Nattakan Soykeabkaew
Nattakan Soykeabkaew
School of Science, Mae Fah Luang University
Verified email at - Homepage
Cited by
Cited by
Preparation and characterization of jute-and flax-reinforced starch-based composite foams
N Soykeabkaew, P Supaphol, R Rujiravanit
Carbohydrate Polymers 58 (1), 53-63, 2004
The effect of fibre volume fraction and mercerization on the properties of all-cellulose composites
C Qin, N Soykeabkaew, N Xiuyuan, T Peijs
Carbohydrate polymers 71 (3), 458-467, 2008
Investigation into the structural, morphological, mechanical and thermal behaviour of bacterial cellulose after a two-step purification process
S Gea, CT Reynolds, N Roohpour, B Wirjosentono, N Soykeabkaew, ...
Bioresource technology 102 (19), 9105-9110, 2011
All-cellulose composites by surface selective dissolution of aligned ligno-cellulosic fibres
N Soykeabkaew, N Arimoto, T Nishino, T Peijs
Composites Science and Technology 68 (10-11), 2201-2207, 2008
All-cellulose nanocomposites by surface selective dissolution of bacterial cellulose
N Soykeabkaew, C Sian, S Gea, T Nishino, T Peijs
Cellulose 16 (3), 435-444, 2009
A review: Starch-based composite foams
N Soykeabkaew, C Thanomsilp, O Suwantong
Composites Part A: Applied Science and Manufacturing 78, 246-263, 2015
Reinforcing potential of micro-and nano-sized fibers in the starch-based biocomposites
N Soykeabkaew, N Laosat, A Ngaokla, N Yodsuwan, T Tunkasiri
Composites Science and Technology 72 (7), 845-852, 2012
All-cellulose composites of regenerated cellulose fibres by surface selective dissolution
N Soykeabkaew, T Nishino, T Peijs
Composites Part A: Applied Science and Manufacturing 40 (4), 321-328, 2009
All-aramid composites by partial fiber dissolution
JM Zhang, Z Mousavi, N Soykeabkaew, P Smith, T Nishino, T Peijs
ACS applied materials & interfaces 2 (3), 919-926, 2010
Self-reinforced poly (lactic acid) nanocomposites of high toughness
K Somord, O Suwantong, N Tawichai, T Peijs, N Soykeabkaew
Polymer 103, 347-352, 2016
Transcrystallisation in PP/flax composites and its effect on interfacial and mechanical properties
S Garkhail, B Wieland, J George, N Soykeabkaew, T Peijs
Journal of materials science 44 (2), 510-519, 2009
Self-reinforced poly (lactic acid) nanocomposites with integrated bacterial cellulose and its surface modification
K Somord, K Somord, O Suwantong, C Thanomsilp, T Peijs, ...
Nanocomposites 4 (3), 102-111, 2018
Biodegradable Composites Based on Poly (-Caprolactone) and Bacterial Cellulose as a Reinforcing Agent
S Gea, CT Reynolds, N Roohpur, N Soykeabkaew, B Wirjosentono, ...
Journal of Biobased Materials and Bioenergy 4 (4), 384-390, 2010
Nanocellulose-reinforced “green” composite materials
N Soykeabkaew, N Tawichai, C Thanomsilp, O Suwantong
Walailak Journal of Science and Technology (WJST) 14 (5), 353-368, 2017
Effect of carbon and nitrogen sources on bacterial cellulose production for bionanocomposite materials
N Yodsuwan, A Owatworakit, A Ngaokla, N Tawichai, N Soykeabkaew
1st Mae Fah Luang University International Conference, At Mae Fah Luang …, 2012
All-cellulose composites by partial dissolution of cotton fibres
R Arévalo, OT Picot, RM Wilson, N Soykeabkaew, T Peijs
Journal of Biobased Materials and Bioenergy 4 (2), 129-138, 2010
Review of the recent developments in all-cellulose nanocomposites: Properties and applications
A Boonmahitthisud, N Soykeabkaew, L Ongthip, S Tanpichai
Carbohydrate Polymers, 119192, 2022
An improvement of silk-based scaffold properties using collagen type I for skin tissue engineering applications
S Boonrungsiman, N Thongtham, O Suwantong, T Wutikhun, ...
Polymer Bulletin 75 (2), 685-700, 2018
Improving agricultural waste pulps via self-blending concept with potential use in moulded pulp packaging
P Rattanawongkun, N Kerddonfag, N Tawichai, U Intatha, ...
Journal of Environmental Chemical Engineering 8 (5), 104320, 2020
All-cellulose composites
N Soykeabkaew
University of London, 2007
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