<i>In Operando</i> FTIR Study on the Effect of Sulfur Chain Length in Sulfur Copolymer-Based Li–S Batteries

Rafie, Ayda; Pereira, Rhyz; Shamsabadi, Ahmad Arabi; Kalra, Vibha

doi:10.1021/acs.jpcc.1c09124

Cited by 25 publications

(15 citation statements)

References 56 publications

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“…9 The electrochemical behaviour of S-DIB cells was investigated using operando Fourier transform-infrared spectroscopy with attenuated total reflection (FTIR-ATR). 10 This study provided further evidence for C-S bonds remaining intact during battery operation, as well as a different discharge mechanism occurring in cathodes composed of high and low S-content copolymers, with little to no formation of higher order Li-polysulfides in the latter. The significantly higher cycle stability found for the low S-content polymer was attributed to this, and it was proposed that the shuttle effect may be successfully mitigated by keeping the S-strand length below 4.…”

Section: Introductionmentioning

confidence: 57%

NEXAFS spectra of model sulfide chains: implications for sulfur networks obtained from inverse vulcanization

de Kock,

Skudler,

Matsidik

et al. 2023

Phys. Chem. Chem. Phys.

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Section: Introductionmentioning

confidence: 57%

NEXAFS spectra of model sulfide chains: implications for sulfur networks obtained from inverse vulcanization

de Kock,

Skudler,

Matsidik

et al. 2023

Phys. Chem. Chem. Phys.

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“…As seen in the Fourier transform infrared spectra shown in Fig. 3c, a sharp peak at 1071 cm − 1 on behalf of the ν(S = O) band indicated the presence of sulfoxide (-S = O-) groups in the lms, 39 whereas only peaks related to the sulfur atom were found at 1255 cm − 1 and 694 cm − 1 , corresponding to Bi-S 40 or C-S 41 , respectively. That is, there were both sulfoxide (-S = O-) as well as a small amount of sulphone (-SO 2 -) bound to bismuth (III) ions in the original Bi-LCE lm.…”

Section: Resultsmentioning

confidence: 87%

Switchable Photothermal Conversion Efficiency for Reprogrammable Actuation

Liu

Luo

et al. 2023

Preprint

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Reprogrammable soft matter brings flexibility to soft robots so that they can display various motions, which is flourishing in soft robotics. However, the reprogramming of photoresponsive materials used in soft robots is time-consuming using existing methods. In this study, we promote a novel strategy for rapid reprogramming via switchable photothermal conversion efficiency (PCE). The liquid crystalline elastomers doped with semiconductor bismuth compounds (Bi-LCE) used in this work exhibited large photothermal actuation with over 35% shrinkage in 5 seconds at high PCE state, which demonstrated little deformation at low PCE state. Furthermore, the material was capable of being reprogrammed for up to 10 times, with only 20 minutes required for one PCE reversible switch. Based on this switchable PCE effect, the same Bi-LCE film displayed various shape changes through different programmable pattern. Additionally, a reprogrammable hollow tube made of PCE reprogrammable materials could tune the diameter, cross section configuration, and surface morphology, which was crucial for microfluidics field. Reprogrammable materials provide endless possibilities for reusability and sustainability in robotics.

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“…In agreement with our theoretical prediction, the experimental measurements show that as the mass fraction of DIB increases (or similarly, as the average S chain length decreases), the Raman activity at around 473 cm −1 becomes less intensive. In a recent in operando FTIR study during discharge,36 it has also been observed that the characteristic S-S stretching vibration is absent in S/DIB copolymers containing short S n chains (n ≤ 4) throughout discharge. However, this peak evolves as a function of cell voltage in S/DIB copolymers with longer chains, clearly indicating the formation of different Li-polysulfides.In addition, in Fig.4we observe Raman activities at ∼165-200 cm −1 assigned to the sulfur chain deformation and S-S-S bending [see Fig.2(a) and (b)], which gradually disappear with increasing wt % of DIB (shorter sulfur chains).…”

mentioning

confidence: 89%

“…Therefore, a stable cycling for 1500 cycles has been reported. 36 This clearly emphasizes the need for a synthesis strategy which facilitates the formation of S/DIB copolymers with short sulfur chains in a controllable way. The present study shows that Raman spectroscopy is a powerful tool to investigate structural properties of S/DIB copolymers and provides a way to probe the…”

Section: The Comparison Of Quantum-chemical Calculations Of Raman Sig...mentioning

confidence: 99%

Characterization of sulfur/carbon copolymer cathodes for Li-S batteries: a combined experimental and ab initio Raman spectroscopy study

Kiani

Steimecke

Alqaisi

et al. 2023

Preprint

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Optimization of lithium-sulfur batteries highly depends on exploring and characterizing new cathode materials. Sulfur/carbon copolymers have recently attracted much attention as an alternative class of cathodes to replace crystalline sulfur. In particular, poly(sulfur-n-1,3-diisopropenylbenzene) (S/DIB) has been under considerable experimental and theoretical investigations, promising a good performance in mitigating the so-called shuttle effect. Here, combining ab initio Raman spectroscopy simulations with experimental measurements, we show that S/DIB copolymers containing short and long sulfur chains are distinguishable based on their Raman activity in 400-500 1/cm. This frequency range corresponds to S--S stretching vibrations and is only observed in the Raman spectra of those copolymers with longer sulfur chains. The results reported in this study have direct applications in identification and characterization of general sulfur/carbon copolymers with different sulfur contents.

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In Operando FTIR Study on the Effect of Sulfur Chain Length in Sulfur Copolymer-Based Li–S Batteries

Cited by 25 publications

References 56 publications

NEXAFS spectra of model sulfide chains: implications for sulfur networks obtained from inverse vulcanization

NEXAFS spectra of model sulfide chains: implications for sulfur networks obtained from inverse vulcanization

Switchable Photothermal Conversion Efficiency for Reprogrammable Actuation

Characterization of sulfur/carbon copolymer cathodes for Li-S batteries: a combined experimental and ab initio Raman spectroscopy study

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