Molecular gastronomy is an experimental style of cooking that uses scientific principles to explore new culinary techniques and combinations. It was pioneered in the early 2000s by chefs like Ferran Adria of El Bulli, who developed techniques like spherification to transform and enhance ingredients in surprising new ways. While some see it as overly technical or inaccessible, proponents believe molecular gastronomy opens up new possibilities for taste, texture, and dining experiences. Key tools include vacuum sealers, syringes, and liquid nitrogen, but the goal is to revolutionize cooking through experimentation and creativity rather than relying on specialized equipment.

1. En | Chef Tamer
FERRAN
ADRIAN
MODERN MOLECULAR
GASTRONOMY

2. Molecular gastronomy or molecular cuisine is
the science of cooking but it is commonly used
to describe a new style of cuisine in which
chefs explore new culinary possibilities in the
kitchen by embracing sensory and food
science, borrowing tools from the science lab
and ingredients from the food industry and
concocting surprise after surprise for their
diners. Formally, the term molecular
gastronomy refers to the scientific discipline that studies the physical and
chemical processes that occur while cooking. Molecular gastronomy seeks
to investigate and explain the chemical reasons behind the transformation
of ingredients, as well as the social, artistic and technical components of
culinary and gastronomic phenomena in general. The term Molecular
Gastronomy was born in 1992 (complete history on this post
Many of these modern chefs do not accept the term molecular
gastronomy to describe their style
of cooking and prefer other terms like "modern cuisine", "modernist
cuisine", "experimental cuisine" or "avant-garde cuisine". Heston
Blumenthal says molecular gastronomy makes cuisine sound elitist and
inaccessible, as though you need a BSc to enjoy it. In the end, molecular
gastronomy or molecular cuisine - or whatever you want to call this cooking
style - refers to experimental restaurant cooking driven by the desire of
modern cooks to explore the world's wide variety of ingredients, tools and
techniques. Molecular gastronomy science research starts in the kitchen

3. and the learnings of how food tastes and behaves enable these chefs to
cook with it and discover new sensory pleasures with it.
Molecular gastronomy experiments have resulted in new innovative dishes
like hot gelatins, airs, faux caviar, spherical ravioli, crab ice cream and olive
oil spiral. Ferran Adria from El Bulli restaurant used alginates to create his
system of spherification which gelled spheres that literally burst in your
mouth. Heston Blumenthal from The Fat Duck restaurant applied the
learning’s of the ability of fat to hold flavor to create a dish that had three
flavors -basil, olive and onion - and each of them was perceived in turn. The
potential of molecular gastronomy is enormous. It is revolutionizing
traditional cooking and transforming eating into a whole new emotional
and sensory experience.
When people hear molecular
gastronomy or molecular cuisine for the first time they often mistakenly
view it as unhealthy, synthetic, chemical, dehumanizing and unnatural. This
is not surprising given that molecular gastronomy often relies on fuming
flasks of liquid nitrogen, led-blinking water baths, syringes, tabletop
distilleries, PH meters and shelves of food chemicals with names like
carrageenan, maltodextrin and xanthan. My wife's first reaction when I
surprised her with a liquid pea spherical raviolo was to say "Can I eat this?
Is this safe? Why don't you try it first?”
The truth is that the "chemicals" used in molecular gastronomy are all of
biological origin. Even though they have
been purified and some of them processed,
the raw material origin is usually marine,
plant, animal or microbial. These additives
are also used in very, very small amounts
and have been approved by EU standards.
And the science lab equipment used just
helps modern gastronomy cooks to do

