Synthesis of High Specific Surface Area Macroporous Pectin Particles by Template-Assisted Spray Drying

Nguyen, Tue Tri; Rahmatika, Annie Mufyda; Miyauchi, Masato; Cao, Kiet Le Anh; Ogi, Takashi

doi:10.1021/acs.langmuir.1c00232

Cited by 35 publications

(42 citation statements)

References 55 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The CD-MOF and LVFX/CD-MOF particles prepared via spray-drying exhibited a dented spherical morphology with diameters of several micrometers and below (Figure a,b). The spherical morphology of spray-dried particles may be attributed to small droplet size . As small droplets have a stable structure, the product particles may have similar shapes to the initial droplet.…”

Section: Resultsmentioning

confidence: 99%

See 1 more Smart Citation

Crystalline Rearranged CD-MOF Particles Obtained via Spray-Drying Synthesis Applied to Inhalable Formulations with High Drug Loading

Tse

Kadota

Nakajima

et al. 2021

Crystal Growth & Design

View full text Add to dashboard Cite

γ-Cyclodextrin-based metal−organic framework (CD-MOF) particles were prepared using poor solvent crystallization and spray-drying methods in order to advance conventional engineering processes. Particles were characterized in terms of their morphology, size, surface area, surface elemental composition, crystallinity, and drug content. CD-MOFs prepared by the poor solvent crystallization method exhibit similar morphologies and crystallinities to those fabricated by vapor diffusion. In contrast to the development of the (γ-CD) 6 cubic array, the rapid evaporation of the solvent during spray-drying promoted the formation of hollow CD-MOF particles with low crystallinity. The CD-MOF structure in spray-dried particles reformed into the well-known (γ-CD) 6 cubic array following contact with ethanol. In terms of their spherical shape, low density, and geometric median particle size (D 50 ) that is lower than 5 μm, the potential application of spray-dried CD-MOF for dry powder inhaler formulation was affirmed. Thus, the spray-drying process was further enhanced using a modified procedure. Modified spray-dried particles achieved an outstanding aerosolization performance by initiating crystal growth using an ethanolic spray-drying precursor. The successful design of this crystal structure grants CD-MOF products a high potential for use in inhalable formulation carriers and likely for other applications in the future.

show abstract

Section: Resultsmentioning

confidence: 99%

“…The spherical morphology of spray-dried particles may be attributed to small droplet size. 46 As small droplets have a stable structure, the product particles may have similar shapes to the initial droplet. During the evaporation of solvent inside a droplet, the concentrated solute on the droplet surface forms a solid shell.…”

Section: ■ Results and Discussionmentioning

confidence: 99%

Crystalline Rearranged CD-MOF Particles Obtained via Spray-Drying Synthesis Applied to Inhalable Formulations with High Drug Loading

Tse

Kadota

Nakajima

et al. 2021

Crystal Growth & Design

View full text Add to dashboard Cite

show abstract

“…Because of these advantages, such methods are frequently used to produce dry powders in the food, pharmaceutical, and chemical industries. Generally, depending on the operating conditions, solid or hollow spherical particles can be produced in the spray process (Cao et al, 2021b;2021a;Nguyen et al, 2021;. Feng et al prepared pomegranate-like carbon microspheres (PCSs) by fabricating monodisperse, submicron CSs via a scalable template-free spray drying-assisted approach (Feng et al, 2019).…”

Section: Template-free Synthesis Of Carbon Spheresmentioning

confidence: 99%

Recent Advances in the Fabrication and Functionalization of Nanostructured Carbon Spheres for Energy Storage Applications

