Sensitive Metal Oxide-Clay Nanocomposite Colorimetric Sensor Development for Aflatoxin Detection in Foods: Corn and Almond

Khansili, Nishtha; Krishna, P. Murali

doi:10.1021/acsomega.1c00750

Cited by 10 publications

(3 citation statements)

References 79 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Reports suggest that the catalytic activity of metal oxides increases when they are immobilized on bentonite as a natural clay with a high surface area. Khansili and Murali Krishna (2021) fabricated a label-free colorimetric biosensing platform using ZnO 2 bentonite nanocomposite (ZnOBt) to detect the total aflatoxin concentration in corn and almond samples in two-stage redox reactions between ZnOBt and dye Cur. The LOD of aflatoxin in corn and almond was determined as 2.74 and 4.34 ppb, respectively.…”

Section: Porous Nanomaterials As Sensors and Detectors In Smart Packa...mentioning

confidence: 99%

Improving the functionality of biodegradable food packaging materials via porous nanomaterials

Jafarzadeh

Forough

Kouzegaran

et al. 2023

Comp Rev Food Sci Food Safe

View full text Add to dashboard Cite

Non‐biodegradability and disposal problems are the major challenges associated with synthetic plastic packaging. This review article discusses a new generation of biodegradable active and smart packaging based on porous nanomaterials (PNMs), which maintains the quality and freshness of food products while meeting biodegradability requirements. PNMs have recently gained significant attention in the field of food packaging due to their large surface area, peculiar structures, functional flexibility, and thermal stability. We present for the first time the recently published literature on the incorporation of various PNMs into renewable materials to develop advanced, environmentally friendly, and high‐quality packaging technology. Various emerging packaging technologies are discussed in this review, along with their advantages and disadvantages. Moreover, it provides general information about PNMs, their characterization, and fabrication methods. It also briefly describes the effects of different PNMs on the functionality of biopolymeric films. Furthermore, we examined how smart packaging loaded with PNMs can improve food shelf life and reduce food waste. The results indicate that PNMs play a critical role in improving the antimicrobial, thermal, physicochemical, and mechanical properties of natural packaging materials. These tailor‐made materials can simultaneously extend the shelf life of food while reducing plastic usage and food waste.

show abstract

Section: Porous Nanomaterials As Sensors and Detectors In Smart Packa...mentioning

confidence: 99%

Improving the functionality of biodegradable food packaging materials via porous nanomaterials

Jafarzadeh

Forough

Kouzegaran

et al. 2023

Comp Rev Food Sci Food Safe

View full text Add to dashboard Cite

show abstract

“…Corn is an essential raw material for animal feed, and many countries have reported aflatoxin contamination in corn. 38,39 To evaluate the practicability of this sensing system, the sensing strategy, addition, and recovery experiments for determining the concentration of total AFs in corn samples were carried out. After adding different quality aflatoxins to 4 ground fresh corn samples, the spiked samples with mixed AFs were pretreated by liquidliquid extraction separation.…”

Section: Sensitivity Testmentioning

confidence: 99%

A controllable staining colorimetric method based on carboxylated cellulose membranes for early-warning and semi-quantitative detection of aflatoxins in water

Zhang

Zhong

Yang

et al. 2022

Analyst

View full text Add to dashboard Cite

show abstract

“…Usually, these materials are grouped based on the type of host (i.e., the layered mineral) and guest molecule involved in the interaction. Three main types of functionalized layer silicates can be identified, namely, (i) organoclays, which are layered silicates (typically smectites) bound to an organic molecule (or to an organo-metallic complex) that imparts peculiar properties to the modified minerals; − (ii) pillared clays, which are layered silicates intercalated with small organic or inorganic complexes (i.e., “pillars”), partially filling the interlayer space; − and (iii) clay mineral-nanocomposites, which are fine-particulate materials, heterogeneous at the nanoscale level, made at least from one clay mineral and from other materials such as polymers, pharmaceuticals, inorganic molecules, or carbon. − …”

Section: Introductionmentioning

confidence: 99%

Gaseous Heptanethiol Removal by a Fe³⁺-Phenanthroline–Kaolinite Hybrid Material

et al. 2021

View full text Add to dashboard Cite

Kaolinite functionalized by the μ-oxo Fe3+-phenanthroline complex (Fe+3Phen) was selected to test its ability to efficiently remove and store gaseous heptanethiol (HPT). Spectroscopic techniques, elemental analysis, and thermal analysis coupled with evolved gas mass spectrometry were employed to characterize the material before and after the exposure to the gas and to define the adsorption process. The amount of HPT trapped by the functionalized kaolinite after 60 days is 0.10940 moles per 100 g of kaolinite which, considering the amount of adsorbed Fe+3Phen (0.00114 moles per 100 g of kaolinite), means a thiol/Fe3+Phen molar ratio of about 100:1, a value much higher than those found in the past for Fe+3Phen functionalized montmorillonite and sepiolite. In addition, the process was found to be efficient also beyond 60 days. This significant removal of the smelly gas was explained by considering a continuous catalytic activity of Fe3+ toward the oxidation of thiol to disulfide.

show abstract

Sensitive Metal Oxide-Clay Nanocomposite Colorimetric Sensor Development for Aflatoxin Detection in Foods: Corn and Almond

Cited by 10 publications

References 79 publications

Improving the functionality of biodegradable food packaging materials via porous nanomaterials

Improving the functionality of biodegradable food packaging materials via porous nanomaterials

A controllable staining colorimetric method based on carboxylated cellulose membranes for early-warning and semi-quantitative detection of aflatoxins in water

Gaseous Heptanethiol Removal by a Fe³⁺-Phenanthroline–Kaolinite Hybrid Material

Contact Info

Product

Resources

About

Sensitive Metal Oxide-Clay Nanocomposite Colorimetric Sensor Development for Aflatoxin Detection in Foods: Corn and Almond

Cited by 10 publications

References 79 publications

Improving the functionality of biodegradable food packaging materials via porous nanomaterials

Improving the functionality of biodegradable food packaging materials via porous nanomaterials

A controllable staining colorimetric method based on carboxylated cellulose membranes for early-warning and semi-quantitative detection of aflatoxins in water

Gaseous Heptanethiol Removal by a Fe3+-Phenanthroline–Kaolinite Hybrid Material

Contact Info

Product

Resources

About

Gaseous Heptanethiol Removal by a Fe³⁺-Phenanthroline–Kaolinite Hybrid Material