Willett, W. et al. Food in the anthropocene: the EAT–Lancet commission on healthy diets from sustainable food systems. Lancet 393, 447–492 (2019).
Dhir, B. & Singla, N. Consumption pattern and health implications of convenience foods: a practical review. Curr. J. Appl. Sci. Technol. 38, 1–9 (2020).
Mezzenga, R., Schurtenberger, P., Burbidge, A. & Michel, M. Understanding foods as soft materials. Nat. Mater. 4, 729–740 (2005).
Borges, S., Brassesco, M. E., Cunha, S. A., Coscueta, E. R. & Pintado, M. in Enzymatic Processes for Food Valorization (eds Chávez González, M. L. et al.) 265–284 (Elsevier, 2024).
Pouliot, Y., Conway, V. & Leclerc, P. L. in Food Processing: Principles and Applications (eds Clark, S. et al.) 33–60 (Wiley Blackwell, 2014).
Fotschki, J., Ogrodowczyk, A. M., Wróblewska, B. & Juśkiewicz, J. Side streams of vegetable processing and its bioactive compounds support microbiota, intestine milieu, and immune system. Molecules 28, 4340 (2023).
Dwyer, J. T. et al. Fortification and health: challenges and opportunities. Adv. Nutr. 6, 124–131 (2015).
Jang, J. & Lee, D. W. Advancements in plant based meat analogs enhancing sensory and nutritional attributes. npj Sci. Food 8, 50 (2024).
Zhang, X., Zhang, T., Zhao, Y., Jiang, L. & Sui, X. Structural, extraction and safety aspects of novel alternative proteins from different sources. Food Chem. 436, 137712 (2024).
Park, S. H., Lamsal, B. P. & Balasubramaniam, V. M. in Food Processing: Principles and Applications (eds Clark, S. et al.) 1–15 (Wiley Blackwell, 2014).
Toivonen, P. M. A. & Brummell, D. A. Biochemical bases of appearance and texture changes in fresh-cut fruit and vegetables. Postharvest Biol. Technol. 48, 1–14 (2008).
Rani, H. & Bhardwaj, R. D. Quality attributes for barley malt: “the backbone of beer”. J. Food Sci. 86, 3322–3340 (2021).
Avezum, L. et al. Improving the nutritional quality of pulses via germination. Food Rev. Int. 39, 6011–6044 (2023).
Pointner, T. et al. Comprehensive analysis of oxidative stability and nutritional values of germinated linseed and sunflower seed oil. Food Chem. 454, 139790 (2024).
Miyahira, R. F. & Antunes, A. E. C. Bacteriological safety of sprouts: a brief review. Int. J. Food Microbiol. 352, 109266 (2021).
Bilirgen, A. C. et al. Plant-based scaffolds in tissue engineering. ACS Biomater. Sci. Eng. 7, 926–938 (2021).
Ansari, Z. & Goomer, S. Natural gums and carbohydrate-based polymers: potential encapsulants. Indo Global J. Pharm. Sci. 12, 1–20 (2022).
Ghazani, S. M. et al. Oleosome interfacial engineering to enhance their functionality in foods. Curr. Res. Food Sci. 8, 100682 (2024).
Czapalay, E. S., Soleimanian, Y., Stobbs, J. A. & Marangoni, A. G. Plant tissue-based scaffolds filled with oil function as adipose tissue mimetics. Curr. Res. Food Sci. 10, 101002 (2025).
Steinkraus, K. H. Nutritional significance of fermented foods. Food Res. Int. 27, 259–267 (1994).
Ray, R. C. et al. in Trending Topics on Fermented Foods (eds Martin, J. G. P. et al.) 1–57 (Springer, 2024).
Castro-Alba, V. et al. Fermentation of pseudocereals quinoa, canihua, and amaranth to improve mineral accessibility through degradation of phytate. J. Sci. Food Agric. 99, 5239–5248 (2019).
Carrau, F., Boido, E. & Ramey, D. Yeasts for low input winemaking: microbial terroir and flavor differentiation. Adv. Appl. Microbiol. 111, 89–121 (2020).
Bravo-Núñez, Á., Golding, M., Gómez, M. & Matia-Merino, L. Emulsification properties of garlic aqueous extract: effect of heat treatment and pH modification. Foods 12, 3721 (2023).
