Structure and Mechanical Properties of Consumer-Friendly PMMA Microcapsules

Pan, Xuemiao; Mercadé‐Prieto, Ruben; York, David; Preece, Jon A.; Zhang, Zhibing

doi:10.1021/ie303451s

Cited by 52 publications

(37 citation statements)

References 82 publications

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“…It is suggested that the shell grows inward with the reaction time, which the external section of the shell remains unchanged. This may also indicate the formed shell of microcapsules was porous that allowed MMA molecules to penetrate through it from the outside and to polymerize inside . The authors of the current work studied the mechanical properties of PMMA microcapsules filled with epoxy and mercaptan via nanoindentation method.…”

Section: Mechanical Properties Of Pmma Microcapsulesmentioning

confidence: 96%

“…Micro/nanoencapsulation process of core materials using PMMA can be carried out by many techniques such as emulsion/miniemulsion polymerization, suspension polymerization, seeded polymerization, solvent evaporation from oil‐in‐water (o/w) emulsion (internal phase separation), surface‐initiated photopolymerization, and membrane emulsification . The emulsion polymerization and solvent evaporation are the most common techniques for the production of PMMA capsules, due to their simplicity in encapsulation of hydrophobic materials.…”

Section: Micro/nanoencapsulation Techniques Of Materials With Pmma Shellmentioning

confidence: 99%

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Material encapsulation in poly(methyl methacrylate) shell: A review

Ahangaran

Navarchian

Picchioni

2019

J of Applied Polymer Sci

104

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Material encapsulation is a relatively new technique for coating a micro/nanosize particle or droplet with polymeric or inorganic shell. Encapsulation technology has many applications in various fields including drug delivery, cosmetic, agriculture, thermal energy storage, textile, and self-healing polymers. Poly(methyl methacrylate) (PMMA) is widely used as shell material in encapsulation due to its high chemical stability, biocompatibility, nontoxicity, and good mechanical properties. The main approach for micro/nanoencapsulation of materials using PMMA as shell comprises emulsion-based techniques such as emulsion polymerization and solvent evaporation from oilin-water emulsion. In the present review, we first focus on the encapsulation techniques of liquid materials with PMMA shell by analyzing the effective processing parameters influencing the preparation of PMMA micro/nanocapsules. We then describe the morphology of PMMA capsules in emulsion systems according to thermodynamic relations. The techniques to investigation of mechanical properties of capsule shell and the release mechanisms of core material from PMMA capsules were also investigated.

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Section: Mechanical Properties Of Pmma Microcapsulesmentioning

confidence: 96%

Section: Micro/nanoencapsulation Techniques Of Materials With Pmma Shellmentioning

confidence: 99%

Material encapsulation in poly(methyl methacrylate) shell: A review

Ahangaran

Navarchian

Picchioni

2019

J of Applied Polymer Sci

104

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“…Despite being costly and time consuming, this additional sample preparation step is advantageous for many microcapsule formulations. However, for microcapsules with a PMMA shell, for example, embedding in an acrylic resin causes the shells to dissolve (Pan, Mercadé-Prieto, York, Preece, & Zhang, 2013). In such situations, confocal laser scanning microscopy (CLSM) can be used.…”

Section: Structural Properties Of Microcapsulesmentioning

confidence: 99%

“…It is, however, worth remembering that the resolution is lower than that of TEM; this emphasizes that CLSM should be considered if interactions with the embedding medium cause shell degradation. There are reports of the use of CLSM in various microcapsule studies, in which the shell thickness was determined by examining the intensities across the mid-points of the resulting cross-sectional profiles (Lebedeva, Kim, & Vinogradova, 2004;Pan et al, 2013;Paramita, Iida, Yoshii, & Furuta, 2010;Tavera, Kadali, Bagaria, Liu, & Wong, 2009). …”

Section: Structural Properties Of Microcapsulesmentioning

confidence: 99%

Determination of microcapsule physicochemical, structural, and mechanical properties

et al. 2016

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a b s t r a c tResearch into the fundamental properties of microcapsules and use of the results to develop a wide variety of products in industries such as printing, fast-moving consumer goods, construction, pharmaceuticals, and agrochemicals is a dynamic and ever-progressing field of study. For microcapsules to be effective in providing protection from harsh environments or delivering large payloads, it is essential to have a good understanding of their properties to enable quality control during formulation, storage, and applications. This review aims to outline the commonly used techniques for determining the physicochemical, structural, and mechanical properties of microcapsules, and highlights the interlinked nature of these three areas with respect to the end-use industrial application. This review provides information on techniques that are well supported in the literature, and also examines microcapsule analytical techniques that will become more prevalent as a result of new technological developments or extensions from other areas of study.