Cao

Iskandar

Tanabe

et al. 2023

KONA

Self Cite

View full text Add to dashboard Cite

The development of energy storage devices providing high energy and power densities and long-term stability will play an important role in the future utilization of sustainable energy sources. Numerous efforts have been devoted to achieving these requirements, especially the design of advanced electrode materials. For this reason, there is growing interest in the innovation of new carbon-based materials with enhanced electrochemical performance. Nanostructured carbon spheres (CSs) have attracted significant attention due to their prominent properties, such as high surface area, excellent electrical conductivity, tunable porosity, and surface functionality. This review offers a comprehensive overview into the recent advances of nanostructured CSs within the last five years, focusing on synthetic strategies for producing carbon particles with precisely controlled morphologies and interior structures, as well as the potential applications of these particles as high-performance electrode materials in rechargeable batteries and supercapacitors. The challenges and perspectives on future research directions are highlighted, focusing on the controlled synthesis and functionalization of nanostructured CSs with tunable structures and properties that are well-suited to practical applications. This review is intended to serve as a helpful resource to researchers involved in the fabrication of new CS materials and the development of methods to control their structure and morphology.

show abstract

“…Due to these favorable properties, dextran is also considered in this study. In spray drying, the competition between evaporation and solute diffusion in regulating the onset of precipitation determines the final morphology of the product, which can yield hollow, solid, and crumpled particles. − Although spray drying is conventionally used for preparing fine particles with a porous or amorphous structure due to the ease of controlling the particle size and morphology via the drying rate, , ice represents a more convenient templating agent as it can be readily removed by sublimation, thereby subjecting the excipient to less severe physicochemical stresses compared to dissolution and thermal decomposition utilized in templated spray drying approaches. − The particle size in SFD is largely determined by the droplet size distribution produced by the atomizer as very little evaporation takes place during the SFD process. In this comparatively larger final particle volume, a percolating structure is attained via the process of cryo-concentration, during which ice growth pushes the solution into filamentous and lamellar arrangements as polymers are not typically incorporated into the ice crystal structure and are therefore subject to an increase in concentration in the remaining unfrozen solution (Figure ).…”

Section: Introductionmentioning

confidence: 99%

Modulating the Pore Architecture of Ice-Templated Dextran Microparticles Using Molecular Weight and Concentration

et al. 2022

View full text Add to dashboard Cite

Spray freeze drying (SFD) is an ice templating method used to produce highly porous particles with complex pore architectures governed by ice nucleation and growth. SFD particles have been advanced as drug carrier systems, but the quantitative description of the morphology formation in the SFD process is still challenging. Here, the pore space dimensions of SFD particles prepared from aqueous dextran solutions of varying molecular weights (40–200 kDa) and concentrations (5–20%) are analyzed using scanning electron microscopy. Coexisting morphologies composed of cellular and dendritic motifs are obtained, which are attributed to variations in the ice growth mechanism determined by the SFD system and modulation of these mechanisms by given precursor solution properties leading to changes in their pore dimensions. Particles with low-aspect ratio cellular pores showing variation of around 0.5–1 μm in diameter with precursor composition but roughly constant with particle diameter are ascribed to a rapid growth regime with high nucleation site density. Image analysis suggests that the pore volume decreases with dextran solid content. Dendritic pores (≈2−20 μm in diameter) with often a central cellular region are identified with surface nucleation and growth followed by a slower growth regime, leading to the overall dendrite surface area scaling approximately linearly with the particle diameter. The dendrite lamellar spacing depends on the concentration according to an inverse power law but is not significantly influenced by molecular weight. Particles with highly elongated cellular pores without lamellar formation show intermediate pore dimensions between the above two limiting morphological types. Analysis of variance and post hoc tests indicate that dextran concentration is the most significant factor in affecting the pore dimensions. The SFD dextran particles herein described could find use in pulmonary drug delivery due to their high porosity and biocompatibility of the matrix material.

show abstract

Synthesis of High Specific Surface Area Macroporous Pectin Particles by Template-Assisted Spray Drying

Cited by 35 publications

References 55 publications

Crystalline Rearranged CD-MOF Particles Obtained via Spray-Drying Synthesis Applied to Inhalable Formulations with High Drug Loading

Crystalline Rearranged CD-MOF Particles Obtained via Spray-Drying Synthesis Applied to Inhalable Formulations with High Drug Loading

Recent Advances in the Fabrication and Functionalization of Nanostructured Carbon Spheres for Energy Storage Applications

Modulating the Pore Architecture of Ice-Templated Dextran Microparticles Using Molecular Weight and Concentration

Contact Info

Product

Resources

About