Nurul Ain Harmiza Abdullah
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Preferred name
Nurul Ain Harmiza Abdullah
Official Name
Nurul Ain Harmiza, Abdullah
Alternative Name
Harmiza Abdullah, Nurul Ain
Ain Harmiza Abdullah, Nurul
Abdullah, N. A.H.
Main Affiliation
Scopus Author ID
57162370100
Researcher ID
GSC-0490-2022

Research Output
Now showing 1 - 4 of 4
  • Publication
    Study of albumen as foaming agent for use in self-healing high strength concrete
    (AIP Publishing, 2023)
    Zuhairiah Zainal Zainal Abidin
    ;
    Muhd Afiq Hizami Abdullah
    ;
    Kunasundari Balakrishnan
    ;
    Muhammad Munsif Ahmad
    ;
    Nurul Ain Harmiza Abdullah
    ;
    Mohd. Mustafa Al Bakri Abdullah
    ;
    Q. A. Musa
    Self-healing is an effective solution for sustainable maintenance for concrete to increase its durability against to sensitivity of cracking. As recently, the method of introducing bacterial agent in concrete were modified because of harsh environment in concrete such as small size of pore which cause squeezing of bacteria. In this research, the albumen from egg was used as foaming agent to create voids in concrete matrix. The aerated concrete matrix offer voids to bacteria as concrete will become dense and bacteria would squeezed during hydration process. The effect of albumen as foaming agent in concrete was studied while achieving the high strength aerated concrete type towards its compressive strength, splitting tensile strength and study the voids dissolution (visual) in concrete matrix when incorporation of albumen as foaming agent. The albumen of 2%, 4% and 6% is used as foaming agent (FA) to produce the high strength aerated concrete (HSAC). After 28 days of curing, the compressive and splitting tensile strength of HSAC reduced with the increased of albumen used in concrete. The highest compressive and splitting tensile strength of HSAC were 95.40 MPa and 6.67% respectively with 2% FA in comparison to control. The results of water absorption of HSAC also decreased when higher concentration of albumen used. The sizes of voids created in all samples were less than 15 mm. It can deduced that 2% of foaming agent was ideal to produce optimum characteristics in strength, uniform and size of voids in high strength aerated concrete.
  • Publication
    DNA barcoding of common Malaysia spiders using the Cytochrome Oxidase I (COI) gene
    (The Malaysian Society of Applied Biology, 2020)
    Ahmad Mukhlis Abdul Rahman
    ;
    Kek Chian Koay
    ;
    Johan Ariff Mohtar
    ;
    Anwardi Jamil
    ;
    Mohd Mushahril Abdul Shukor
    ;
    Nurul Ain Harmiza Abdullah
    For the last twenty years, many newly described spiders were collected from Malaysia and in fact, more than 11,000 species were recorded in Peninsular Malaysia as well as in Sabah and Sarawak states. Scientists have put an immense effort on untangling the spider biology from its physical structure and behavior to silks and venoms. However, working with spiders is impeded by the difficulties in species identification via solely morphological methods. Thus, DNA barcoding is an alternative technique that employs standard fragment to facilitate species identification. Isolation of genomic DNA from three Malaysian spiders were performed using NucleoSpin® DNA insect extraction kit. Amplification of reference mitochondrial cytochrome oxidase I (COI) gene employing PCR with two set of primers followed by the DNA sequencing and validation through phylogenetic analysis were carried out. The commercial extraction kit was effective for the recovery of good quality of intact genomic DNA band as indicated by the integrity analysis. Both set of primers successfully amplified 100% of the samples with approximately 600 – 700 bp of PCR products. The obtained sequences (610 bp to 692 bp) were compared with the sequences available in Gene Bank. BLAST and phylogenetic analysis revealed that the analyzed individual samples belong to Nephila pilipes, Neoscona nautica and Crossopriza lyoni, respectively. Phylogenetic analysis provided unique insight into the evolutionary relationship of each analyzed sample. This study aids in an accurate identification of the selected local spider species at molecular level using the COI gene.
      1  17
  • Publication
    Microbiological removal of hydrogen sulphide from natural rubber latex processing wastewater by Acidithiobacillus thiooxidans strain UniMAP-AIN01
    (IOP Publishing, 2020)
    Sandrasekaran Naresh
    ;
    Nurul Ain Harmiza Abdullah
    ;
    Nor Helya Iman Kamaludin
    ;
    Muhd Afiq Hizami Abdullah
    ;
    Mohamad Fahrurrazi Tompang
    Acidithiobacillus thiooxidans is an acidophilic chemoautotrophic bacterium which capable to convert the toxic hydrogen sulphide in wastewater into non-toxic compounds. The Acidithiobacillus thiooxidans strain UniMAP-AIN01 was previously isolated from a local natural rubber latex processing mill. In this study, the A. thiooxidans strain UniMAP-AIN01 was subjected to its growth performance evaluation in the wastewater of natural rubber latex. The sulphur content in the wastewater was utilized as energy source and support their growth. It was discovered that the A. thiooxidans strain UniMAP-AIN01 has long doubling time of 2 days in thiosulphate medium, while log phase lasted until 6th day of incubation. Regression analysis of the growth kinetic was established with the aid of POLYMATH software. The precision value obtained as follows; linear regression, R2 of 0.9811, adjusted linear regression, Adj R2 of 0.9764, root mean square deviation, RMSD of 0.0015, and variance of 1.992 × 10-5 indicate the data is highly correlated and error is insignificant. Assessment on hydrogen sulphide removal efficiency using locally isolated A. thiooxidans strain UniMAP-AIN01 revealed 90% of hydrogen sulphide removal was achieved within a week.
      5  1
  • Publication
    Structural and mechanical variations of major ampullate silk spun by Malaysian Nephila pilipes spider
    (Springer, 2023)
    Nurul Ain Harmiza Abdullah
    ;
    Ku Syahidah Ku Ismail
    ;
    Khadijah Hanim Abdul Rahman
    ;
    Saiful Bahari Bakarudin
    ;
    Johan Ariff Mohtar
    ;
    Mohd. Mustafa Al Bakri Abdullah
    ;
    Boon Yin Khoo
    Major ampullate (MA) silk is a natural biomaterial, spun by spiders with exceptional mechanical characteristics. Most researchers who studied MA silk structure were primarily interested in the properties of a dragline thread that protrudes from the spider’s spigot when being chased by its predator. Apart from the dragline, the MA silk fibers may also be found in three pivot threads of the orb web known as the mooring, framework, and radial. However, it is currently uncertain whether the MA silk in these threads has properties similar to the dragline thread. Thus, this work attempted to compare the properties of MA silk fiber in the mooring, framework, radial, as well as the dragline threads. The MA silk fibers in mooring thread were found to exhibit significant quantity of MA fibers (12 ± 5.0 fibers per thread), thickness diameter (11.7 ± 0.6 μm), and supercontraction effect (high swelling ratio of 18.6), with an outstanding combination of strength (4464 MPa) and toughness (875 MJ/m3), outperforming the dragline thread. Positive correlation was found between the diameter of MA fibers and supercontraction effect and between the number of MA fibers and tensile strength. These findings might be modeled as a fundamental guide in silk spinning for future synthetic MA silk fiber development with extraordinary mechanical performance.
      1  6