Journal of
Environmental Chemistry and Ecotoxicology

  • Abbreviation: J. Environ. Chem. Ecotoxicol.
  • Language: English
  • ISSN: 2141-226X
  • DOI: 10.5897/JECE
  • Start Year: 2009
  • Published Articles: 191

Full Length Research Paper

Assessment of transition metal oxides, post transition metal oxides in suspended or settled dust particles by wavelength dispersive X-rays fluorescence (WD-XRF)

Naveed Hassan
  • Naveed Hassan
  • Department of Chemistry, University of Karachi, Karachi, Pakistan.
  • Google Scholar


  •  Received: 09 September 2021
  •  Accepted: 21 October 2021
  •  Published: 30 November 2021

References

Ahmed K, Naveed H, Naseem A, Mohsin M (2019). Chemical and Morphological Characteristics of Heavy and Hazardous Metals in Settled Dust Associated with Different Functional Areas of Karachi, Pakistan. Journal of Bioadiversity and Environmetal Sciences 15(3):46-58.

 

Alsubaie A, Alsulaiti L, Al-Dabbous AN, Chamakh M, Jaafar M, Daar E, Alanazi AH, Altowairqi Y, Podolyak Z, Ward NI, Bradley DA (2019). A Comparison of Elemental Presence in Riyadh and Doha Road Dust. Radiation Physics and Chemistry 154:58-63. 
Crossref

 

Duong TT, Byeong KL (2011). Determining Contamination Level of Heavy Metals in Road Dust from Busy Traffic Areas with Different Characteristics. Journal of Environmental Management 92(3):554-62. 
Crossref

 

Faridul I, Syada SM, Abdullah AM, Badiuzzaman K, Mohammad AR, Abdus S, Islam F (2014). Trace Metals Concentrations at the Atmosphere Particulate Matters in the Southeast Asian Mega City (Dhaka, Bangladesh). Open Journal of Air Pollution 4(02):86. 
Crossref

 

Huang Y, Chi-heng W, Robert SA (2010). Toxicity of Transition Metal Oxide Nanoparticles. Recent Insights from in Vitro Studies Materials 3(10):4842-4859.
Crossref

 

Khademi H, Gabarrón M, Abbaspour A, Martínez-Martínez S, Faz A, Acosta JA (2019). Environmental Impact Assessment of Industrial Activities on Heavy Metals Distribution in Street Dust and Soil. Chemosphere 217:695-705. 
Crossref

 

Khan MN, Agha AW, Anila S, Faisal R (2011). Assessment of Heavy Metal Toxicants in the Roadside Soil along the N-5, National Highway, Pakistan. Environmental Monitoring and Assessment 182(1-4):587-95. 
Crossref

 

Leung AOW, Duzgoren-Aydin NS, Cheung KC, Wong MH (2008). Heavy Metals Concentrations of Surface Dust from E-Waste Recycling and Its Human Health Implications in Southeast China. Environmental Science and Technology 42(7):2674-80.
Crossref

 

Liu H, Li-Ping C, Ying-Wei A, Xia Y, Yan-Hua Y, Yuan-Bin Z, Guo-Yong F (2009). Heavy Metal Contamination in Soil alongside Mountain Railway in Sichuan, China. Environmental Monitoring and Assessment 152(1):25-33.
Crossref

 

Machado JG, Feliciane AB, Carlos AMM, Carlos AS, Antônio CFV, João BMC (2006). Chemical, Physical, Structural and Morphological Characterization of the Electric Arc Furnace Dust. Journal of Hazardous Materials 136(3):953-60. 
Crossref

 

Mashiatullah A, Muhammad ZC, Nasir A, Tariq J, Abdul G (2013). Metal Pollution and Ecological Risk Assessment in Marine Sediments of Karachi Coast, Pakistan. Environmental Monitoring and Assessment 185(2):1555-1565. 
Crossref

 

Men C, Ruimin L, Qingrui W, Lijia G, Zhenyao S (2018). The Impact of Seasonal Varied Human Activity on Characteristics and Sources of Heavy Metals in Metropolitan Road Dusts. Science of the Total Environment 637-638:844-854. 
Crossref

 

Muhammad S, Mohammad S, Sardar K (2011). Heavy Metal Concentrations in Soil and Wild Plants Growing around Pb-Zn Sulfide Terrain in Kohistan Region, Northern Pakistan. Microchemical Journal 99(1):67-75.
Crossref

 

Naveed H, Naseem A, Syed SH, Mohsin M (2020). Study Of Alkali Metal Oxides , Alkaline Earth Metal Oxides And Non-Metal Oxides In Settled Dust Of Assorted Regions Of Karachi, Pakistan. Journal of Environment, Earth Sciences and Ecology 2(2):1-11.

 

Rasmussen PE, Christine L, Marc C, Gardner HD (2018). Contribution of Metals in Resuspended Dust to Indoor and Personal Inhalation Exposures: Relationships between PM 10 and Settled Dust. Building and Environment 143:513-522. 
Crossref

 

Schneidemesser VE, Elizabeth AS, Tauseef AQ, Martin MS, James JS (2010). Toxic Metals in the Atmosphere in Lahore, Pakistan. Science of The Total Environment 408(7):1640-1648.
Crossref

 

Shah MH, Shaheen N (2007). Statistical Analysis of Atmospheric Trace Metals and Particulate Fractions in Islamabad, Pakistan. Journal of Hazardous Materials 147(3):759-767. 
Crossref

 

Shah MH, Shaheen N, Rashida N (2012). Assessment of the Trace Elements Level in Urban Atmospheric Particulate Matter and Source Apportionment in Islamabad, Pakistan. Atmospheric Pollution Research 3(1):39-45. 
Crossref

 

Siddique A, Majid M, Nayyer AZ, Khalil AM, Sumayya S, Erum Z and Haider AK (2009). Heavy Metal Toxicity Levels in the Coastal Sediments of the Arabian Sea along the Urban Karachi (Pakistan) Region. Marine Pollution Bulletin 58(9):1406-1414. 
Crossref

 

Verma PC (2015). Determination of Concentration of Some Heavy Metals in Roadside Dust in Damaturu Metropolis Which Causes Environmental Pollution. International Journal of Advances in Science Engineering and Technology ISSN 2321-9009.

 

Wan D, Zhangxiong H, Jinsong Y, Guanglin Y, Xingqi L (2016). Heavy Metal Pollution in Settled Dust Associated with Different Urban Functional Areas in a Heavily Air-Polluted City in North China. International Journal of Environmental Research and Public Health 13(11):1119 
Crossref