Nanomaterials for Smart and Sustainable Food Packaging: Nano-Sensing Mechanisms, and Regulatory Perspectives

Arjun Muthu^{1

2}, Duyen H H Nguyen^{1

3

4}, Chaima Neji⁵, Gréta Törős^{3

6}, Aya Ferroudj³, Reina Atieh^{1

2}, József Prokisch³, Hassan El-Ramady^{3

7}, Áron Béni²

Affiliations

¹ Doctoral School of Nutrition and Food Science, University of Debrecen, 4032 Debrecen, Hungary.
² Institute of Agricultural Chemistry and Soil Science, Faculty of Agricultural and Food Sciences and Environmental Management, University of Debrecen, 138 Böszörményi Street, 4032 Debrecen, Hungary.
³ Institute of Animal Science, Faculty of Agricultural and Food Sciences and Environmental Management, Biotechnology and Nature Conservation, University of Debrecen, 138 Böszörményi Street, 4032 Debrecen, Hungary.
⁴ Institute of Life Sciences, Vietnam Academy of Science and Technology, 9/621 Vo Nguyen Giap Street, Linh Trung Ward, Thu Duc City 721400, Ho Chi Minh, Vietnam.
⁵ Institute of Nutrition, Doctoral School of Nutrition and Food Science, Faculty of Agricultural and Food Sciences and Environmental Management, University of Debrecen, 138 Böszörményi Street, 4032 Debrecen, Hungary.
⁶ Doctoral School of Animal Husbandry, Faculty of Agricultural and Food Sciences and Environmental Management, University of Debrecen, Böszörményi Street 138, 4032 Debrecen, Hungary.
⁷ Soil and Water Department, Faculty of Agriculture, Kafrelsheikh University, Kafr El-Sheikh 33516, Egypt.

PMID: 40807593
PMCID: PMC12346007
DOI: 10.3390/foods14152657

Review

Nanomaterials for Smart and Sustainable Food Packaging: Nano-Sensing Mechanisms, and Regulatory Perspectives

Arjun Muthu et al. Foods. 2025.

. 2025 Jul 29;14(15):2657.

doi: 10.3390/foods14152657.

Authors

Arjun Muthu^{1

2}, Duyen H H Nguyen^{1

3

4}, Chaima Neji⁵, Gréta Törős^{3

6}, Aya Ferroudj³, Reina Atieh^{1

2}, József Prokisch³, Hassan El-Ramady^{3

7}, Áron Béni²

Affiliations

¹ Doctoral School of Nutrition and Food Science, University of Debrecen, 4032 Debrecen, Hungary.
² Institute of Agricultural Chemistry and Soil Science, Faculty of Agricultural and Food Sciences and Environmental Management, University of Debrecen, 138 Böszörményi Street, 4032 Debrecen, Hungary.
³ Institute of Animal Science, Faculty of Agricultural and Food Sciences and Environmental Management, Biotechnology and Nature Conservation, University of Debrecen, 138 Böszörményi Street, 4032 Debrecen, Hungary.
⁴ Institute of Life Sciences, Vietnam Academy of Science and Technology, 9/621 Vo Nguyen Giap Street, Linh Trung Ward, Thu Duc City 721400, Ho Chi Minh, Vietnam.
⁵ Institute of Nutrition, Doctoral School of Nutrition and Food Science, Faculty of Agricultural and Food Sciences and Environmental Management, University of Debrecen, 138 Böszörményi Street, 4032 Debrecen, Hungary.
⁶ Doctoral School of Animal Husbandry, Faculty of Agricultural and Food Sciences and Environmental Management, University of Debrecen, Böszörményi Street 138, 4032 Debrecen, Hungary.
⁷ Soil and Water Department, Faculty of Agriculture, Kafrelsheikh University, Kafr El-Sheikh 33516, Egypt.

PMID: 40807593
PMCID: PMC12346007
DOI: 10.3390/foods14152657

Abstract

The global food industry is facing growing pressure to enhance food safety, extend shelf life, minimize waste, and adopt environmentally sustainable packaging solution. Nanotechnology offers innovative ways to meet these demands by enabling the creation of smart and sustainable food packaging systems. Due to their unique properties, nanomaterials can significantly enhance the functional performance of packaging by boosting mechanical strength, barrier efficiency, antimicrobial activity, and responsiveness to environmental stimuli. This review provides a comprehensive overview of nanomaterials used as smart and sustainable food packaging, focusing on their role in active and intelligent packaging systems. By integrating nanomaterials like metal and metal oxide nanoparticles, carbon-based nanostructures, and nano-biopolymers, packaging can now perform real-time sensing, spoilage detection, and traceability. These systems improve food quality management and supply chain transparency while supporting global sustainability goals. The review also discusses potential risks related to nanomaterials' migration, environmental impact, and consumer safety, as well as the current regulatory landscape and limitations in industrial scalability. Emphasis is placed on the importance of standardized safety assessments and eco-friendly design to support responsible innovation. Overall, nano-enabled smart packaging represents a promising strategy for advancing food safety and sustainability. Future developments will require collaboration across disciplines and robust regulatory frameworks to ensure the safe and practical application of nanotechnology in food systems.

Keywords: active and intelligent packaging; circular economy; food safety; food system.

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Conflict of interest statement

The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.

Figures

**Figure 4**
Advantages of the application of nanotechnology in food packaging.

**Figure 1**
Types of smart food packaging and their key features for food preservation.

**Figure 2**
Nano-enabled sensing technologies in smart food packaging and their primary function.

**Figure 3**
Primary categories of nanomaterials commonly used in nano-smart packaging.

**Figure 5**
Green sources for food packaging nanomaterials.

**Figure 6**
The role of nanotechnology in the future of food packaging.

See this image and copyright information in PMC

References

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Nanomaterials for Smart and Sustainable Food Packaging: Nano-Sensing Mechanisms, and Regulatory Perspectives

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Nanomaterials for Smart and Sustainable Food Packaging: Nano-Sensing Mechanisms, and Regulatory Perspectives

Authors

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Abstract

Conflict of interest statement

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References

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