C
Cheng-Di Dong
Researcher at National Kaohsiung Marine University
Publications - 316
Citations - 7855
Cheng-Di Dong is an academic researcher from National Kaohsiung Marine University. The author has contributed to research in topics: Chemistry & Medicine. The author has an hindex of 30, co-authored 225 publications receiving 3790 citations. Previous affiliations of Cheng-Di Dong include University of Delaware & Asia University (Taiwan).
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Distribution and accumulation of heavy metals in the sediments of Kaohsiung Harbor, Taiwan.
TL;DR: Investigation of the distribution, enrichment, and accumulation of heavy metals in the sediments, especially those at the vicinity of tributary estuaries of Kaohsiung Harbor, Taiwan suggested the influence of industrial and municipal wastewaters discharged from the neighboring industrial parks and river basins.
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Advanced chemical oxidation: Its present role and potential future in hazardous waste treatment
TL;DR: The potential of advanced chemical oxidation for future hazardous wastes treatment is demonstrated by four AOP systems, namely, H2O2/Fe2+, TiO 2/uv/O2, H 2O22, and TiO2-uv/H2O 2, exemplified by chlorophenols.
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Polystyrene microplastic particles: In vitro pulmonary toxicity assessment
TL;DR: Findings indicate that PS-MP inhalation may influence human respiratory health, and decreased α1-antitrypsin levels in BEAS-2B cells suggest that exposure to PS- MPs increases the risk for chronic obstructive pulmonary disease, and high concentrations ofPS-MPs can induce these adverse responses.
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Influence of pyrolysis temperature on polycyclic aromatic hydrocarbons production and tetracycline adsorption behavior of biochar derived from spent coffee ground.
Van-Truc Nguyen,Thanh-Binh Nguyen,Chiu-Wen Chen,Chang-Mao Hung,Thi-Dieu-Hien Vo,Jih-Hsing Chang,Cheng-Di Dong +6 more
TL;DR: The results showed that biochar synthesized at 500 °C (SCG 500) contained low PAHs and the highest TC adsorption efficiency and suggested that SCG 500 was a promising environmentally friendly effective absorbent.
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Synthesis of magnetic biochar from bamboo biomass to activate persulfate for the removal of polycyclic aromatic hydrocarbons in marine sediments.
TL;DR: The results of this study demonstrate that possible activation mechanisms include Fe2+-Fe3+ redox coupling and electron shuttling that mediates electron transfer of the BB oxygen functional groups, promoting the generation of SO4- in the Fe3O4-BB/PS system.