4. simple things like maintaining the temperature of the cooking water
constant (water bath) , cooling food at extremely low temperatures fast
(liquid nitrogen) or extract flavor from food (evaporator). There is still some
debate out there about the healthiness of molecular gastronomy but I
personally believe there are other bigger health issues in everyday food we
consume. In the end, you are not going to be eating liquid pea spheres
every day anyway.
If you are passionate about cooking, have a
creative mind and at the same time you are analytical and logical,
molecular gastronomy is most likely going to become your passion.
Molecular gastronomy cooking requires a good use of your left brain and
right brain. Most of the molecular cuisine recipes need to be followed
precisely. More than often, steps need to be followed in a very specific
sequence or the whole dish will be a disaster. Quantities are measured in
fractions of a gram or fractions of a percentage. Slight variations in food
acidity levels could be disastrous for some dishes like a learned when
making caviar for the first time as I replaced melon with pomegranate. At
the same time, molecular gastronomy is about experimenting, being
curious, using intuition, playing with emotions and creating a multi-sensory
dining experience with artistic dish presentations, textures, aromas, flavors
and even sounds. The plate is your canvas! Or do you need a plate? How
about serving soup in a tea cup or a sphere in a bended spoon or a salad in
a parmesan basket or a brochette on a titanium mesh? Ok, maybe the

5. titanium mesh is too much. Let's leave this for the expensive molecular
gastronomy restaurants.
If you are not a professional chef with a fully equipped kitchen you can still
enjoy molecular gastronomy at home and without spending too much
money. Many molecular cuisine recipes don't even require especial
equipment or "chemicals". Even with as little as $50 you can get some basic
molecular gastronomy substances to start making spheres, airs and gels. Of
course, cooking with liquid nitrogen is a different story even though it is
totally doable at home but you'll have to spend about $500 and carefully
follow some safety procedures not to injure yourself or your loved ones.
The major challenge is going to be finding good molecular cuisine recipes
with complete detailed explanations, learning the basic principles behind
each recipe so you can be creative and come up with your own dishes and
finding good pictures of finished dishes so you know how they are
supposed to look. It seems like molecular gastronomy chefs don't want to
share their secrets completely and they just give you a truncated version of
the recipe.
That's why I created this molecular gastronomy
website with recipes that I or my readers have
tried at home and modified as necessary, tips
and techniques to get the best results with
molecular recipes and successfully create your
own signature dishes, affordable ways of
acquiring or substituting molecular gastronomy
equipment and substances and beautiful pictures of finished dishes to
inspire your creativity. I welcome professional chefs, amateur cooks and
scientists to use this molecular gastronomy website to collaborate in
building this community to make molecular gastronomy more accessible
and affordable to everyone. People should not be deprived of the multi
sensory pleasures of molecular gastronomy.
His spherification technique was introduced by el Bulli in 2003. It consists of
a controlled jellification of a liquid which forms spheres when submerged in
a bath. The spheres can be made of different sizes and have been given
names like caviar, eggs, gnocchi and ravioli. The resulting spheres have a

6. thin membrane and are filled with the original liquid. A slight pressure of
the mouth on the sphere makes them burst and release an amazing
explosion of flavor. The spheres are flexible and can be carefully
manipulated. It is possible to introduce solid elements in the sphere which
will remain in suspension in the liquid giving the possibility of introducing
multiple flavors and textures in one preparation.
There are two main kinds of spherification techniques and each of them has
its advantages and disadvantages which make them more suitable for
certain recipes. The Basic Spherification technique consists of submerging a
liquid with sodium alginate in a bath of calcium.
The Reverse Spherification technique consists of submerging a liquid with a
mixture of calcium gluconate and calcium lactate in a bath of sodium
alginate. There are also a couple of other spherification techniques which
consist of instant jelling by immersing the liquid in cold oil or liquid
nitrogen.
Basic Spherification
The Basic Spherification technique is ideal for obtaining spheres with a
very, very thin membrane that is almost imperceptible in your mouth. It
results in a sphere that easily explodes in your mouth as if there is no solid
substance between your palate and the liquid. The main problem of this
technique is that once the sphere is removed from the calcium bath, the
process of jellification continues even after rinsing the sphere with water.
This means that the spheres need to be served immediately or they would
convert into a compact gel ball with no magical liquid inside. The other
issue of this technique is that jellification does not occur if the liquid acidity
is high (PH<5) but this can be corrected by adding sodium citrate to the
liquid to reduce the acidity level before the spherification process.
Examples of Basic Spherification are "Spherical Mango Ravioli" and "Liquid
Pea Ravioli" (shown below). Learn more about Basic Spherification.

