Ultrafine silk powder from biocompatible surfactant-assisted milling

Mehdi Kazemimostaghim; Rangam Rajkhowa; Takuya Tsuzuki; Xungai Wang

doi:10.1016/j.powtec.2013.08.028

Ultrafine silk powder from biocompatible surfactant-assisted milling

Mehdi Kazemimostaghim, Rangam Rajkhowa, Takuya Tsuzuki, Xungai Wang (Corresponding Author)

Research output: Journal article publication › Journal article › Academic research › peer-review

19 Citations (Scopus)

Abstract

A method for producing silk nanoparticles was presented where a biocompatible surfactant, Tween 80, was used to assist milling. Initially, silk particles with a volume median particle size (d(0.5)) of ~. 7. μm were produced as a precursor, by attritor milling of silk snippets. The precursor particles were subsequently bead milled using 0.5-mm beads and Tween 80 of various concentrations. Silk particles with d(0.5) of ~. 200. nm having a narrow particle size distribution (d(0.9)-d(0.1). =. 191. nm) were produced by employing 30% Tween 80 on the weight of powder (owp). Reducing bead size to 0.05. mm did not influence the final d(0.5) significantly. Recovering silk nanoparticles from slurries was carried out using spray drying and freeze drying. Spray drying resulted in particles with d(0.5) of 2-3. μm, regardless of the primary particle size in the slurry. Freeze drying induced a much higher level of particle aggregation than spray drying.

Original language	English
Pages (from-to)	253-257
Number of pages	5
Journal	Powder Technology
Volume	249
DOIs	https://doi.org/10.1016/j.powtec.2013.08.028
Publication status	Published - Nov 2013
Externally published	Yes

Keywords

Bead milling
Particle size
Silk particle
Silk powder
Tween 80

ASJC Scopus subject areas

General Chemical Engineering

More information

10.1016/j.powtec.2013.08.028

Cite this

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title = "Ultrafine silk powder from biocompatible surfactant-assisted milling",

abstract = "A method for producing silk nanoparticles was presented where a biocompatible surfactant, Tween 80, was used to assist milling. Initially, silk particles with a volume median particle size (d(0.5)) of ~. 7. μm were produced as a precursor, by attritor milling of silk snippets. The precursor particles were subsequently bead milled using 0.5-mm beads and Tween 80 of various concentrations. Silk particles with d(0.5) of ~. 200. nm having a narrow particle size distribution (d(0.9)-d(0.1). =. 191. nm) were produced by employing 30% Tween 80 on the weight of powder (owp). Reducing bead size to 0.05. mm did not influence the final d(0.5) significantly. Recovering silk nanoparticles from slurries was carried out using spray drying and freeze drying. Spray drying resulted in particles with d(0.5) of 2-3. μm, regardless of the primary particle size in the slurry. Freeze drying induced a much higher level of particle aggregation than spray drying.",

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AU - Kazemimostaghim, Mehdi

AU - Rajkhowa, Rangam

AU - Tsuzuki, Takuya

AU - Wang, Xungai

PY - 2013/11

Y1 - 2013/11

N2 - A method for producing silk nanoparticles was presented where a biocompatible surfactant, Tween 80, was used to assist milling. Initially, silk particles with a volume median particle size (d(0.5)) of ~. 7. μm were produced as a precursor, by attritor milling of silk snippets. The precursor particles were subsequently bead milled using 0.5-mm beads and Tween 80 of various concentrations. Silk particles with d(0.5) of ~. 200. nm having a narrow particle size distribution (d(0.9)-d(0.1). =. 191. nm) were produced by employing 30% Tween 80 on the weight of powder (owp). Reducing bead size to 0.05. mm did not influence the final d(0.5) significantly. Recovering silk nanoparticles from slurries was carried out using spray drying and freeze drying. Spray drying resulted in particles with d(0.5) of 2-3. μm, regardless of the primary particle size in the slurry. Freeze drying induced a much higher level of particle aggregation than spray drying.

AB - A method for producing silk nanoparticles was presented where a biocompatible surfactant, Tween 80, was used to assist milling. Initially, silk particles with a volume median particle size (d(0.5)) of ~. 7. μm were produced as a precursor, by attritor milling of silk snippets. The precursor particles were subsequently bead milled using 0.5-mm beads and Tween 80 of various concentrations. Silk particles with d(0.5) of ~. 200. nm having a narrow particle size distribution (d(0.9)-d(0.1). =. 191. nm) were produced by employing 30% Tween 80 on the weight of powder (owp). Reducing bead size to 0.05. mm did not influence the final d(0.5) significantly. Recovering silk nanoparticles from slurries was carried out using spray drying and freeze drying. Spray drying resulted in particles with d(0.5) of 2-3. μm, regardless of the primary particle size in the slurry. Freeze drying induced a much higher level of particle aggregation than spray drying.

KW - Bead milling

KW - Particle size

KW - Silk particle

KW - Silk powder

KW - Tween 80

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DO - 10.1016/j.powtec.2013.08.028

M3 - Journal article

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SN - 0032-5910

VL - 249

SP - 253

EP - 257

JO - Powder Technology

JF - Powder Technology

ER -

Ultrafine silk powder from biocompatible surfactant-assisted milling

Abstract

Keywords

ASJC Scopus subject areas

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