Nathalie Becerra-Mora scite author profile

Strawberries are a popular fruit with a pleasing color and flavor. However, its delicate tissue and high sugar content makes it highly perishable with visible mold. In this study, we have attempted to test feasibility of a new edible coating for extending shelf life of ‗Chandler' strawberries subjected to simulated vibrations of local transportation. Six types of coatings were compared based on the quality of treated berries. Curcumin and limonene were used as natural antimicrobials and coatings were prepared from their liposomes and were over-coated with methyl cellulose. One set of each coating type were subjected to the simulated vibration of local transportation. The vibrated samples had lower shelf life than non-vibrated samples, indicating a robust coating which remains intact during road vibrations is required. Based on the number of berries with visible mold, limonene liposomes showed significantly lower fungal growth compared to the control on the 14 th day of storage. Titratable acidity and total phenolic contents were also found to be higher in limonene coated strawberries compared to other coatings. Further study is suggested to test liposome coatings of limonene with different particle size to improve integrity of the coatings when strawberries are subjected to local transportation.

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Vapor-enhanced covalently bound ultra-thin films on oxidized surfaces for enhanced resolution imaging

Jiao

Zhou

Becerra-Mora

et al. 2016

J. Mater. Chem. C

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Device fabrication on curvilinear two-dimensional surfaces using polymer probes

Becerra-Mora

Rajasekaran

Voss

et al. 2021

Polymer

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Electrochemical Erasing Using a Polymer Lithography Editor for the Fabrication of Photoactive Devices

Becerra-Mora

Vargas-Lizarazo

Orrison

et al. 2019

ACS Appl. Electron. Mater.

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Electrochemical erasing of conductive coatings at microscale for the fabrication of functional devices on flexible and hard surfaces is demonstrated. The nanoporous pyramidal-shaped nano-and micro-scale polyacrylamide hydrogel PLE probes allowed delivery of electrochemical etchants to the surface providing on-demand maskless patterning at microscale. Highly efficient erasing (silver and copper metals erasing efficiency ≈100%), areal erasing rate ≈80 m 2 /s, and pressure dependent spatial erasing feature dimensions between 3 m to many tens of microns on metal surfaces allowed fabrication of microelectrodes of various geometries. Overall, PLEbased microscale erasing allowed rapid and accessible fabrication of organic

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