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Tier 2
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Original research — experimental, observational, or case-control study. Direct primary evidence.
Detection Methods
Gut & Microbiome
Remediation
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Digestive Elimination of Coexisting Microplastics for Determination of Particulate Black Carbon in Environmental Waters
Analytical Chemistry2021
8 citations
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Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count.
Score: 30
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0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Qingcun Li,
Qingcun Li,
Qingcun Li,
Qingcun Li,
Qingcun Li,
Qingcun Li,
Yujian Lai,
Yujian Lai,
Yujian Lai,
Sujuan Yu,
Sujuan Yu,
Yujian Lai,
Yujian Lai,
Xueying Sheng,
Qingcun Li,
Qingcun Li,
Qingcun Li,
Qingcun Li,
Qingcun Li,
Qingcun Li,
Sujuan Yu,
Sujuan Yu,
Xueying Sheng,
Qingcun Li,
Qingcun Li,
Yujian Lai,
Yujian Lai,
Yujian Lai,
Yujian Lai,
Yujian Lai,
Lijie Dong,
Jingfu Liu
Lijie Dong,
Lijie Dong,
Lijie Dong,
Lijie Dong,
Qingcun Li,
Xueying Sheng,
Qingcun Li,
Xueying Sheng,
Qingcun Li,
Xueying Sheng,
Xueying Sheng,
Lijie Dong,
Lijie Dong,
Sujuan Yu,
Sujuan Yu,
Yujian Lai,
Sujuan Yu,
Jingfu Liu
Qingcun Li,
Qingcun Li,
Qingcun Li,
Qingcun Li,
Xueying Sheng,
Xueying Sheng,
Sujuan Yu,
Sujuan Yu,
Sujuan Yu,
Qingcun Li,
Qingcun Li,
Xueying Sheng,
Xueying Sheng,
Qingcun Li,
Peng Li,
Sujuan Yu,
Qingcun Li,
Yujian Lai,
Qingcun Li,
Qingcun Li,
Sujuan Yu,
Sujuan Yu,
Jingfu Liu
Qingcun Li,
Qingcun Li,
Sujuan Yu,
Jingfu Liu
Yujian Lai,
Jingfu Liu
Sujuan Yu,
Qingcun Li,
Jingfu Liu
Jingfu Liu
Yujian Lai,
Xueying Sheng,
Jingfu Liu
Qingcun Li,
Sujuan Yu,
Xueying Sheng,
Yujian Lai,
Jingfu Liu
Qingxiang Zhou,
Yujian Lai,
Yujian Lai,
Yujian Lai,
Qingcun Li,
Qingcun Li,
Sujuan Yu,
Jingfu Liu
Jingfu Liu
Lijie Dong,
Sujuan Yu,
Sujuan Yu,
Sujuan Yu,
Sujuan Yu,
Sujuan Yu,
Sujuan Yu,
Sujuan Yu,
Sujuan Yu,
Sujuan Yu,
Sujuan Yu,
Sujuan Yu,
Sujuan Yu,
Sujuan Yu,
Sujuan Yu,
Sujuan Yu,
Sujuan Yu,
Sujuan Yu,
Sujuan Yu,
Jingfu Liu
Jingfu Liu
Qingxiang Zhou,
Sujuan Yu,
Jingfu Liu
Jingfu Liu
Jingfu Liu
Sujuan Yu,
Jingfu Liu
Jingfu Liu
Sujuan Yu,
Sujuan Yu,
Jingfu Liu
Jingfu Liu
Jingfu Liu
Jingfu Liu
Jingfu Liu
Jingfu Liu
Jingfu Liu
Jingfu Liu
Jingfu Liu
Yujian Lai,
Jingfu Liu
Jingfu Liu
Jingfu Liu
Jingfu Liu
Jingfu Liu
Summary
Researchers developed a method to remove microplastics from environmental samples before measuring particulate black carbon, which has similar properties that made the two indistinguishable in earlier analyses. This digestion technique improves the accuracy of black carbon measurements in environments contaminated with microplastics.
Determination of particulate black carbon (PBC) in the environment is of great importance but faces a new challenge due to the increasing occurrence of coexisting microplastics (MPs), which are an emerging contaminant with properties very similar to those of PBC and cannot be discriminated in the chemical digestion procedure of the reported PBC analysis method. Herein, a comprehensive method has been developed for accurately determining PBC by digestive elimination of the coexisting MPs and other non-black carbon organic matter. Water samples were filtered with a glass fiber membrane (0.3 μm pore size), and the collected substances with the membrane were subjected to sulfonation with chlorosulfonic acid and Fenton digestion in sequence and then to the total organic carbon analyzer for quantification of PBC. Under the optimized conditions, MPs of various sizes and polymer types were efficiently eliminated (>91.0%), whereas various PBC samples were undigested with recoveries over 91.7% except for the relatively low recovery of 65.6% for the PBC prepared at a low pyrolysis temperature of 400 °C. The feasibility of the proposed method was verified by analysis of real water samples with a spike recovery of 88.6-100.2%. We anticipate that this work will pave an avenue for reliable determination of PBC in the presence of MPs.