Aqilah Sapiee scite author profile

Aqilah Sapiee

3Publications

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Affiliations

Universiti Putra Malaysia, Malaysian Nuclear Agency

Publications

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Study on Indoor Nitrous Oxide Gas Neutralization by Using Anatase and Rutile Nanotitania

Sapiee

Meor

Mahdi

2014

AMR

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Nitrous oxide is generally emitted from industry through fossil fuel combustion thus giving adverse effect to human health and environments. Catalytic converter is the common method used to neutralize this hazardous gas but the high cost of precious metals had limited its application. Nanotitania could neutralize nitrous oxide by the photocatalytic phenomenon and the material is effective as it has small band gap energy and large surface area. In this study, we produced both anatase and rutile crystalline phase nanotitania from a local titanium mineral as the starting material. A significant improvement to the properties of our nanotitania is due to the present of naturally doped neodymium and zirconium ions that are present in the titanium mineral. This make the band gaps for both anatase and rutile to be smaller and effective in photocatalytic process. Three different nanotitania formulations, pure anatase, pure rutile and mixed rutile and anatase phases, were tried in the study and the results showed that all these three formulations were able to neutralize the nitrous oxide within a very short duration. Comparative study was then performed with a blank sample and the result shows there is still significant amount of nitrous oxide present after the 2 hours run.

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Study on Indoor Formaldehyde Neutralization by Using Anatase and Rutile Nanotitania

Sapiee

Sulaiman

Mahdi

et al. 2015

AMR

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Resin impregnated wooden furniture is one of the major sources of formaldehyde in homes from the use of urea-formaldehyde and phenol-formaldehyde resins as adhesives. Indoors, emission of formaldehyde is accelerated by heat and humidity. Dehumidifiers and air conditioners are recommended to improve indoor air quality but the maintenance is costly and relative humidity in some areas are difficult to control. Due to small band gap energy and large surface area, nanotitania could neutralize formaldehyde gas by photocatalytic phenomenon. A study was carried out to investigate the formulations of pure anatase, pure rutile and mixed rutile and anatase phases which can neutralize formaldehyde within a short time. Comparative study was then performed with a control and the result showed that for the control, there are still significant amount of formaldehyde present after running the sample for one hour.

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Flexural and Impact Properties of Flax/Kevlar and Jute/Carbon Hybrid Fibers-Reinforced PLA Nanocomposites for Aircraft Interior Applications

A’Liya

Sapiee

Mazlan

et al. 2022

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Aqilah Sapiee

Study on Indoor Nitrous Oxide Gas Neutralization by Using Anatase and Rutile Nanotitania

Study on Indoor Formaldehyde Neutralization by Using Anatase and Rutile Nanotitania

Flexural and Impact Properties of Flax/Kevlar and Jute/Carbon Hybrid Fibers-Reinforced PLA Nanocomposites for Aircraft Interior Applications

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