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References
|
Alcántara-Zavala AE, Figueroa-Cárdenas JD, Pérez-Robles JF, Arámbula-Villa G, Miranda-Castilleja DE (2021). Thermosonication as an alternative method for processing, extending the shelf life, and conserving the quality of pulque: A non-dairy Mexican fermented beverage. Ultrasonics Sonochemistry 70:105290. |
|
|
Alhendi A, Yang W, Goodrich-Schneider R, Sarnoski PJ (2017). Inactivation of lipoxygenase in soymilk by pulsed light. International Journal of Food Engineering 13(12):1-12. |
|
|
Amitabh A, Kashyap V, Kumar M, Kumari A, Kumar V (2017). Effect of ohmic heating on processing of soymilk in comparison to conventional process. International Journal of Current Microbiology and Applied Sciences 6(12):2918-2926. |
|
|
Ampofo J, Ngadi M (2022). Ultrasound-assisted processing: Science, technology and challenges for the plant-based protein industry. Ultrasonics Sonochemistry 84:105955. |
|
|
Andrés V, Mateo-Vivaracho L, Guillamón E, Villanueva MJ, Tenorio MD (2016). High hydrostatic pressure treatment and storage of soy-smoothies: Colour, bioactive compounds and antioxidant capacity. LWT-Food Science and Technology 69:123-130. |
|
|
Atalar I, Gul O, Saricaoglu FT, Besir A, Gul LB, Yazici F (2019). Influence of thermosonication (TS) process on the quality parameters of high pressure homogenized hazelnut milk from hazelnut oil by-products. Journal of Food Science and Technology 56(3):1405-1415. |
|
|
Cui HY, Niranjana Murthy H, Moh SH, Cui YY, Lee EJ, Paek KY (2014). Comparison of conventional and ultrasound-assisted methods for extraction of nutraceutical compounds from Dendrobium candidum. CYTA - Journal of Food 12(4):355-359. |
|
|
Dolas R, Saravanan C, Kaur BP (2019). Emergence and era of ultrasonic's in fruit juice preservation: A review. Ultrasonics Sonochemistry 58:104609. |
|
|
Hao Z, Zhang X, Peng X, Shi X, Wang R, Guo S (2023). Identification of the key off-flavor odorants for undesirable spoiled odor in thermally sterilized fermented soymilk. Food Research International 164:112407. |
|
|
Islam MN, Zhang M, Adhikari B (2014). The inactivation of enzymes by ultrasound-a review of potential mechanisms. Food Reviews International 30(1):1-21. |
|
|
Jabbar S, Abid M, Hu B, Hashim MM, Lei S, Wu T, Zeng X (2015). Exploring the potential of thermosonication in carrot juice processing. Journal of Food Science and Technology 52(11):7002-7013. |
|
|
Ji GZ, Li XM, Dong Y, Shi YD (2022). Composition, formation mechanism, and removal method of off-odor in soymilk products. Journal of Food Science 87(12):5175-5190. |
|
|
Khadhraoui B, Ummat V, Tiwari BK, Fabiano-Tixier AS, Chemat F (2021). Review of ultrasound combinations with hybrid and innovative techniques for extraction and processing of food and natural products. Ultrasonics Sonochemistry 76:105625. |
|
|
Kubo MTK, Reis BHG, Sato LNI, Gut JAW (2021). Microwave and conventional thermal processing of soymilk: Inactivation kinetics of lipoxygenase and trypsin inhibitors activity. LWT 145:111275. |
|
|
Kumar R, Kumar A, Jayachandran LE, Rao PS (2021). Sequential Microwave - Ultrasound assisted extraction of soymilk and optimization of extraction process. LWT 151:112220. |
|
|
Kwok KC, Liang HH, Niranjan K (2002). Optimizing conditions for thermal processes of soy milk. Journal of Agricultural and Food Chemistry 50(17):4834-4838. |
|
|
Kwok KC, Niranjan K (1995). Review: Effect of thermal processing on soymilk. International Journal of Food Science and Technology 30(3):263-295. |
