 |
 |
 |
 |
 |
 |
Sains Malaysiana 53(7)(2024): 1677-1691
http://doi.org/10.17576/jsm-2024-5307-15
Peranan Saiz Nanozarah Zink Oksida dalam Prestasi Pemangkinan Foto, Perencatan Bakteria dan Ketoksikan
(Role of Zinc Oxide Nanoparticle Size in Photocatalytic
Performance, Bacterial Inhibition and Toxicity)
RAFIDAH ABD RAHMAN1,*,
CHIN HUA CHIA2 & NOOR AZLINA MASDOR3
1Agri-Nanotechnology Programme, Biotechnology and Nanotechnology Research
Centre, MARDI Headquarters, GPO Box 12301, 50774 Kuala Lumpur, Malaysia
2Department of Applied Physics, Faculty of Science and Technology, Universiti Kebangsaan Malaysia, 43600 UKM Bangi, Selangor, Malaysia 3Post-Harvest Handling Programme, Industrial Crops Research Centre, MARDI Headquarters, GPO Box 12301, 50774 Kuala Lumpur, Malaysia
Diserahkan: 11 Februari 2024/Diterima: 5 Jun
2024
Abstrak
Nanozarah zink oksida (ZnO NP) telah diubah suai melalui pengisaran bebola untuk mengkaji kesan saiz zarah pada sifat dan prestasi bahan. Pengisaran serbuk ZnO komersial selama 6 dan 12 jam telah menghasilkan ZnO NP dengan purata saiz antara 13.2-36.5 nm. Pelbagai teknik pencirian termasuk spektroskopi UV-Vis,
XRD, FESEM, TEM dan analisis potensi Zeta telah digunakan untuk menentukan morfologi zarah nano, struktur hablur, kestabilan dan sifat optik. Aktiviti fotomangkin terhadap degradasi metilena biru adalah lebih rendah untuk ZnO NP yang dikisar berbanding dengan ZnO NP tulen di bawah sinaran UV. Ujian antibakteria menggunakan kaedah resapan cakera agar menunjukkan zon perencatan terbesar terhadap patogen tumbuhan Xanthomonas oryzae pv. oryzae untuk ZnO NP tulen pada 100 mg/mL diikuti dengan ZnO NP yang dikisar 6 jam dan 12 jam. Ujian ketoksikan embrio ikan zebra menunjukkan penurunan kemandirian, kadar penetasan, kadar degupan jantung dan peningkatan kecacatan morfologi dan kematian yang bergantung kepada dos dan masa apabila terdedah kepada sampel ZnO NP. Kajian ini menunjukkan ketoksikan ZnO NP terhadap embrio ikan zebra dan fotomangkin adalah bergantung kepada saiz walaupun ujian antibakteria tidak dipengaruhi oleh saiz ZnO NP. Penemuan ini menunjukkan kepentingan pengoptimuman saiz nanozarah untuk aplikasi yang dikehendaki.
Kata kunci: Pengisaran bebola; pengubahsuaian bahan nano; saiz zarah; zink oksida
Abstract
Zinc oxide nanoparticles (ZnO NPs) were
modified via ball milling to investigate the effect of particle size on
material properties and performance. Grinding of commercial ZnO powder for 6 and 12 h produced ZnO NPs with average sizes between 13.2-36.5 nm.
Multiple characterization techniques including UV-Vis spectroscopy, XRD, FESEM,
TEM, and Zeta potential analysis were used to determine the nanoparticle
morphology, crystal structure, stability, and optical properties. The
photocatalytic activity against methylene blue degradation was lower for the
milled ZnO NPs compared to pure ZnO NPs under UV irradiation. Antibacterial testing using the agar disc diffusion
method demonstrated the largest inhibition zone against the plant pathogen Xanthomonas oryzaepv. oryzae for pure ZnO NPs at 100
mg/mL, followed by 6 h and 12 h-milled ZnO NPs. Zebrafish embryo toxicity assays showed decreased viability, hatching rates, heart rates, and
increased morphological defects and mortality in a dose- and time-dependent
manner upon exposure to the ZnO NP samples.
The study showed the size dependent ZnO NPs toxicity
in zebrafish embryos and photocatalysis although antibacteria tests were unaffected by ZnO NPs’ size. The
results highlight the importance of nanoparticle size optimization for
intended applications.
Keywords:
Ball mill; nanomaterial modification; particle size; zinc oxide
RUJUKAN
Abdullah, N.R., Mohd Nasir, M.H., Azizan, N.H., Wan-Mohtar,
W.A.A.Q.I. & Sharif, F. 2022. Bioreactor-grown exo-
and endo-β-glucan from Malaysian Ganoderma lucidum: An in vitro and in vivo study for potential antidiabetic treatment. Frontiers in Bioengineering and
Biotechnology 10: 960320.
