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Automated rapid intelligent microplastics mapping by FTIR microscopy: A Python–based workflow

机译：FTIR显微镜自动快速智能化塑料微图：基于Python的工作流程

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摘要

The analysis of environmental microplastic particles using FTIR microscopy is a challenging task, due to the very high number of individual particles within a single sample. Therefore, automatable, fast and robust approaches are highly requested. Micro particles were commonly enriched on filters, and sub- or the whole filter area was investigated, which took more than 20h and produced millions of data, which had to be evaluated. This paper presents a new approach of such filter area analysis using an intelligent algorithm to measure only those spots on a filter that would produce evaluable FTIR data. Empty spaces or IR absorbers like carbon black particles were not measured which successfully reduced the total analysis time from 50h to 7h. The presented method is based on system independent Python workflow and can easily be implemented on other FTIR systems.

机译：由于单个样品中单个颗粒的数量非常大，因此使用FTIR显微镜分析环境中的塑料微粒是一项艰巨的任务。因此，高度需要可自动化，快速且鲁棒的方法。微粒通常会富集在过滤器上，并且对子过滤器或整个过滤器区域进行了研究，这花费了20多个小时，并产生了数百万个数据，必须对其进行评估。本文提出了一种使用智能算法的此类滤波器面积分析的新方法，该算法仅测量将产生可评估FTIR数据的滤波器上的那些点。未测量空白空间或IR吸收剂（如炭黑颗粒），这成功地将总分析时间从50h减少到7h。提出的方法基于独立于系统的Python工作流程，并且可以轻松地在其他FTIR系统上实现。

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期刊名称 MethodsX
作者
Gerrit Renner; Torsten C. Schmidt; Jürgen Schram;
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作者单位

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年(卷),期 2020(7),-1
年度 2020
页码 -1
总页数 11
原文格式 PDF
正文语种
中图分类
关键词
Microplasitcs; Mapping; Python; FTIR microscopy; Chemometrics;

机译：微塑性;制图;Python;FTIR显微镜;化学计量学;
入库时间 2022-08-21 11:43:02

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专利

1. Automated rapid & intelligent microplastics mapping by FTIR microscopy: A Python–based workflow [J] . Gerrit Renner, Torsten C. Schmidt, Jürgen Schram MethodsX . 2020,第1期

机译：通过FTIR显微镜自动化快速和智能微型微型映射：基于Python的工作流程
2. An automated approach for microplastics analysis using focal plane array (FPA) FTIR microscopy and image analysis [J] . Primpke S., Lorenz C., Rascher-Friesenhausen R., Analytical methods . 2017,第9期

机译：使用焦平面阵列（FPA）FTIR显微镜和图像分析的微型微型分析自动化方法
3. Reference database design for the automated analysis of microplastic samples based on Fourier transform infrared (FTIR) spectroscopy [J] . Primpke Sebastian, Wirth Marisa, Lorenz Claudia, Analytical and bioanalytical chemistry . 2018,第21期

机译：基于傅里叶变换红外（FTIR）光谱法的微塑性样品自动分析的参考数据库设计
4. Automated FTIR grazing angle microscopy: a new approach to microspatialchemical mapping of thin films, [C] . Frederick P. Eng, IBM Corp., San Jose, 8th Intl Conf on Fourier Transform Spectroscopy . 1991

机译：自动化FTIR掠角显微镜：薄膜微空间化学绘图的新方法，
5. Python Tools to Aid and Improve Rapid Hydrologic and Hydraulic Modeling with the Automated Geospatial Watershed Assessment Tool (AGWA). [D] . Barlow, Jane E. 2017

机译：借助自动地理空间分水岭评估工具（AGWA）来帮助和改进快速水文和水力建模的Python工具。
6. Synchrotron-based ν-XRF mapping and μ-FTIR microscopy enable to look into the fate and effects of tattoo pigments in human skin [O] . Ines Schreiver, Bernhard Hesse, Christian Seim, -1

机译：基于同步加速器的ν-XRF映射和μ-FTIR显微镜可以查看纹身在人类皮肤中的命运和影响
7. Automated rapid intelligent microplastics mapping by FTIR microscopy: A Python–based workflow [O] . Gerrit Renner, Torsten C. Schmidt, Jürgen Schram 2020

机译：通过FTIR显微镜自动化快速和智能微型微型映射：基于Python的工作流程

Automated rapid intelligent microplastics mapping by FTIR microscopy: A Python–based workflow

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