Buhl, T. F., Christensen, C. H. & Hammershøj, M. Aquafaba as an egg white substitute in food foams and emulsions: protein composition and functional behavior. Food Hydrocoll. 96, 354–364 (2019).
Mishra, K. Foam Formation and Processing of Glyceride Melt Suspensions with Crystal Fraction for Additive Manufacturing Applications. PhD thesis, ETH Zürich (2021).
Lammers, V. R. G. A Novel Technology to Tailor Foam Structure in Gluten-Free Bakery Product Systems. PhD thesis, ETH Zürich (2016).
Koller, C. High-Pressure Micro-Foaming of Fat-Continuous Confectionery Systems. PhD thesis, ETH Zürich (2015).
Oliveira, L. C., Schmiele, M. & Steel, C. J. Development of whole grain wheat flour extruded cereal and process impacts on color, expansion, and dry and bowl-life texture. LWT 75, 261–270 (2017).
Liu, C. et al. Preparation, physicochemical and texture properties of texturized rice produce by improved extrusion cooking technology. J. Cereal Sci. 54, 473–480 (2011).
Ullah, I. et al. Influence of okara dietary fiber with varying particle sizes on gelling properties, water state and microstructure of tofu gel. Food Hydrocoll 89, 512–522 (2019).
Fox, P. F. Proteolysis during cheese manufacture and ripening. J. Dairy Sci. 72, 1379–1400 (1989).
Park, S. H., Na, Y., Kim, J., Kang, S. D. & Park, K. H. Properties and applications of starch modifying enzymes for use in the baking industry. Food Sci. Biotechnol. 27, 299–312 (2018).
Nicholson, R. A. & Marangoni, A. G. Enzymatic glycerolysis converts vegetable oils into structural fats with the potential to replace palm oil in food products. Nat. Food 1, 684–692 (2020).
Frias, J., Peñas, E. & Martinez-Villaluenga, C. in Fermented Foods in Health and Disease Prevention (eds Frias, J. et al.) 385–416 (Elsevier, 2017).
Wollstonecroft, M. M. Investigating the role of food processing in human evolution: a niche construction approach. Archaeol. Anthropol. Sci. 3, 141–150 (2011).
Beane, K. E. et al. Effects of dietary fibers, micronutrients, and phytonutrients on gut microbiome: a review. Appl. Biol. Chem. 64, 36 (2021).
Prückler, M. et al. Comparison of homo- and heterofermentative lactic acid bacteria for implementation of fermented wheat bran in bread. Food Microbiol. 49, 211–219 (2015).
Meignen, B. et al. Optimization of sourdough fermentation with Lactobacillus brevis and baker’s yeast. Food Microbiol. 18, 239–245 (2001).
Dobson, S. & Marangoni, A. G. Methodology and development of a high-protein plant-based cheese alternative. Curr. Res. Food Sci. 7, 100632 (2023).
Harper, A. R., Dobson, R. C. J., Morris, V. K. & Moggré, G. J. Fermentation of plant-based dairy alternatives by lactic acid bacteria. Microb. Biotechnol. 15, 1404–1421 (2022).
Guinee, T. in Advanced Dairy Chemistry Vol. 1B (eds McSweeney, P. & O’Mahony, J.) 347–415 (Springer, 2016).
Hinrichs, J. Incorporation of whey proteins in cheese. Int. Dairy J. 11, 495–503 (2001).
Joo, K. H., Kerr, W. L. & Cavender, G. A. The effects of okara ratio and particle size on the physical properties and consumer acceptance of tofu. Foods 12, 3004 (2023).
Mishra, K. et al. Valorization of cocoa pod side streams improves nutritional and sustainability aspects of chocolate. Nat. Food 5, 423–432 (2024).
Buican, B. C., Colibaba, L. C., Luchian, C. E., Kallithraka, S. & Cotea, V. V. “Orange” wine—the resurgence of an ancient winemaking technique: a review. Agriculture 13, 1750 (2023).
Pswarayi, F. & Gänzle, M. African cereal fermentations: a review on fermentation processes and microbial composition of non-alcoholic fermented cereal foods and beverages. Int. J. Food Microbiol. 378, 109815 (2022).
Houngbédji, M. & Jespersen, J. S. Wilfrid Padonou, S. & Jespersen, L. Cereal-based fermented foods as microbiota-directed products for improved child nutrition and health in sub-Saharan Africa. Crit. Rev. Food Sci. Nutr. 65, 3422–3443 (2025).