Micro-Characterization of Indoor Deposited Particles Using FTIR, SEM-EDS, and XRD Techniques: A Case Study of a University Campus, Bangladesh
Abstract Micro-characterization of indoor atmospheric particles is essential for understanding atmospheric particle consequences on human health. In this study, the atmospheric particles were collected from inside the different buildings of KUET campus. The samples underwent characterization through...
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| Format: | Article |
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Springer
2024-03-01
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| Series: | Aerosol and Air Quality Research |
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| Online Access: | https://doi.org/10.4209/aaqr.230236 |
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| author | Mamun Mahmud Kazi ABM Mohiuddin |
| author_facet | Mamun Mahmud Kazi ABM Mohiuddin |
| author_sort | Mamun Mahmud |
| collection | DOAJ |
| description | Abstract Micro-characterization of indoor atmospheric particles is essential for understanding atmospheric particle consequences on human health. In this study, the atmospheric particles were collected from inside the different buildings of KUET campus. The samples underwent characterization through FTIR, SEM-EDS, and XRD techniques. Among the four sampled locations, the New Academic Building (NAB) had the highest rate of atmospheric particle deposition at 3.96 µg cm−2 day−1. The FTIR analysis indicated that the primary functional groups present across all samples were organic, specifically hydroxyl (-OH), aliphatic carbon (-CH2), carbonyl (-CO), and amino (-NH2) groups. The morphological analysis by SEM depicted the shape of indoor particles as angular, micro-flake, cubic, and irregular with the major chemical compositions of C, O, Al, Si, Ca, Na, Fe, and Mg of which Si and Fe were dominant in CEC and CEL sites which most likely originated from construction activities and dust from paved and unpaved roads. The average crystallinity of studied atmospheric particles was found to be a minimum of 27.3% at RH and a maximum of 64.5% at NAB sites and the corresponding crystalline size was 11.10 nm and 42.92 nm respectively. Quartz mineral in the inorganic fraction of atmospheric particles was found predominantly in every sample which most likely originates from soil erosion, construction activities and vehicular emissions. The outcome of this study will enhance our understanding of organic and inorganic compounds in atmospheric particles and their significance regarding radiative forcing, health impacts, and policy considerations for atmospheric particle sources. |
| format | Article |
| id | doaj-art-1e2c713974ab43e7b8336cb4ec1219ae |
| institution | Kabale University |
| issn | 1680-8584 2071-1409 |
| language | English |
| publishDate | 2024-03-01 |
| publisher | Springer |
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| series | Aerosol and Air Quality Research |
| spelling | doaj-art-1e2c713974ab43e7b8336cb4ec1219ae2025-02-09T12:24:22ZengSpringerAerosol and Air Quality Research1680-85842071-14092024-03-0124511510.4209/aaqr.230236Micro-Characterization of Indoor Deposited Particles Using FTIR, SEM-EDS, and XRD Techniques: A Case Study of a University Campus, BangladeshMamun Mahmud0Kazi ABM Mohiuddin1Department of Civil Engineering, Khulna University of Engineering & TechnologyDepartment of Civil Engineering, Khulna University of Engineering & TechnologyAbstract Micro-characterization of indoor atmospheric particles is essential for understanding atmospheric particle consequences on human health. In this study, the atmospheric particles were collected from inside the different buildings of KUET campus. The samples underwent characterization through FTIR, SEM-EDS, and XRD techniques. Among the four sampled locations, the New Academic Building (NAB) had the highest rate of atmospheric particle deposition at 3.96 µg cm−2 day−1. The FTIR analysis indicated that the primary functional groups present across all samples were organic, specifically hydroxyl (-OH), aliphatic carbon (-CH2), carbonyl (-CO), and amino (-NH2) groups. The morphological analysis by SEM depicted the shape of indoor particles as angular, micro-flake, cubic, and irregular with the major chemical compositions of C, O, Al, Si, Ca, Na, Fe, and Mg of which Si and Fe were dominant in CEC and CEL sites which most likely originated from construction activities and dust from paved and unpaved roads. The average crystallinity of studied atmospheric particles was found to be a minimum of 27.3% at RH and a maximum of 64.5% at NAB sites and the corresponding crystalline size was 11.10 nm and 42.92 nm respectively. Quartz mineral in the inorganic fraction of atmospheric particles was found predominantly in every sample which most likely originates from soil erosion, construction activities and vehicular emissions. The outcome of this study will enhance our understanding of organic and inorganic compounds in atmospheric particles and their significance regarding radiative forcing, health impacts, and policy considerations for atmospheric particle sources.https://doi.org/10.4209/aaqr.230236Indoor air pollutionCrystalline silicaMicroplasticsFTIRSEM-EDSXRD |
| spellingShingle | Mamun Mahmud Kazi ABM Mohiuddin Micro-Characterization of Indoor Deposited Particles Using FTIR, SEM-EDS, and XRD Techniques: A Case Study of a University Campus, Bangladesh Aerosol and Air Quality Research Indoor air pollution Crystalline silica Microplastics FTIR SEM-EDS XRD |
| title | Micro-Characterization of Indoor Deposited Particles Using FTIR, SEM-EDS, and XRD Techniques: A Case Study of a University Campus, Bangladesh |
| title_full | Micro-Characterization of Indoor Deposited Particles Using FTIR, SEM-EDS, and XRD Techniques: A Case Study of a University Campus, Bangladesh |
| title_fullStr | Micro-Characterization of Indoor Deposited Particles Using FTIR, SEM-EDS, and XRD Techniques: A Case Study of a University Campus, Bangladesh |
| title_full_unstemmed | Micro-Characterization of Indoor Deposited Particles Using FTIR, SEM-EDS, and XRD Techniques: A Case Study of a University Campus, Bangladesh |
| title_short | Micro-Characterization of Indoor Deposited Particles Using FTIR, SEM-EDS, and XRD Techniques: A Case Study of a University Campus, Bangladesh |
| title_sort | micro characterization of indoor deposited particles using ftir sem eds and xrd techniques a case study of a university campus bangladesh |
| topic | Indoor air pollution Crystalline silica Microplastics FTIR SEM-EDS XRD |
| url | https://doi.org/10.4209/aaqr.230236 |
| work_keys_str_mv | AT mamunmahmud microcharacterizationofindoordepositedparticlesusingftirsemedsandxrdtechniquesacasestudyofauniversitycampusbangladesh AT kaziabmmohiuddin microcharacterizationofindoordepositedparticlesusingftirsemedsandxrdtechniquesacasestudyofauniversitycampusbangladesh |