Role of the polyphenol content on the structuring behavior of liposoluble gelators in extra virgin olive oil.
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[1] Artur J. Martins,et al. Gelation Behavior and Stability of Multicomponent Sterol-Based Oleogels , 2022, Gels.
[2] Guo Ruihua,et al. Comprehensive evaluation of saturated monoglycerides for the forming of oleogels , 2021 .
[3] M. L. Clodoveo,et al. Oleogelation of extra virgin olive oil by different oleogelators affects the physical properties and the stability of bioactive compounds. , 2021, Food chemistry.
[4] Dejian Huang,et al. Formation, structural characteristics and physicochemical properties of beeswax oleogels prepared with tea polyphenol loaded gelators. , 2021, Food & function.
[5] Goly Fayaz,et al. Structural and rheological properties of medium‐chain triacylglyceride oleogels , 2020, International Journal of Food Science & Technology.
[6] P. Lucci,et al. Effect of the Refining Process on Total Hydroxytyrosol, Tyrosol, and Tocopherol Contents of Olive Oil , 2020, Foods.
[7] P. Lucci,et al. Effect of different oleogelators on lipolysis and curcuminoid bioaccessibility upon in vitro digestion of sunflower oil oleogels. , 2020, Food chemistry.
[8] M. Nicoli,et al. Comparative Study on the Ability of Different Oleogelators to Structure Sunflower Oil , 2019, Food Biophysics.
[9] Artur J. Martins,et al. Sterol-based oleogels' characterization envisioning food applications. , 2019, Journal of the science of food and agriculture.
[10] P. Pittia,et al. Ethylcellulose oleogels with extra virgin olive oil: the role of oil minor components on microstructure and mechanical strength , 2018, Food Hydrocolloids.
[11] D. Rousseau,et al. Structure and rheology of oleogels made from rice bran wax and rice bran oil. , 2018, Food research international.
[12] Artur J. Martins,et al. Edible oleogels: an opportunity for fat replacement in foods. , 2018, Food & function.
[13] S. A. H. Goli,et al. Potential application of pomegranate seed oil oleogels based on monoglycerides, beeswax and propolis wax as partial substitutes of palm oil in functional chocolate spread , 2017 .
[14] A. Marangoni,et al. Structure and physical properties of oleogels containing peanut oil and saturated fatty alcohols , 2017 .
[15] R. de la Torre,et al. Effect of olive oil phenolic compounds on the expression of blood pressure-related genes in healthy individuals , 2017, European Journal of Nutrition.
[16] M. Nicoli,et al. Influence of oil type on formation, structure, thermal, and physical properties of monoglyceride-based organogel , 2017 .
[17] A. P. Hammersley,et al. FIT2D: a multi-purpose data reduction, analysis and visualization program , 2016 .
[18] Ashok R. Patel,et al. Edible oil structuring: an overview and recent updates. , 2016, Food & function.
[19] L. Hooper,et al. Reduction in saturated fat intake for cardiovascular disease. , 2015, The Cochrane database of systematic reviews.
[20] Koen Dewettinck,et al. Rheological profiling of organogels prepared at critical gelling concentrations of natural waxes in a triacylglycerol solvent. , 2015, Journal of agricultural and food chemistry.
[21] Koen Dewettinck,et al. Evaluating the Oil-Gelling Properties of Natural Waxes in Rice Bran Oil: Rheological, Thermal, and Microstructural Study , 2015 .
[22] E. Yılmaz,et al. The texture, sensory properties and stability of cookies prepared with wax oleogels. , 2015, Food & function.
[23] P. Pittia,et al. Effect of Olive Oil Phenolic Compounds and Maltodextrins on the Physical Properties and Oxidative Stability of Olive Oil O/W Emulsions , 2014, Food Biophysics.
[24] M. Öǧütcü,et al. Oleogels of virgin olive oil with carnauba wax and monoglyceride as spreadable products , 2014 .
[25] M. Nicoli,et al. Effect of Oil Type on Formation, Structure and Thermal Properties of γ-oryzanol and β-sitosterol-Based Organogels , 2014, Food Biophysics.
[26] K. Pal,et al. Castor oil and sorbitan monopalmitate based organogel as a probable matrix for controlled drug delivery , 2013 .
[27] Alejandro G. Marangoni,et al. Organogels: An Alternative Edible Oil-Structuring Method , 2012 .
[28] A. Marangoni,et al. Shear Nanostructuring of Monoglyceride Organogels , 2010 .
[29] E. C. Roijers,et al. Fibrils of γ-Oryzanol + β-Sitosterol in Edible Oil Organogels , 2008 .
[30] I. Ihara,et al. Dielectric properties of edible oils and fatty acids , 2008 .
[31] K. Ahn,et al. Large amplitude oscillatory shear as a way to classify the complex fluids , 2002 .
[32] T. Roisnel,et al. WinPLOTR: A Windows Tool for Powder Diffraction Pattern Analysis , 2001 .
[33] H. Bartsch,et al. The antioxidant/anticancer potential of phenolic compounds isolated from olive oil. , 2000, European journal of cancer.
[34] Ashok R. Patel. Biopolymer-based oleocolloids , 2020 .
[35] Ashok R. Patel,et al. Chemical profiling of the major components in natural waxes to elucidate their role in liquid oil structuring. , 2017, Food chemistry.
[36] Clinton N. Jenkins,et al. FIU Digital Commons FIU Digital Commons The impacts of oil palm on recent deforestation and biodiversity The impacts of oil palm on recent deforestation and biodiversity loss loss , 2022 .