7. Reverse Spherification
The technique of Reverse Spherification is much more versatile than Basic
Spherification as it can make spheres with almost any product. It is best for
liquids with high calcium content or alcohol content. Contrary to the
spheres made with the Basic Spherification process, these spheres have a
thicker membrane and are long-lasting as the process of jellification can be
stopped when the sphere is removed from the sodium alginate bath and
rinsed with water. Thanks to these characteristics, the Reverse
Spherification spheres can be manipulated more easily and can be used in
more ways (for example as fillings in sponge cakes or mousses, in cocktails
or can even be macerated in aromatized olive oil for a few days). Examples
of Reverse Spherification are "Yoghurt Spheres", "Liquid Mozzarella
Spheres" and "Spherical Olives" (shown below). Learn more about Reverse
Spherification.
He Spherification technique was introduced at el Bulli by Ferran Adria in
2003 marking an inflexion point in molecular gastronomy. As many other
molecular gastronomy techniques, spherification was discovered by
working together with a leading company in the food industry and, of
course, the genius of a chef like Ferran Adria and the rest of el Bulli team.
In 2003, Ferran Adria and el Bulli team were visiting a company called
Griffith España to see their installations when they came across a Mexican
sauce that contained little balls in suspension which added acidity and spice
when eaten. This reminded him of a drink he knew that contained little
spheres made by immersing a liquid with sodium alginate in a bath of

8. calcium. In both cases, the spheres were solid and did not have a liquid
filling.
They got a sample of the alginate and when they returned to el Bulli Taller,
the experimentation began. Their first spherification experiment was with
water as the main ingredient and a syringe to form little drops of the
alginate solution. Because they used water in a water bath they couldn’t
see any spheres but when they strained the liquid they discovered that
they had been able to create small balls with liquid inside (now called
caviar). Right after that they tried with a spoon instead of a syringe to
create a larger sphere and now the first “spherical ravioli” was created.
2003 The First Spheres at el Bulli
As we know today, spherification produces
spherical forms of varying textures and
consistencies and several of them were created in
the first year.
Spherical ravioli, filled ravioli, marbles and
miniravioli: the first dish el Bulli team was able to
prepare with spherification was the liquid pea ravioli. They came up with
the name ravioli because they thought the sensation in the mouth was
exactly like ravioli filled with liquid. They then made mango, raspberry and
filled ravioli with Gernika pepper broth and pepper seed filling. El Bulli team
then tried a smaller version of the ravioli called miniravioli and the marbles.
The latter is the same size as the ravioli but with a thicker membrane that
maintains its perfect spherical form when plated and “explodes” in the
mouth.
Spherical caviar and pellets: The team at el Bulli tried different ingredients
for their first caviar dish and the winner was the Cantaloupe melon caviar.
To be able to prepare enough caviar in a reasonable time to serve to
dinners at el Bulli, they created a device with several syringes that could be
pushed at the same time. According to Adria, this was one of the most
exciting times at el Bulli and Cantaloupe melon caviar was the signature
dish of 2003. That year they also created truffle pellets using the

