Magdalena Mikus scite author profile

This study aimed to determine the effect of edible coatings based on whey protein isolate and essential oils (lemon and lemongrass) on the colour, hardness, polyphenols and flavonoids content, structure, and sensory attributes of fresh-cut pears during storage at 4 °C. The optical and barrier properties of the edible films were also determined. Analysed films showed good transparency (Lightness 86.6–95.0) and excellent oxygen and carbon dioxide permeability, which were reduced due to the presence of lemon and lemongrass essential oils. Pears were coated by immersion in a solution containing 8% of whey protein isolate and the addition of lemon oil at 1.0% or lemongrass essential oil at 0.5%. Coating caused a reduction in colour changes, loss in hardness, polyphenols and flavonoids. The study showed that the highest efficiency was demonstrated by the whey protein isolate coatings without the addition of essential oils by preserving the colour and firmness of fresh-cut pears. For these samples, the highest sensory acceptability was also achieved.

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Development and Characterization of Novel Composite Films Based on Soy Protein Isolate and Oilseed Flours

Mikus

Galus

Ciurzyńska

et al. 2021

Molecules

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The possibility of using oilseed flours as a waste source for film-forming materials with a combination of soy protein isolate in preparation of edible films was evaluated. Physical, mechanical and barrier properties were determined as a function of the oilseed type: hemp, evening primrose, flax, pumpkin, sesame and sunflower. It was observed that the addition of oilseed flours increased the refraction and thus the opacity of the obtained films from 1.27 to 9.57 A mm−1. Depending on the type of flours used, the edible films took on various colors. Lightness (L*) was lowest for the evening primrose film (L* = 34.91) and highest for the soy protein film (L* = 91.84). Parameter a* was lowest for the sunflower film (a* = −5.13) and highest for the flax film (a* = 13.62). Edible films made of pumpkin seed flour had the highest value of the b* color parameter (b* = 34.40), while films made of evening primrose flour had the lowest value (b* = 1.35). All analyzed films had relatively low mechanical resistance, with tensile strength from 0.60 to 3.09 MPa. Films made of flour containing the highest amount of protein, pumpkin and sesame, had the highest water vapor permeability, 2.41 and 2.70 × 10−9 g·m−1 s−1 Pa−1, respectively. All the edible films obtained had high water swelling values from 131.10 to 362.16%, and the microstructure of the films changed after adding the flour, from homogeneous and smooth to rough. All blended soy protein isolate–oilseed flour films showed lower thermal stability which was better observed at the first and second stages of thermogravimetric analysis when degradation occurred at lower temperatures. The oilseed flours blended with soy protein isolate show the possibility of using them in the development of biodegradable films which can find practical application in the food industry.

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An electron microprobe and cathodoluminescence study of chemical reactions between tool and workpiece when turning steel with alumina-based ceramics

Brandt

Mikus

1987

Wear

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Powlekanie żywności – materiały, metody i zastosowanie w przemyśle spożywczym

Mikus¹,

Galus²

2020

zntj

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Powlekanie żywności stosowane jest w celu przedłużenia okresu przydatności do spożycia wielu nietrwałych, łatwo psujących się surowców i produktów spożywczych. Powłoki jadalne mogą zapobiegać zmianom barwy, tekstury, rozwojowi niepożądanych mikroorganizmów oraz utracie witamin bądź składników mineralnych. Powinny minimalizować niekorzystny wpływ działania promieniowania słonecznego oraz wilgoci. Tym samym powłoki i filmy jadalne mogą przyczyniać się do podwyższania jakości i bezpieczeństwa żywności. Rozwój opakowań jadalnych może stanowić korzystną, a z czasem konieczną alternatywę dla opakowań syntetycznych, m.in. ze względów ekonomicznych oraz zdrowotnych. Coraz częstsze stosowanie biodegradowalnych powłok jadalnych w wielu branżach przemysłu spożywczego ma na celu ograniczenie zarówno liczby opakowań jednostkowych, jak i zwiększającej się ilości odpadów zanieczyszczających środowisko. W powlekaniu żywności nadal poszukiwane są rozwiązania pozwalające na uzyskanie powłok o zakładanych właściwościach użytkowych. Wprowadzanie substancji przeciwdrobnoustrojowych lub nanomateriałów może wpływać na zwiększanie zakresu stosowania powłok jadalnych oraz decydować o akceptacji takich produktów przez konsumentów. Obecnie prowadzone są intensywne badania naukowe w kierunku opracowania efektywnych metod wytwarzania powłok i folii jadalnych oraz modyfikacji ich właściwości funkcjonalnych. W niniejszej pracy przedstawiono charakterystykę materiałów dotychczas stosowanych, jak również nowych – o właściwościach powłokotwórczych. Scharakteryzowano metody ich wytwarzania i zastosowanie w przemyśle spożywczym.

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Magdalena Mikus

Wear mechanisms of ceramic cutting tools when machining ferrous and non-ferrous alloys

The Effect of Whey Protein-Based Edible Coatings Incorporated with Lemon and Lemongrass Essential Oils on the Quality Attributes of Fresh-Cut Pears during Storage

Development and Characterization of Novel Composite Films Based on Soy Protein Isolate and Oilseed Flours

An electron microprobe and cathodoluminescence study of chemical reactions between tool and workpiece when turning steel with alumina-based ceramics

Powlekanie żywności – materiały, metody i zastosowanie w przemyśle spożywczym

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