Flocculation of MXenes and Their Use as 2D Particle Surfactants for Capsule Formation

Cao, Huaixuan; Escamilla, Maria; Arole, Kailash; Holta, Dustin E.; Lutkenhaus, Jodie L.; Radović, Miladin; Green, Micah J.; Pentzer, Emily

doi:10.1021/acs.langmuir.0c03244

Cited by 25 publications

(17 citation statements)

References 61 publications

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“…Examples of surfactants are amphiphilic small molecules, polymers, and particles (including spherical particles and nanosheets). [3][4][5] Emulsions have a broad range of applications, including drug delivery, [6][7][8][9][10] cosmetics, [11][12][13] biosensors, 14,15 foodstuffs, [16][17][18] external coatings, [19][20][21] and catalysis. 22,23 Emulsions can also be coupled with chemical reactions and polymerizations like interfacial polymerization leading to the formation of capsules with a core of the discontinuous phase.…”

Section: Introductionmentioning

confidence: 99%

Capsules with polyurea shells and ionic liquid cores for CO₂ capture

Gaur

Edgehouse

Klemm

et al. 2021

Journal of Polymer Science

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Many ionic liquids (ILs) have good solubilities of CO 2 but the high viscosity of ILs makes them cumbersome and kinetically limits gas uptake. Encapsulation of ILs is an effective approach to overcoming these limitations. In capsules with a core of IL, the chemical composition of the shell impacts performance.Here, we report the preparation of capsules with a core of the IL [Bmim][PF 6 ] and polymer composite shell, then evaluate how the identity of the polymer impacts CO 2 uptake. IL-in-oil Pickering emulsions stabilized by nanosheets are used, with capsules formed by interfacial polymerization between different diamines and diisocyanates (e.g., shells are polyurea and nanosheets). The capsules contain 60-80 wt% IL and the composition was verified using Fourier transform infrared spectroscopy. Optical microscopy, scanning electron microscopy, and particle sizing data showed spherical, discrete capsules with 50-125 μm in diameter. All capsules are stable up to 250 C. Brunauer-Emmett-Teller analysis of CO 2 gas uptake data showed that different polymer compositions led to different CO 2 uptake properties, with capacity ranging from 0.065 to 0.025 moles of CO 2 /kg sorbent at 760 torr and 20 C. This work demonstrates that the polymer identity of the shell impacts gas uptake properties and supports that shell composition can tailor performance.

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Section: Introductionmentioning

confidence: 99%

Capsules with polyurea shells and ionic liquid cores for CO₂ capture

Gaur

Edgehouse

Klemm

et al. 2021

Journal of Polymer Science

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“…After a selective etching by LiF and HCl, the disappearance of the diffraction peak at around 39.0° (104) indicates that the aluminum layer was removed from bulk Ti 3 AlC 2 (red line). In addition, the pronounced peak (002) shifted from a 2 θ angle of 9.6° to a lower 2 θ angle of around 6.5°, which is typical for Ti 3 C 2 T x nanosheets [ 31 , 32 ]. The Supplementary Material includes the AFM image ( Figure S1 ) of Ti 3 C 2 nanosheets, with a thickness of ∼1.6 nm, indicating single-layer nanosheets [ 33 ].…”

Section: Resultsmentioning

confidence: 99%

Thermal Stability and Flammability Studies of MXene–Organic Hybrid Polystyrene Nanocomposites

et al. 2022

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Polystyrene (PS) is widely used in the plastics industry, but the application range of PS is limited due to its inherently high flammability. A variety of two-dimensional (2D) nanomaterials have been reported to impart excellent flame retardancy to polymeric materials. In this study, a 2D nanomaterial MXene–organic hybrid (O-Ti3C2) was applied to PS as a nanofiller. Firstly, the MXene nanosheets were prepared by acid etching, intercalation, and delamination of bulk MAX (Ti3AlC2) material. These exfoliated MXene nanosheets were then functionalized using a cationic surfactant to improve the dispersibility in DMF. Even with a small loading of functionalized O-Ti3C2 (e.g., 2 wt%), the resulting PS nanocomposite (PS/O-Ti3C2) showed good thermal stability and lower flammability evidenced by thermogravimetric analysis (TGA) and pyrolysis-combustion flow calorimetry (PCFC). The peak heat release rate (pHRR) was significantly reduced by 32% compared to the neat PS sample. In addition, we observed that the temperature at pHRR (TpHRR) shifted to a higher temperature by 22 °C. By comparing the TGA and PCFC results between the PS/MAX and different weight ratios of PS/O-Ti3C2 nanocomposites, the thermal stability and 2D thermal- and mass-transfer barrier effect of MXene–organic hybrid nanosheets were revealed to play essential roles in delaying the polymer degradation.

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“…These results are in line with our recent work using salt flocculated MXene nanosheets to stabilize oil-in-water emulsions and may indicate that different cation radius or ''hardness'' dictates the ability to use inorganic nanosheets to stabilize Pickering emulsions. 18 Notably, the difference in ionic strength of 0.005 M solutions for monovalent and divalent cations may also play a role (see Fig. S6, ESI †).…”

Section: Cons Stabilized Emulsionsmentioning

confidence: 99%

“…[7][8][9][10][11][12][13][14][15][16][17] We have also recently demonstrated that transition metal carbide (MXene) and transition metal oxide (cobalt oxide) nanosheets can stabilize oil-in-water emulsions, if first flocculated by simple inorganic salt such as NaCl. 18,19 Compared to GO, these inorganic 2D surfactants are expected to not only provide kinetic stability to the emulsion, but to also impart favorable performance properties to any composite structures formed. Pickering emulsions stabilized by 2D particles have also gained increased popularity for use as templates to access composite structures, leveraging the confinement of reagents.…”

Section: Introductionmentioning

confidence: 99%

Polymer particles armored with cobalt oxide nanosheets for the catalytic degradation of bisphenol A

et al. 2022

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Flocculation of MXenes and Their Use as 2D Particle Surfactants for Capsule Formation

Cited by 25 publications

References 61 publications

Capsules with polyurea shells and ionic liquid cores for CO₂ capture

Capsules with polyurea shells and ionic liquid cores for CO₂ capture

Thermal Stability and Flammability Studies of MXene–Organic Hybrid Polystyrene Nanocomposites

Polymer particles armored with cobalt oxide nanosheets for the catalytic degradation of bisphenol A

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Flocculation of MXenes and Their Use as 2D Particle Surfactants for Capsule Formation

Cited by 25 publications

References 61 publications

Capsules with polyurea shells and ionic liquid cores for CO2 capture

Capsules with polyurea shells and ionic liquid cores for CO2 capture

Thermal Stability and Flammability Studies of MXene–Organic Hybrid Polystyrene Nanocomposites

Polymer particles armored with cobalt oxide nanosheets for the catalytic degradation of bisphenol A

Contact Info

Product

Resources

About

Capsules with polyurea shells and ionic liquid cores for CO₂ capture

Capsules with polyurea shells and ionic liquid cores for CO₂ capture