9. spherification technique and macerating them in truffle juice overnight to
intensify the flavor.
Spherical balloons: After being served caviar and spherical ravioli, el Bulli’s
customers were impressed one more time with another variation of the
spherification technique. Spherical balloons are made using the
spherification technique together with another technique developed at el
Bulli using soda siphons. According to el Bulli, this preparation is one of the
most difficult to make. The balloons were made by pouring rose-perfumed
water and sodium alginate into the siphon. Then, using a special adaptor, el
Bulli team activated the siphon over a calcium solution making opaque
spheres. Minute later transparent balloons are formed.
“Spherical” noodles: This was also the year of the first spherical noodles.
The first noodles were created using a syringe filled with a mixture of
lychee-juice and sodium alginate, then tracing zigzagged laces over the
calcium solution, thus producing lychee noodles.
2004 The Evolution of Spherification at el Bulli
It is common to see in molecular
gastronomy that when a new molecular
technique is discovered, chefs keep using
their imagination to apply it in different
ways and come up with variations of the
original technique to develop new
concepts. This is exactly what happened
at el Bulli with spherification in 2004.
Four new ideas emerged.
Spherical filled ravioli: In 2003 el Bulli made filled ravioli but this year with a
frozen liquid inside instead of pepper seeds. This filled ravioli was made by
placing a tablet of frozen lemon juice in the spoon containing tea with
which they went on to form the tea sphere.
Spherical gnocchi: This is basically a sphere made from foam, providing a
unique creamy texture to the sphere filling. This year el Bulli had two

10. versions of it. One was made of pumpkin purée and the other was an
adaptation of the classic potato gnocchi.
2005 el Bulli Creates Inverse Spherification
While el Bulli was serving the first spheres, el
Bulli Taller, the scientific department of the
restaurant, was researching how to modify
the spherification technique to be able to
work with products that already contained
calcium in them. With Basic
Spherification
After multiple unsuccessful experiments to improve the spherification
technique, el Bulli team realized that they could just try a reverse
spherification by inverting the components and inserting a product that
already contained calcium into an alginate bath. This discovery, now
called
this natural calcium would
trigger the jellification process of the liquid
inside the sphere, obviously an unwanted effect.
Reversed Spherification, allowed el Bulli to create spheres with new
ingredients like olives and dairy products for the first time ever. As an extra
bonus (not minor), reverse spherification allowed el Bulli chef’s to detain
the jellification of preparations, something they were unable to control in
basic spherification.
Cooking with Liquid Nitrogen, Vacuum Machines and Syringes
The recipe for liquid olives, which calls for 1.25 grams (0.04 ounces) of
calcium chloride, 200 grams (7 ounces) of green olive juice, 2.5 grams (0.09
ounces) of alginate and 500 grams (18 ounces) of water, sounds more like
the materials list of a high school chemistry experiment and hints at one
important piece of equipment every molecular gastronomist must have:
a scale. A good digital scale is indispensable and can even be used for non
culinary tasks, such as evaluating nutritional content or even calculating
postage.

11. Here are some other tools you might need to master molecular
gastronomy:
• Vacuum machine. Remember the sous vide
•
steak we talked about last
section? If you really want to do the job right, consider a vacuum sealer. A
good model will evacuate the air from plastic bags and then seal the bag
tightly closed. You can also buy a thermal bath to provide precise heating of
your water bath.
Hypodermic syringe
•
. You may shudder at the sight of a needle, but you
may have to overcome your fear if you want to practice molecular
gastronomy. As we've already seen, syringes are helpful in the process of
spherification. Some chefs also use them to inject liquids into meat to
enhance flavor and texture.
Liquid nitrogen. At a temperature of -321 degrees F (-196 degrees C), liquid
nitrogen will flash freeze any food
•
it touches. As it boils away, it gives off a
dense nitrogen fog that can add atmosphere and drama to food
preparation. Unfortunately, liquid nitrogen must be transported in specially
made flasks and can be dangerous if it touches skin. A safer alternative is
the Anti-Griddle, described next.
Anti-Griddle
•
. The Anti-Griddle, a product of Poly Science, looks like a
traditional cook top, but it doesn't heat up food. Its -30 degrees F (-34
degrees C) surface instantly freezes sauces and purées or freezes just the
outer surfaces of a dish while maintaining a creamy center.
The Gastrovac
Of course, you'll need to have a well-stocked spice rack to accompany your
high-end gadgets. We've already discussed alginate and calcium chloride --
the two chemicals needed for spherification. Another important gelling
agent is
. Manufactured by International Cooking Concepts, the
Gastrovac is three tools in one: a Crock-pot, a vacuum pump and a heating
plate. In its low-pressure, oxygen-free atmosphere, the Gastrovac cooks
food faster at lower temperatures, which helps the food maintain its
texture, color and nutrients. When the food is done warming, you restore
the pressure and create what ICC calls the "sponge effect." The liquid
rushes back into the food, bringing intense flavors with it.
methylcellulose, which congeals in hot water, then becomes liquid
again as it cools. Emulsifiers are a must for maintaining a uniform
dispersion of one liquid in another, such as oil in water. Two popular
emulsifiers are soy lecithin and xanthan gum. Finally, more and more

