Displaying all 3 publications

Abstract:
Sort:
  1. Foo ML, Ooi CW, Tan KW, Chew IML
    Chemosphere, 2022 Jan;287(Pt 2):132108.
    PMID: 34509022 DOI: 10.1016/j.chemosphere.2021.132108
    The groundbreaking innovation and industrialization are ushering in a new era where technology development is integrated with the sustainability of materials. Over the decade, nanocrystalline cellulose (NCC) obtained from lignocellulosic biomass had created a great value in various aspects. The abundantly available empty fruit bunch (EFB) in the palm oil industry has motivated us to utilize it as a sustainable alternative for the isolation of NCC, which is a worthwhile opportunity to the waste management of EFB. Taking advantage of the shape anisotropy and amphiphilic character, NCC has been demonstrated as a natural stabilizer for oil-in-water emulsion. In this work, preparation of highly stable Pickering nanoemulsion using black cumin seed oil and NCC was attempted. Black cumin seed oil is a class of plant oil with various nutritional and pharmaceutical benefits. However, its poor solubility could substantially lower the therapeutic effect, and thus, requires a delivery system to overcome this limitation. The role of NCC in the formation of stable Pickering nanoemulsion was investigated. The emulsification process was found crucial to the resulting droplet size, whereas NCC contributed critically to its stabilization. The droplet size obtained from ultrasonication and microfluidization was approximately 400 nm, as examined using transmission electron microscopy. The droplet (oil-to-water = 2:8) has long-term stability against creaming and coalescence for more than six months. The nanoemulsion stabilized by NCC could allow a better absorption by the human body, thereby maximizing the potential of black cumin seed oil in the personal care and food industries.
  2. Hoi SM, Ooi EH, Chew IML, Foo JJ
    Sci Rep, 2022 Jan 07;12(1):76.
    PMID: 34996902 DOI: 10.1038/s41598-021-02872-1
    A 3D stationary particle tracking velocimetry (SPTV) with a unique recursive corrective algorithm has been successfully established to detect the instantaneous regional fluid flow characteristics. The veracity of SPTV is corroborated by conducting actual displacement measurement validation, which gives a maximum percentage deviation of about 0.8%. This supports the accuracy of the current SPTV system in 3D position detection. More importantly, the SPTV detected velocity fluctuations are highly repeatable. In this study, SPTV is proven to be able to express the nature of chaotic fractal grid-induced regional turbulence, namely: the high turbulence intensity attributed to multilength-scale wake interactions, the Kolmogorov's -5/3 law decay, vortex shedding, and the Gaussian flow undulations immediately leeward of the grid followed by non-Gaussian behaviour further downstream. Moreover, by comparing the flow fields between control no-grid and fractal grid-generated turbulence of a plate-fin array, SPTV reveals vigorous turbulence intensity, smaller regional integral-length-scale, and energetic vortex shedding at higher frequency for the latter, particularly between fins. Thereupon, it allows the unravelling of detailed thermofluid interplays of plate-fin heat sink heat transfer augmentation. The novelty of SPTV lies in its simplicity, use of low-cost off-the-shelf components, and most remarkably, low computational complexity in detecting fundamental characteristics of turbulent fluid flow.
  3. Foo ML, Tan CR, Lim PD, Ooi CW, Tan KW, Chew IML
    Int J Biol Macromol, 2019 Oct 01;138:1064-1071.
    PMID: 31301392 DOI: 10.1016/j.ijbiomac.2019.07.035
    Rod-shape particles have been a good drug carrier due to the long circulatory time, tumor accumulation and high cellular uptake in body. Acid-hydrolysed nanocrystalline cellulose (NCC) from empty fruit bunch exhibited a width of 13-30nm and a length of 150-360nm in rod-shape structure. NCC holds good potential as a bio-based drug carrier owing to its biodegradability and biocompatibility. Fourier-transform infrared spectroscopy results confirmed the binding of curcumin onto the NCC modified with tannic acid (TA) and decylamine (DA). TA-DA modification rendered NCC with a higher level of hydrophobicity, as evidenced by a substantial increase in contact angle from 45° to 73°. The modified NCC had the curcumin-binding efficiency in the range of 95-99%, which is at least twofold higher than the unmodified NCC at any curcumin concentration tested. This remarkable curcumin-binding effciency was comparable to that of commercialized NCC from wood-based origin. This work suggests NCC as a superior and sustainable drug carrier, while TA-DA modification is a promising approach to alter the surface property of NCC for an efficient binding of curcumin.
Related Terms
Filters
Contact Us

Please provide feedback to Administrator (afdal@afpm.org.my)

External Links