Al Hallak,
M., Verdier, T., Bertron,
A., Castelló Lux, K., El Atti,
O., Fajerwerg, K., Fau, P.,
Hot, J., Roques, C. & Bailly, J.D. 2023.
Comparison of photocatalytic biocidal activity of TiO2, ZnO and Au/ZnO on Escherichia coli and on Aspergillus niger under light intensity close to real-life conditions. Catalysts 13(7): 1139.
Altammar, K.A. 2023. A review on nanoparticles: Characteristics,
synthesis, applications, and challenges. Frontiers
in Microbiology 14: 1155622.
Babayevska, N., Przysiecka, Ł., Iatsunskyi, I., Nowaczyk, G., Jarek, M., Janiszewska, E. & Jurga, S. 2022. ZnO size and
shape effect on antibacterial activity and cytotoxicity profile. Scientific Reports 12: 8148.
Bangeppagari, M., Park, S.H., Kim, K.W., Kundapur,
R.R. & Lee, S.J. 2018. In vivo toxicity evaluation of pristine graphene in developing zebrafish (Danio rerio)
embryos. Environmental Science and Pollution
Research 25: 12821-12829.
Chahardehi, A.M., Arsad, H. & Lim, V.H.
2020. Zebrafish as a successful animal model for screening toxicity of
medicinal plants. Plants 9(10): 1345.
Danaei, M., Dehghankhold, M., Ataei, S., Hasanzadeh Davarani, F., Javanmard, R., Dokhani, A., Khorasani, S. & Mozafari, M.R. 2018. Impact of particle size and polydispersity index on the clinical applications of lipidic nanocarrier systems. Pharmaceutics 10: 57.
El Harbawy, M. 2014. Toxicity measurement of imidazolium ionic liquids using acute toxicity test. Procedia Chemistry 9: 40-52.
Fasil, D.M., Hamdi, H., Al-Barty, A., Zaid, A.A., Parashar,
S.K.S. & Das, B. 2021. Selenium and zinc oxide multinutrient supplementation enhanced growth performance in zebra fish by modulating oxidative
stress and growth-related gene expression. Frontiers
in Bioengineering Biotechnology 9: 721717.
Gudkov, S.V., Burmistrov, D.E., Serov, D.A., Rebezov,
M.B., Semenova, A.A. & Lisitsyn,
A.B. 2021. A mini review of antibacterial properties of ZnO nanoparticles. Frontiers in Physics 9: 641481.
Hendrix, Y., Rauwel,
E., Nagpal, K., Haddad, R., Estephan,
E., Boissière, C. & Rauwel,
P. 2023. Revealing the dependency of dye adsorption and photocatalytic activity
of ZnO nanoparticles on their morphology and defect
states. Nanomaterials (Basel) 13(13):
1998.
Ifijen, I.H., Maliki, M. & Anegbe,
B. 2022. Synthesis, photocatalytic degradation and antibacterial properties of
selenium or silver doped zinc oxide nanoparticles: A detailed review. Open Nano 8: 100082.
Kusiak-Nejman, E., Wojnarowicz, J., Morawski, A.W., Narkiewicz, U., Sobczak, K., Gierlotka, S. & Lojkowski, W. 2021. Size-dependent effects of ZnO nanoparticles on the photocatalytic degradation of
phenol in a water solution. Applied
Surface Science 541: 148416.
Lee, Y.L., Shih, Y.S.,
Chen, Z.Y., Cheng, F.Y., Lu, J.Y., Wu, Y.H. & Wang, Y.J. 2022. Toxic
effects and mechanisms of silver and zinc oxide nanoparticles on zebrafish
embryos in aquatic ecosystems. Nanomaterials 12(4): 717.
Mandzy, N., Grulke, E. & Druffel, T. 2015. Breakage of TiO2 agglomerates in electrostatically stabilized aqueous dispersions. Powder Technology 160: 121-126.
Mansoor, A., Khurshid, Z., Mansoor, E., Khan, M.T., Ratnayake,
J. & Jamal, A. 2022. Effect of currently available nanoparticle synthesis
routes on their biocompatibility with fibroblast cell lines. Molecules 27(20): 6972.
Matei, E., Șăulean, A.A., Râpă, M., Constandache, A., Predescu, A.M., Coman, G., Berbecaru, A.C. & Predescu,
C. 2023. ZnO nanostructured matrix as nexus catalysts
for the removal of emerging pollutants. Environmental
Science and Pollution Research 30: 114779-114821.
Miliauskienė, J., Brazaitytė, A., Sutulienė, R., Urbutis, M.
& Tučkutė, S. 2022. ZnO nanoparticle size-dependent effects on Swiss chard growth and nutritional
quality. Agriculture 12: 1905.