12. molecular gastronomists are turning to transglutanimase
Now we're ready to put everything together. In the next section, we'll
present three recipes for a molecular gastronomy-inspired meal.
, a chemical that
causes proteins to stick together. Because meat is protein, chefs can do
inventive things with transglutaminase, such as removing all fat from a
steak and gluing it back together or fashioning noodles from shrimp meat.
Sous vide, or low temperature cooking, is a process of cooking food at a very tightly
controlled temperature, normally the temperature the food will be served at. This is a
departure from traditional cooking methods that use high heat to cook the food, which
must be removed at the moment it reached the desired temperature.
Sous vide was first used in kitchens in France in the 1970s and traditionally is the
process of cooking vacuum sealed food in a low temperature water bath. This process
helps to achieve texture and doneness not found in other cooking techniques. Sous Vide
has slowly been spreading around the world in professional kitchens everywhere and is
finally making the jump to home kitchens.
As sous vide has become more popular and moved to the home kitchen the term now
encompasses both traditional “under vacuum” sous vide and also low
Sous Vide

13. temperature cooking. Some preparations rely on the vacuum pressure to change the
texture of the food but in most cases the benefits of sous vide are realized in the
controlled, low temperature cooking process. This means that fancy vacuum sealers can
be set aside for home sealers or even zip lock bags.
The basic concept of sous vide cooking is that food should be cooked at the temperature
it will be served at. For instance, if you are cooking a steak to medium rare, you want to
serve it at 131 degrees Fahrenheit.
Normally you would cook it on a hot grill or oven at around 400-500 degrees and pull it
off at the right moment when the middle has reached 131°F. This results in a bulls eye
effect of burnt meat on the outside turning to medium rare in the middle.
This steak cooked sous vide would be cooked at 131°F for several hours. This will result
in the entire piece of meat being a perfectly cooked medium rare.
Why Cook with Sous Vide?
Just like any method of
applying heat to food there are many reasons to use sous vide cooking, depending on
what you are trying to accomplish.
Because food cooked in the sous vide style is vacuum sealed, when it is cooked it doesn't
lose any of the food's moisture or flavor. This is especially exciting when compared to
braising, where most of the flavor is transferred to the sauce because of the lose of juices.
Sous vide cooking also allows you to cook tough cuts of meat at an incredibly low
temperature, not only tenderizing them but keeping them perfectly cooked at medium-
rare. This is very effective for shanks, roasts and other pieces of meat that are typically
braised or roaster.

14. Cooking food in the sous vide method also results in new
textures. This is because the vacuum sealing process can make food denser (like
watermelons, for example), and because the lack of the typical high high can result in
silky and smooth textured food that is impossible to replicate in the oven or pan.
A great example of the power of sous vide cooking is short ribs. Normally short ribs are
braised for hours or cooked in the oven at low heat, resulting in very tender meat that
has lost most of its flavor to the sauce. Using sous vide you can cook those ribs perfectly
medium-rare, retain all their moisture and juice, and tenderize them all at the same
time, resulting in the best short ribs you've ever had.
Dehydrator
Food drying is a practice used to preserve fruit, vegetables and animal
proteins after harvest since antiquity,[1]
and a food dehydrator refers to a
device that removes moisture from food to aid in its preservation. A food
dehydrator uses a heat source and air flow to reduce the water content of
foods. The water content of food is usually very high, typically 80% to 95%
for various fruits and vegetables and 50% to 75% for various meats.
Removing moisture from food restrains various bacteria
Devices require heat using energy sources such as
from growing and
spoiling food. Further, removing moisture from food dramatically reduces
the weight of the food. Thus, food dehydrators are used to preserve and
extend the shelf life of various foods. The first commercial food dehydrator
was sold in 1920.
solar or electric power,
and vary in form from large-scale dehydration projects [2]
to DIY projects or
commercially sold appliances for domestic use. A commercial food
dehydrator's basic parts usually consist of a heating element, a fan, air
vents allowing for air circulation and food trays to lay food upon. A
dehydrator's heating element, fans and vents simultaneously work to

