All Issue

2020 Vol.52, Issue 6 Preview Page
Effects of Cellulose Nanofibril on Emulsion Droplet Size and Stability

셀룰로오스 나노섬유 첨가가 에멀젼의 입자크기와 안정화에 미치는 영향

Woo-Yong Song1
,
Soyoung Juhn2
,
Chun-Woong Park3
,
Sim-Hee Han4
,
Soo-Jeong Shin5
송우용 1
,
전소영 2
,
박천웅 3
,
한심희 4
,
신수정 5
1Department of Wood & Paper Science, Chungbuk National University, Cheongju
2Nature Costech Inc. Cheongju
3College of Pharmacy, Chungubk National University, Cheongju
4Department of Forest Bio-resources, National Institute of Forest Science, Suwon
5Department of Wood & Paper Science, Chungbuk National University, Cheongju
1충북대학교 농업생명환경대학 목재종이과학과, 대학원생
2네이처코스텍(주), 연구소장
3충북대학교 약학대학, 교수
4국립산림과학원 산림생명자원연구부, 산림생명공학과장
5충북대학교 농업생명환경대학 목재종이과학과, 교수
Corresponding author: E-Mail: soojshin@cbnu.ac.kr (Address: Department of Wood & Paper Science, Chungbuk National University, Cheongju, 28644, Korea)
30 December 2020. pp. 56-63
PDF XML Citation
Abstract

To deliver effective components to the skin, reduction of the droplet size is critical. In this study, the methods to decreasing emulsion droplet size were investigated using mechanical energy (high-pressure homogenization), and/or adding cellulose nanofibril in manufacturing process. The size of the emulsion droplets was measured by nanoparticle size analyzer.

Cellulose nanofibril was preatreated as carboxymethylation, and nanofibrillation by mechanical grinding and high-pressure homogenization process. Size of cellulose nanofibrils was 5.3±2.0 nm as width and 850±240 nm as length. The droplet size of the emulsion produced by the homo-mixer process (Formulation 1), 421 nm, was reduced to 138 nm with high-pressure homogenizer process, which is that of Formulation 2. Formulation 3 was prepared with Formulation 1 to cellulose nanofibril, and its droplet size was reduced to 115 nm. Formulation 4, which cellulose nanofibril was added to and proceeded with high pressure homogenizer, had quite a lower droplet size, 16 nm than others. In nanoemulsification by high-pressure homogenizer, The addition of cellulose nanofibril improved the stability of the emulsion.

Keywords
Cellulose nanofibril
emulsion size
emulsion stability
nanoemulsion
References

Literature Cited

1

El-Aasser MS, Sudol ED, Miniemulsions: overview of research and applications, JCT Research, 1(1):21-31 (2004).

2

Gutierrez JM, Gonzalez C, Maestro A, Sole I, Pey CM, Nolla J, Nano-emulsions: New applications and optimization of their preparation, Current Opinion in Colloid & Interface Science, 13:245-251 (2008).

10.1016/j.cocis.2008.01.005
3

Solans C, Izquierdo P, Nolla J, Azemar N, Garcia-Celma MJ, Nano-emulsions, Currerent Opinion in Colloid & Interface Science, 10:102-110 (2005).

10.1016/j.cocis.2005.06.004
4

Benita S, Levy MY, Sbmicron emulsions as colloidal drug carriers for intraveous administration: Comprehensive physicochemical characterization. Journal of Pharmaceutical Sciences, 82(11):1069-1079 (1993).

10.1002/jps.2600821102
5

Hasani F, Pezeshki A, Hamishehkar H, Effect of surfactant and oil type on size droplets of betacarotente-bearig nanoemulsion, International Journal of Current Microbiology and Applied Sciences, 4(9):146-155 (2015).

6

Ioelovich M, Study acidic corrosion of cellulose, Journal of Scientific Israel- Technological Advantages, 18(4):72-77 (2016).

7

Gardner DJ, Oporto GS, Mills R, Adhesion and surface Issues in cellulose and nanocellulose, Journal of Adhesion Science and Technology, 22(5-6):545-567 (2008).