Niroumand, U., Negar, F., Ghazal, G., Bahareh,
H., Parisa, G. & Soliman,
M.S. 2023. The effect of size, morphology and surface properties of mesoporous
silica nanoparticles on pharmacokinetic aspects and potential toxicity
concerns. Frontiers in Materials 10:
1189463.
Norazalina, S., Che Azurahanim,
C.A., Nurul Athikah Adila, Z. & Emmellie, L.A.
2023. Characterization, antibacterial and toxicity evaluation of biosynthesized
zinc oxide nanoparticles utilizing Eleuthrine bulbosa bulb extract. Sains Malaysiana 52(10): 2907-2918.
OECD.
2013. Test No. 236: Fish Embryo Acute Toxicity (FET) Test, OECD Guidelines for the Testing of Chemicals, Section 2. Paris:
OECD Publishing.
Panda, P.K., Kumari, P., Patel, P., Samal, S.K.,
Mishra, S., Tambuwala, M.M., Dutt,
A., Hilscherová, K., Mishra, Y.K., Varma, R.S., Suar, M., Ahuja, R. & Verma,
S.K. 2022. Molecular nanoinformatics approach
assessing the biocompatibility of biogenic silver nanoparticles with
channelized intrinsic steatosis and apoptosis. Green Chemistry 24: 1190-1210.
Pal, S., Tak,
Y.K. & Song, J.M. 2007. Does the antibacterial activity of silver
nanoparticles depend on the shape of the nanoparticle? A study of the
gram-negative bacterium Escherichia coli. Applied and Environmental Microbiology 73(6): 1712-1720.
Palos, C.M.M., Mariño-Gámez,
A.E., Acosta-González, G.E., Hernández, M.B., García-Villarreal,
S., Franco, L.F., García-Ortiz, L. & Aguilar-Martínez, J.A. 2023. Large-scale production of ZnO nanoparticles by high energy ball milling. Physica B: Condensed Matter. 656: 414776.
Pauzi, N., Zain, N.M. & Yusof,
N.A.A. 2020. Gum arabic as natural stabilizing agent
in green synthesis of ZnO nanofluids for antibacterial application. Journal of
Environmental Chemical Engineering 8(3): 103331.
Raha, S. & Ahmaruzzaman, M. 2022. ZnO nanostructured materials and their potential
applications: Progress, challenges and perspectives. Nanoscale Advances 4: 1868-1925.
Ramani, M., Ponnusamy, S., Muthamizhchelvan, C. & Marsili,
E. 2014. Amino acid-mediated synthesis of zinc oxide nanostructures and
evaluation of their facet-dependent antimicrobial activity. Colloids and Surfaces B: Interfaces 117:
233-239.
Serrano, J., Romero, A.H., Manjón, F.J., Lauck, R., Cardona,
M. & Rubio, A. 2004. Pressure dependence of the lattice dynamics of ZnO: An ab initio approach. Physical Review B 69(9):
094306.
Shekhawat, D., Vauth, M & Pezoldt, J. 2022. Size dependent properties of reactive
materials. Inorganics 10(4): 56.
Singh, G., Ubhi,
M.K., Jeet, K., Singla, C.
& Kaur, M. 2023. A review on impacting parameters for photocatalytic
degradation of organic effluents by ferrites and their nanocomposites. Processes 11: 1727.
Singh, J., Sharma, S., Soni, S., Sharma, S. & Ravi Chand Singh, R.C. 2019. Influence
of different milling media on structural, morphological and optical properties
of the ZnO nanoparticles synthesized by ball milling
process. Materials Science in
Semiconductor Processing 98: 29-38.
Subash, N.S.P., Noraziah, M.Z., Nurul Amira, A.R., Nur Faizah, A.B. & Wong, K.K. 2023. Antimicrobial property
of photocatalytic nanoparticles-coated personal protective equipment (PPE) on
bacteria and fungi. Sains Malaysiana 52(10): 2931-2942.
Verma, S.K., Panda, P.K., Jha, E., Suar, M. & Parashar, S.K.S.
2017. Altered physiochemical properties in industrially synthesized ZnO nanoparticles regulate oxidative stress; induce in vivo cytotoxicity in embryonic
zebrafish by apoptosis. Scientific
Reports 7: 13909.
Zhou, X.Q., Hayat, Z., Zhang, D.D.,
Li, M.Y., Hu, S., Wu, Q., Cao, Y.F. & Yuan, Y. 2023. Zinc oxide
nanoparticles: Synthesis, characterization, modification and applications in
food and agriculture. Processes 11(4): 1193.
*Pengarang untuk surat-menyurat; email:
arafidah@mardi.gov.my
|
|||
|