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“…Melaminle modifiye edilmiş üreformaldehit reçinesiyle yapılan çalışmada; karıştırma hızı ile kapsül boyutu arasında ters bir ilişki olduğu, yüksek karıştırma hızında kapsüllerin boyutlarının bir birine çok daha yakın olduğunu bulmuşlardır (Hu et al, 2009). Yapılan diğer bir çalışmada polimetilmetakrilatla elde edilmiş olan mikrokapsüllerin mekanik ve yapısal özellikleri incelenmiş ve elde ettikleri sonuçlardan birisi de karıştırma hızı ile kapsül boyutu arsındaki ters bir orantının olduğu sonucudur (Pan et al, 2013). M/F mol oranı 5/1'den 5/2.4 düştüğünde kapsül çeper kalınlığı 84 nm'den 308 nm çıktığını belirtmişlerdir (Long vd., 2009).…”

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Microencapsulation of Commercial Scents by Melamine formaldehyde Resin and Investigation of Its Stability

Enginar¹,

Cayir²

2016

AKU-J. Sci. Eng.

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Özet Bu çalışmada, yumuşatıcılarda kullanılan esanslar melamin formaldehit (MF) reçineleri kullanılarak mikrokapsüllendi. oluşturulan kapsüllerin verimi, boyutları, çeper kalınlığı ve oda sıcaklığındaki karalılıkları incelendi. Kapsül kabuğunun temel bileşeni olan Melamin/formaldehit (M/F, mol/mol) 1/5 oranında, pH=9,0'da, sıcaklık 80 ve 90 o C ve 30 ve 45 dakikada sentezlendi. Endüstriyel olarak kullanılan 4 farklı koku belirlenip bu kokular su içerisinde emülsiye (O/W, yağ/su) edici (dört madde) maddeler yardımıyla en kararlı halleri belirlenmiştir. Emülsiye karışım sentezlenen MF reçinesi ve akrilikasit akrilamid kopolimer bağlayıcısı ile belirli süre ve sıcaklıklarda karıştırılarak mikron boyutunda kapsüller elde edilmiştir. Sentezlenen MF reçinesinin karekterizasyonu IR spektroskopinde, emülsiye damlacıkların kararlıkları ve boyutları optik mikroskopla, kapsüllerin boyutları ve duvar kalınlığı elektron mikroskopuyla, termal kararlılıkları diferansiyel taramalı kalorimetre ile incelenmiştir. Elde edilen kapsüllerin verimi % 85-89, kapsül çeper kalınlığı 190-426 nm ve 20 o C deki aktif madde kaybı % 45-56 arasında olmuştur. . AbstractIn this study, some fragrances (essential oils) which used in the softening were encapsulated by melamine formaldehyde resins. Yield, the sizes and wall thicknesses of the microcapsules and their stability at room temperature were investigated. Melamine formaldehyde (MF), the main component of the capsule shell, was synthesized at a ratio of 1/5 (mol/mol), at pH= 9.0, at a temperature of 80 and 90 o C, and at 30 and 45 minutes of reaction time. The optimum stable conditions of microspheres of 4 different industrial using fragrances were determined by using emulsifying agents. Emulsion mixture, MF resins and acrylic acid acrylamide copolymer were mixed in a fixed time and temperature in order to obtain microns size microcapsules. Synthesized MF resins were characterized by FT-IR spectroscopy, microcapsule size and stability of emulsified droplets were checked by optical microscope, size and wall thickness of the capsules were determined by scanning electron microscope and thermal stability of the capsules was examined by differential scanning calorimetry. The obtained yield of the capsules is 85-89%, capsule wall size is between 190 to 426 nm and active substance loss at 20 °C in the microcapsules is between 45-56 %.

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Structure and Mechanical Properties of Consumer-Friendly PMMA Microcapsules

Cited by 52 publications

References 82 publications

Material encapsulation in poly(methyl methacrylate) shell: A review

Material encapsulation in poly(methyl methacrylate) shell: A review

Determination of microcapsule physicochemical, structural, and mechanical properties

Microencapsulation of Commercial Scents by Melamine formaldehyde Resin and Investigation of Its Stability

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