|
|
Lampi AM, Yang Z, Mustonen O, Piironen V (2020). Potential of faba bean lipase and lipoxygenase to promote formation of volatile lipid oxidation products in food models. Food Chemistry 311:125982. |
|
|
Li YQ, Chen Q, Liu XH, Chen ZX (2008). Inactivation of soybean lipoxygenase in soymilk by pulsed electric fields. Food Chemistry 109(2):408-414. |
|
|
Maghsoudlou Y, Alami M, Mashkour M, Shahraki MH (2016). Optimization of ultrasound-assisted stabilization and formulation of almond milk. Journal of Food Processing and Preservation 40(5):828-839. |
|
|
Manzoor MF, Xu B, Khan S, Shukat R, Ahmad N, Imran M, Rehman A, Karrar E, Aadil RM, Korma SA (2021). Impact of high-intensity thermosonication treatment on spinach juice: Bioactive compounds, rheological, microbial, and enzymatic activities. Ultrasonics Sonochemistry 78:105740. |
|
|
Oladunjoye AO, Adeboyejo FO, Okekunbi TA, Aderibigbe OR (2021). Effect of thermosonication on quality attributes of hog plum (Spondias mombin L.) juice. Ultrasonics Sonochemistry 70:105316. |
|
|
Ribeiro MM, Valdramidis VP, Nunes CA, Souza VR (2017). Synergistic effect of thermosonication to reduce enzymatic activity in coconut water. Innovative Food Science and Emerging Technologies 41:404-410. |
|
|
Rodríguez-Rico D, Sáenz-Esqueda MÁ, Meza-Velázquez JA, Martínez-García JJ, Quezada-Rivera JJ, Umaña MM, Minjares-Fuentes R (2022). High-intensity ultrasound processing enhances the bioactive compounds, antioxidant capacity and microbiological quality of melon (Cucumis melo) juice. Foods 11(17):2648. |
|
|
Rodríguez-Roque MJ, Rojas-Graü MA, Elez-Martínez P, Martín-Belloso O (2013). Soymilk phenolic compounds, isoflavones and antioxidant activity as affected by in vitro gastrointestinal digestion. Food Chemistry 136(1):206-212. |
|
|
Salve AR, Pegu K, Arya SS (2019). Comparative assessment of high-intensity ultrasound and hydrodynamic cavitation processing on physico-chemical properties and microbial inactivation of peanut milk. Ultrasonics Sonochemistry 59:104728. |
|
|
Tian ZM, Wan MX, Wang SP, Kang JQ (2004). Effects of ultrasound and additives on the function and structure of trypsin. Ultrasonics Sonochemistry 11(6):399-404. |
|
|
Tiwari BK, Mason, TJ (2011). Ultrasound Processing of Fluid Foods. In Novel Thermal and Non-Thermal Technologies for Fluid Foods chapter 6:135-165 Elsevier Incorporated. |
|
|
Vagadia BH, Vanga SK, Singh A, Gariepy Y, Raghavan V (2018). Comparison of conventional and microwave treatment on soymilk for inactivation of trypsin inhibitors and in vitro protein digestibility. Foods 7(1):6. |
|
|
Vallath A, Shanmugam A (2022). Study on model plant based functional beverage emulsion (non-dairy) using ultrasound - A physicochemical and functional characterization. Ultrasonics Sonochemistry 88:106070. |
|
|
Wang Y, Wang Y, Luan D (2023). Thermal degradation characteristics of amino acids in rainbow trout fillets during traditional high temperature short time processing and microwave processing. Journal of Food Measurement and Characterization 17(2):1940-1952. |
|
|
Xu B, Feng M, Chitrakar B, Cheng J, Wei B, Wang B, Zhou C, Ma H (2023). Multi-frequency power thermosonication treatments of clear strawberry juice: Impact on color, bioactive compounds, flavor volatiles, microbial and polyphenol oxidase inactivation. Innovative Food Science and Emerging Technologies 84:103295. |
|
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