sulfur and thiol cross-linkers reacted rapidly and uniformly at all reaction sites to form sulfur polymers without unwanted side reactions. Optical windows prepared with the sulfur polymer exhibited enhanced IR transparency and achieved thermal imaging of the human body in the long-wave IR (LWIR) region. By design of a cross-linker for LWIR transparent sulfur polymers, these results provide a useful solution for IR optics applications.

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“…From the perspective of recyclability, SRP can also be reused with negligible deterioration of mechanical and optical properties due to its self-healing property, originating from the dynamic bond exchange of the disulfide bond . During inverse vulcanization, we can employ various types of comonomers as shown in Figure d. ,− In the case of SRPs with sulfur weight content above 70 wt %, they typically exhibit a T g below 100 °C, excluding a few reports showing some limitations of thermal processability and mass productivity due to excessive cross-linking density and time-consuming vapor deposition process, respectively (Figure e). ,− …”

Section: Introductionmentioning

confidence: 99%

Value-Addition of Wastes from Petroleum Refining Process: Sulfur-Rich Polymers for Sustainable and High-Performance Optical and Energy Applications

Cho,

Kim,

Wie

2024

Acc. Mater. Res.

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Conspectus The petrochemical industry plays a pivotal role in the manufacturing process of petrochemical products by transforming crude oil into monomers of synthetic polymers used to produce a wide range of commercial products. However, the generation of elemental sulfur, a significant byproduct of the petroleum refining process, has raised substantial environmental concerns as the volume of petroleum refining is increasing to meet rapidly growing energy consumption and demand for petrochemical products. Due to hydrodesulfurization, 7 million tons of elemental sulfur is produced as an annual surplus, which exceeds the amount used for rubber vulcanization, fertilizer production, and sulfuric acid manufacturing. If, however, we can upcycle this abundant resource for high-value applications, the mass production of high-purity elemental sulfur might provide huge economic benefits. In 2013, the first successful research study in synthesizing sulfur-rich polymers (SRPs) with a high sulfur content of up to 90 wt % was reported, employing inverse vulcanization. Unlike carbon-based polymers, SRPs demonstrate remarkable infrared (IR) transparency, which allows us to usher in a new era of polymer-based IR optics. Furthermore, SRPs also show high potential as sustainable and high-performance triboelectric materials due to the highest electron affinity of elemental sulfur excluding halogen atoms. Hence, SRPs have garnered significant interest in practical applications, such as IR thermal imaging and triboelectric energy harvesting. In this Account, we highlight our recent progress in upcycling SRPs into the aforementioned practical applications, such as IR polarizers and triboelectric nanogenerators (TENG) toward value-addition of elemental sulfur. First, we will discuss strategies to enhance thermo-mechanical properties of SRPs such as the glass transition temperature (T g), cross-linking density, and elastic modulus without significant deterioration of IR transparency. Despite these unique advantages, SRPs often suffer from low thermo-mechanical properties, limiting durability and robustness for practical applications. Although numerous research efforts have been devoted to identifying optimal comonomers during the inverse vulcanization process, addressing these issues remains a focus for ongoing investigation. Then, we will explain the strategy to achieve a high-performance IR polarizer in terms of nanoscaled manufacturing. Most studies related to SRPs in the context of IR optics focus on preparing IR windows which are typically utilized as a protective layer of thermal imaging systems. Hence, for value-addition of SRPs, it can be an effective strategy to directly prepare nanostructured SRPs for the IR polarizer. In the last section, we look beyond IR-related applications to introduce new advances for SRPs in sustainable and high-performance triboelectric energy harvesting. We focus on achieving a highly charged surface of SRP film by considering rational design based on electron affinity and hypervalency of sulfur and st...

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Visible, Mid- and Long-Wave Infrared Transparent Sulfur-Rich Polymer with Enhanced Thermal Stability

Cited by 7 publications

References 67 publications

Diverse Side-Chain Transformation of High Refractive Index Methylthio-Substituted Poly(phenylene sulfide)s

Diverse Side-Chain Transformation of High Refractive Index Methylthio-Substituted Poly(phenylene sulfide)s

Structural Effect of Cyclic Olefin Cross-Linkers on Long-Wave Infrared-Transmitting Sulfur Polymers

Value-Addition of Wastes from Petroleum Refining Process: Sulfur-Rich Polymers for Sustainable and High-Performance Optical and Energy Applications

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