Influence of the composition and structure of epoxy siloxane matrix on the spectral behavior of the nile red dye: I. Sol-gel system based on tetraethoxysilane and a mixture of epoxy resins

Abstract There has recently been a significant increase in interest regarding the prevalence of microplastics in bottled water. Previous studies have shown that the composition of many of the microplastics in bottled water is consistent with the materials of the bottle and bottle cap. The focus of this study is to quantify microplastic particle generation from the cap and bottle interaction during open and close cycles. Nile Red dye was used for the detection of microplastics >4.7 μm in size. Microplastic contamination levels in the water were found to increase as the bottle cap is opened and closed repeatedly. The rate of generation of particles with bottle opening and closing cycles (553 ± 202 microplastics/L/cycle) is adequate to account for the total particle density in the water. This clearly demonstrates that the abrasion between the bottle cap and bottleneck is the dominant mechanism for the generation of microplastic contamination detected in bottled water. A large spread between the maximum and minimum levels of microplastic contamination for bottles from the same lot, regardless of the number of times the cap is opened and closed, suggests that mechanical tolerances in the manufacturing of bottles and caps might play an important role in microplastic generation.

Download Full-text

Thermal behavior of a sol–gel system containing aniline and organic phosphonates

Journal of Thermal Analysis and Calorimetry ◽

10.1007/s10973-009-0216-z ◽

2009 ◽

Vol 97 (2) ◽

pp. 473-478 ◽

Cited By ~ 6

Author(s):

G. Vlase ◽

T. Vlase ◽

N. Doca ◽

M. Perţa ◽

G. Ilia ◽

...

Keyword(s):

Thermal Behavior ◽

Sol Gel ◽

Gel System

Download Full-text

Silicon Nanomembrane Filtration and Imaging for the Evaluation of Microplastic Entrainment along a Municipal Water Delivery Route

Sustainability ◽

10.3390/su122410655 ◽

2020 ◽

Vol 12 (24) ◽

pp. 10655

Author(s):

Gregory R. Madejski ◽

S. Danial Ahmad ◽

Jonathan Musgrave ◽

Jonathan Flax ◽

Joseph G. Madejski ◽

...

Keyword(s):

Drinking Water ◽

Water Transport ◽

Transport Process ◽

Nile Red ◽

Machine Learning Algorithms ◽

Hydrophobic Polymers ◽

Silicon Nanomembrane ◽

Debris Transport ◽

End Stage ◽

Red Dye

To better understand the origin of microplastics in municipal drinking water, we evaluated 50 mL water samples from different stages of the City of Rochester’s drinking water production and transport route, from Hemlock Lake to the University of Rochester. We directly filtered samples using silicon nitride nanomembrane filters with precisely patterned slit-shaped pores, capturing many of the smallest particulates (<20 µm) that could be absorbed by the human body. We employed machine learning algorithms to quantify the shapes and quantity of debris at different stages of the water transport process, while automatically segregating out fibrous structures from particulate. Particulate concentrations ranged from 13 to 720 particles/mL at different stages of the water transport process and fibrous pollution ranged from 0.4 to 8.3 fibers/mL. A subset of the debris (0.2–8.6%) stained positively with Nile red dye which identifies them as hydrophobic polymers. Further spectroscopic analysis also indicated the presence of many non-plastic particulates, including rust, silicates, and calcium scale. While water leaving the Hemlock Lake facility is mostly devoid of debris, transport through many miles of piping results in the entrainment of a significant amount of debris, including plastics, although in-route reservoirs and end-stage filtration serve to reduce these concentrations.

Download Full-text