Reverse spherification

The left showing a typical product obtained from Direct Spherification, while the right showing a typical product of Reverse Spherification.

Reverse spherification is a method of molecular gastronomy. This method is similar to spherification, different by that it is used to enclose liquid containing alcohol content, as well as liquid with calcium content such as milk and yogurt. When the liquid containing alcohol or calcium salt got dropped into an alginate bath, the liquid will draw itself into a spherical shape and got encapsulated by the gel-like membrane formed by the cross-linking of the calcium ions and the alginate polymer strands.[1] Larger spheres can be created using reverse spherification. After removing the jelly from the alginate bath, calcium would not continue to diffuse into the center of the sphere, therefore would not create a gel center.[2] Longer storage time could be obtained for this product accordingly.

Both the liquid for consumption and the alginate bath should be left to stand after preparing to eliminate air bubbles. Air bubbles inside the liquid could result in the inability of the flavourful liquid to sink when dropping into the alginate bath, creating uneven skin and weak spots in the skin.[3]

Important factors for Reverse Spherification

Yogurt with its high calcium content, is an example of a liquid that can be used for Reverse Spherification.

There are two factors that need to be or can be adjusted for successful Reverse Spherification; The amount of free calcium ion and density of the liquid to be made for spherification. The amount of free calcium ion needs to be sufficient in order to form a gel-like capsule reaction with Sodium Alginate. Milk based product such as cream, yogurt or milk already has a sufficient amount of calcium. However, conducting reverse spherification with a liquid containing deficiency in calcium ion concentration, calcium salt could be added to the liquid; for example, calcium lactate gluconate could be added to a liquid to produce a 2% concentration in the liquid[4] creating an effective solution for conducting reverse spherification. Calcium ion from calcium lactate is responsible for providing a gelling process without increasing the pH of the food to be too high and the gel will not melt once heating.[5] Secondly, the density of the liquid need to be adjusted in order to allow the sufficient surface tension to form a spherical shape of this desired method.[4] Xanthan gum can be used in order to increase the viscosity of the liquid. Usually, the concentration of Xanthan Gum ranges between 0.2% and 0.5%.[4]

References

  1. "Cross-linking polymers – alginate worms" (PDF). Royal Society of Chemistry. Retrieved 2 June 2017.
  2. "Spherification (direct and reverse)". scienceandcooking.seas.harvard.edu. Retrieved 2 June 2017.
  3. "ChefSteps". www.chefsteps.com. Retrieved 2 June 2017.
  4. 1 2 3 "Reverse Spherification". Molecular Recipes. 2010-09-26. Retrieved 2017-06-15.
  5. Cuisine Innovation. "Calcium salt (E327)".


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