Effect of Fe Doping on Characteristics and Activity of Bi2O3 Photocatalytic for Amoxicillin Degradation
Bella Aprimanti Utami (24040119420018)
Abstract
Research on Fe doped Bismuth Oxide (Bi2O3/Fe) material synthesized using the precipitation method assisted by microwave radiation has been done. This study aimed to analyze the effect of Fe on the characteristics of Bi2O3 and analyze its ability to degradation of amoxicillin. The addition of Fe was carried out with various concentrations, namely 0%, 1%, 3%, 5%, 7% and 9%, respectively. The synthesis results were characterized using X-Ray Diffraction (XRD) to determine the structure and size of crystal. Then characterized using Scanning Electron Microscopy-Energy Dispersive X (SEM-EDX) to determine the morphology, particle size, and chemical elements contained in the material. In addition, the energy gap was measured using the spectrum characterization of the Ultraviolet-Visible (UV-Vis) Spectrophotometer. To determine the photocatalytic activity of Bi2O3/Fe, a photodegradation test was carried out for Amoxicillin degradation, the most optimal photocatalytic activity was obtained in 3% Fe doped Bi2O3 material with a material degradation rate of 0.0079 min-1, and a degradation efficiency of 76.00%.
Keywords : Bi2O3/Fe, Microwave Irradiation, Photodegradation, Amoxicillin
Academic Counselors
- Heri Sutanto
- Eko Hidayanto
Automated Calculation of Height and Area of Human body for Estimating Body Weight Using Kinect camera
Ariij Naufal (24040118420015)
Abstract
Research on Fe doped Bismuth Oxide (Bi2O3/Fe) material synthesized using the precipitation method assisted by microwave radiation has been done. This study aimed to analyze the effect of Fe on the characteristics of Bi2O3 and analyze its ability to degradation of amoxicillin. The addition of Fe was carried out with various concentrations, namely 0%, 1%, 3%, 5%, 7% and 9%, respectively. The synthesis results were characterized using X-Ray Diffraction (XRD) to determine the structure and size of crystal. Then characterized using Scanning Electron Microscopy-Energy Dispersive X (SEM-EDX) to determine the morphology, particle size, and chemical elements contained in the material. In addition, the energy gap was measured using the spectrum characterization of the Ultraviolet-Visible (UV-Vis) Spectrophotometer. To determine the photocatalytic activity of Bi2O3/Fe, a photodegradation test was carried out for Amoxicillin degradation, the most optimal photocatalytic activity was obtained in 3% Fe doped Bi2O3 material with a material degradation rate of 0.0079 min-1, and a degradation efficiency of 76.00%.
Ketywords: Kinect, Matlab, body size, image segmentation, depth image
Academic Counselors
- Catur Edi Widodo
- Choirul Anam
Syntheses of Colloid Gadolinium Oxide Nanoparticles Using Pulse Laser Ablation Method in Liquid Medium as a Dual Biomedical Agent
Ichsan Nur Lintang (24040117410002)
Abstract
Low-energy of pulse laser used to synthesize gadolinium nanoparticles colloid as a biomedical agent, which have a narrow size distribution, and small size. The use of pulse laser ablation produces gadolinium nanoparticles colloid that tend to be unstable which limits their application as a biomedical agent. Polyvinylpyrrolidone wass used to reduce the level of aggregation and agglomeration of gadolinium colloid nanoparticles and produce small and stable colloidal nanoparticles. This study aims to produce gadolinium nanoparticles colloid by laser ablation in aquades and PVP medium that show radiosensitizer properties and contrast agents of CT scans. Gadolinium nanoparticles colloid was synthesized using Nd: YAG pulse laser with a wavelength of 1064 nm, energy of 45 mJ, pulse width of 7 ns, repetition rate of 10Hz, and ablation time of 180 minutes in distilled water and PVP solution. Gadolinium nanoparticles colloid was characterized using Fourier Transform Infrared (FTIR), Ultraviolet-Visible spectroscopy (UV-Vis) and Particle Size Analyzer (PSA). Radiosensitizer and contrast agent properties of gadolinium nanoparticle colloid examined in vitro using LINAC 6MV therapeutic and CT scans. The laser ablation of gadolinium in aquades 5 mM PVP solution resulted in an unstable colloidal gadolinium hydroxide nanoparticle. The laser ablation of gadolinium in 10 mM PVP solution produced colloidal gadolinium oxide nanoparticles with a particle size of 7 until 11nm, stable and dispersive. Gadolinium nanoparticles colloid in aquades medium and in PVP solution showed radiosensitizer effects and gadolinium nanoparticles colloid in 10 mM PVP medium have contrast agent effects with a gray value of 215 until 255.
Keywords: Colloid, gadolinium, contrast agent CT Scan, Radiosensitizer
Academic Counselors
- Iis Nurhasanah
- Ali Khumaeni
Development ANSI Sensitometry Chest Phantom Use Polyethylene, unsaturated Polyester Resin and Calcium Carbinate
Heryani (2404011810011)
Abstract
This study aims to develop a phantom dosimetry ANSI chest that is more economical and in accordance with the characteristics of Indonesians, by using calcium carbonate as an unsaturated polyester resin and polyethylene. This research uses data on the characteristics of the composer of Indonesian thorax and the composition of a mixture of unsaturated polyester resin and calcium carbonate. Both data are used to modify standard ANSI chest phantom slabs in terms of both thickness and material used. The modified ANSI chest phantom will be tested using a CT Scan with the chest routine protocol. The DLP from the phantom will then be compared with the average DLP CT Scan of the 102 patients studied. Modified ANSI chest phantom is showing great results. The modified ANSI chest phantom is composed of 104 mm polyethylene, 41 mm air, and 4 mm composites (calcium carbonate + UPR). DLP modified ANSI chest phantom was 217 mGy / cm, meanwhile, mean DLP for chest CT examination was 222 mGy / cm. It can be concluded that the thickness of the tissue in the Indonesian thoracic organ is 10.4 cm soft tissue, 10.7 cm lung tissue, and 0.4 cm bone, the homogeneity of the UPR slab + calcium carbonate produced is above 95%, DLP obtained from ANSI sensitometry modified chest phantom. closer to the DLP of the average Indonesian, the modified ANSI sensitometry chest phantom can replace the standard ANSI sensitometry chest phantom. In general, modified ANSI chest phantom can be used for medical physics quality control activities in Indonesia in particular, and in Asia in general.
Keywords : Phantom Dosimetry, ANSI Chest, Calcium Carbonat, Polyester Resin, Polyethylene
Akademic Counselors
- Heri Sutanto
- Choirul Anam