Ask Nina Rose – What is Spherification?

nina-rose_01It’s Molecular March here at Fante’s!  This week we’ve asked Nina Rose to give a little background on Spherification. 

Frozen Reverse SpherificationAside from foams, one of the most popular and well-known textures used in molecular gastronomy and modernist cuisine are spheres.

To be more specific, a sphere comprised of a thin, jellied outer membrane with a liquid center that pops in your mouth when eaten. Sometimes these spheres can be called different names depending on their size and shape, from tiny “caviar” or “pearls” to large “ravioli” or “eggs.”

The method of creating these forms is called spherification (or reverse spherification, but I’ll get to that later).

So what is spherification?

Basic SpherificationBasic spherification is when you take your liquid ingredient (juice, broth, etc), mix it with sodium alginate (a gelling agent derived from algae) and drop that mixture into a bath of purified water and calcium salts (calcium lactate and calcium chloride are commonly used).

When the sodium alginate mixture comes in contact with the calcium bath, the reaction between the two additives causes a flexible gelled outer coating to form, while leaving the center of the droplet in it’s liquid state. The spheres are then removed from the calcium bath and “rinsed” in a bath of purified water and served immediately.

Spheres made using this basic technique must be eaten right away, because they will continue to gel down to the center, leaving a firm jelly ball without the explosion! This method does result in a very thin membrane (when eaten immediately), which many find pleasing because less pressure is use to create that fun pop in your mouth. There are many recipes for smaller spheres that call for basic spherification because the spheres won’t stick to each other and can be piled up to resemble a lovely heap of caviar!

Reverse SpherificationReverse spherification is another way of making these fun molecular treats. This time, the liquid ingredient is mixed with the calcium salt and dropped into a bath of purified water and sodium alginate, and again rinsed in purified water.

Although basic and reverse spherification both result in a gelled outer membrane and liquid center, there are a few characteristics that differ between the two.

Where in basic spherification the spheres must be eaten immediately, in reverse spherification the gelling reaction stops as soon as they are lifted from their bath, leaving a stable sphere that won’t turn into jelly throughout the entire form. This allows you to make them in advanced, where prep time may be an issue.

Another benefit to reverse spherification is that it is less sensitive to acidic pH levels, alcohol and calcium in the ingredients used, where you may run into problems achieving perfect results when using the basic method.

Many larger spheres are made using the reverse method in conjunction with other additives like Xanthan Silicone Dome MoldsGum, which helps large forms keep their shape without bursting open at the slightest touch. You may even find it easy to freeze your calcium mixture in a silicone dome mold, pop them out and let them thaw in the sodium alginate bath to create that perfect round form which can be challenging with oval-shaped spoons.

It can be very helpful to have a precision scale when working with these ingredients due to their potency in small amounts, but companies like Molecule-R and Biozoon have formulated their products for ease of use in home kitchens. Molecule-R provides small portion packs of the raw ingredients to just tear open and use, while Biozoon created an additive blend with maltodextrin (derived from potato starch) that is measured out with dosing spoons (allowing the user to work by volume instead of weight).

Caviar Box My favorite tool for making those perfect little caviar spheres is the 96-Port Caviar Maker, which allows you to drop 96 spheres in less than 10 seconds, as opposed to using individual pipettes and making them one at a time.

Simply pour your mixture into the tray, pull the liquid up into the syringe and press down the plunger of the syringe, holding the ports on the box over the surface of the bath to dispense. To make large spheres, pour your mixture into a spoon then gently submerge into the bath. Carefully flip the sphere a few times while it’s submerged — this will help keep the shape round and allow the bath to create an even gelling around the entire form.

Although spherification techniques aren’t commonly used in most home kitchens, the tools and additives are becoming much more readily available in specialty stores and online, and even shown on TV. So if you’re feeling adventurous, and have always wanted to try a little science in the kitchen, make some spheres!

-Nina Rose

Molecular Gastronomy Tools


2 Comments on “Ask Nina Rose – What is Spherification?”

  1. Babak says:

    Hi I wanted to make spheres that I could use as a filling in cakes and I was curious as to how long the sphere can be outside of a liquid before they could be served served?

    • Hi, and thanks for your question! It depends on what type of spherification method you are using; spherification must be eaten right away because the gelling process continues even after you remove it from the bath, and will result in a firm gel ball with no “pop.” Reverse spherification can be used in advanced preparation and can be served hours later with the “pop” you’re looking for. If you’re looking to fill a cake with these spheres, just be sure not to place anything heavy on top of them (like another layer of cake) because the pressure will cause them to explode. You may want to just core a cupcake, fill with spheres and use frosting on top.The frosting may not be as heavy as cake (depending on the frosting you choose), and will serve to cover the spheres so you’ll get that fun surprise when you go to eat the cake :) Good luck and let me know if you have any further questions!! -Nina Rose


Leave a Reply

Fill in your details below or click an icon to log in:

WordPress.com Logo

You are commenting using your WordPress.com account. Log Out / Change )

Twitter picture

You are commenting using your Twitter account. Log Out / Change )

Facebook photo

You are commenting using your Facebook account. Log Out / Change )

Google+ photo

You are commenting using your Google+ account. Log Out / Change )

Connecting to %s

Follow

Get every new post delivered to your Inbox.

Join 31 other followers