10.1163/156856108X295509
8

Lopez-RuBio A, Lagaron JM, Ankerfors M, Lindstrom T, Nordqxist D, Mattozzi A, Hedenqvist MS, Enhanced film forming and film properties of amylopectin using micro-fibrillated cellulose, Carbohydrate Polymers, 68(4):718-727 (2007).

10.1016/j.carbpol.2006.08.008
9

Siro I, Plackett D, Microfibrillated cellulose and new nanocomposite materials: a review, Cellulose, 17(3):459-494 (2010).

10.1007/s10570-010-9405-y
10

Song W-Y, Shin S-J Evaluation of water holding property for applying a cosmetic moisturizer from oil palm trunk CNF. Journal of Korea TAPPI 48(2):91-98 (2016).

10.7584/ktappi.2016.48.2.091
11

Song W-Y, Shin S-J Characteristics of cellulose nanofibrils from holocellulose, soda-AQ pulp, carboxymethylated soda-AQ pulp from moso bamboo. Journal of Korea TAPPI 50(3):62-71 (2018).

10.7584/JKTAPPI.2018.06.50.3.62
12

Nechyporchuk O, Belgacem MN, Pignon F Current progress in rheology of cellulose nanofibril suspensions. Biomacromolecules 17(7):2311-2320 (2016).

10.1021/acs.biomac.6b00668
13

Song WY, Jeong SB, Juhn SY, Shin, SJ (2019), Fibrillation characteristics of cellulose nanofibrils with water retention value method, Journal of Korea TAPPI 51(1):128-133 (2019).

10.7584/JKTAPPI.2019.02.51.1.128
14

Wang Q, Wei W, Chang F, Sun J, Xie S, Zhu Q Controlling the size and film strength of individualized cellulose nanofibrils prepared by combined enzymatic pretreatment and high pressure microfluidization, BioResources 11(1):2536-2547 (2016).

10.15376/biores.11.1.2536-2547
15

Date AA, Desai N, Dixit R, Nagarsenker M, Self-nanoemulsifying drug delivery systems: formulation insights, applications and advances, Nanomedicine 5(10):1595-1616 (2010)

10.2217/nnm.10.126
16

Desai PP, Date AA, Patravale VB Overcoming poor oral bioavailability using nanoparticle formulations -opportunities and limitations. Drug Discovery Today: Technology 9(2):e87-e95 (2012).

10.1016/j.ddtec.2011.12.001
17

Schwarz JS, Weisspapir MR, Friedman DI Enhanced transdermal delivery of diazepam by submicron emulsion (SME) creams. Pharmaceutical Research 12(5):687-692 (1995).

10.1023/A:1016255408348
18

Otto A, Plessis JD, Wiechers JW Formulation effects of topical emulsions on transdermal and dermal delivery. International Journal of Cosmetic Science 31:1-19 (2009).

10.1111/j.1468-2494.2008.00467.x
19

Xu D, Aihemaiti Z, Cao Y, Teng C, Li X Physicochemical stability, microrheological properties and microstructure of lutein emulsions stabilized by multilayer membranes consisting of whey protein isolated, flaxseed gum and chitosan, Food Chemistry 202:156-164 (2016).

10.1016/j.foodchem.2016.01.052
20

Ruiz-Rodriguez PE, Meshulam D, Lesmes U Characterization of Pickering O/W emulsions stabilized by silica nanoparticles and their responsiveness to in Vitro digestion conditions, Food Biophysics 9(4):406-415 (2014).

10.1007/s11483-014-9346-3
Information
  • Publisher :Korea Technical Association of The Pulp and Paper Industry
  • Publisher(Ko) :한국펄프종이공학회
  • Journal Title :Journal of Korea TAPPI
  • Journal Title(Ko) :펄프종이기술
  • Volume : 52
  • No :6
  • Pages :56-63
  • Received Date : 2020-09-23
  • Revised Date : 2020-12-08
  • Accepted Date : 2020-12-09
  • DOI :https://doi.org/10.7584/JKTAPPI.2020.12.52.6.56
Journal Informaiton Journal of Korea TAPPI Journal of Korea TAPPI
Online Submission
  • scopus
  • NRF
  • KOFST
  • crossref crossmark
  • crossref cited-by
  • crosscheck
  • orcid
Journal Informaiton Journal Informaiton - close