15. remove moisture from food. A dehydrator's heating element warms the
food causing its moisture to be released from its interior. The appliance's
fan then blows the warm, moist air out of the appliance via the air vents.
This process continues for hours until the food is dried to substantially
lower water content, usually fifteen to twenty percent or less.
Most foods are dehydrated at temperatures of 130°F, or 54°C, although
meats being made into jerky should be dehydrated at a higher temperature
of 155°F, or 68°C, or preheated to those temperature levels, to guard
against pathogens that may be in the meat. The key to successful food
dehydration is the application of a constant temperature and adequate air
flow. Too high a temperature can cause hardened foods: food that is hard
and dry on the outside but moist, and therefore vulnerable to spoiling, on
the inside.

16. MiniAirBreadwithIberianBacon&Caviaroli
Molecular gastronomy Chef Nandu Jubany delights us with incredible
flavors and textures of Caviaroli olive oil caviar, air bread, smoky Iberian
bacon, grated white truffle and crunchy sea salt flakes. A true modernist
cuisine experience!
AppleCaviarwithBananaFoam
The apple caviar from Ferran Adria is a great way to bring molecular
gastronomy to your cheese plate, desserts or drinks. Pair it with strawberry
sorbet, banana foam, Gruyere cheese or an apple martini. The little spheres
will burst in the mouth releasing a delicious fresh apple juice.
YuzuCilantroSpheres
These spheres burst in your mouth releasing a refreshing taste of yuzu,
orange peel and cilantro. Yuzu and cilantro pair perfectly as they have
similar molecular compounds in common. In this recipe we’ll be using
Frozen Reverse Spherification to create the spheres.

17. HoneyCaviar,Fourmed’Ambert,BlackTea
The honey caviar is a great way to bring molecular gastronomy to your
cheese plate, desserts or drinks. In this recipe we are pairing the acacia
honey caviar with a delicious Fourme d’Ambert cheese and a small cup of
black tea. Did you know that black tea pairs perfectly with acacia honey and
Fourme d’Ambert?
CaviaroliOliveOilCaviarwithProsciutto
Excellent way to start a meal with Caviaroli olive oil caviar by Ferran Adria
on top of a slice of toasted baguette with Prosciutto or Iberian Ham.
StrawberrySalmorejowithOliveOilCaviar
The Strawberry Salmorejo with Olive Oil Caviar is a molecular gastronomy
dish by Chef Artur Martinez from Capritx (1 Michelin Star) in Spain.
Salmorejo, typical dish from Cordoba in the south of Spain, is similar to a
traditional tomato gazpacho but richer and smoother. In this recipe,
strawberries are used instead of tomatoes to create a unique dish that it is
then topped with Caviaroli olive oil caviar to add a magical touch.

18. His scientific equipment, techniques and know-how of molecular
gastronomy, generally applied to food, have been quickly adopted by chefs
and mixologists to create interesting cocktails. Molecular mixology brings
science to the shaker to create new flavors, textures, and surprising
presentations and enhance the overall drinking experience.
Bartenders and chefs leading the molecular mixology movement have
created incredible cocktails and drinking experiences. Cocktail spheres that
explode in the mouth, cocktail caviar, edible cocktails, multi-color layered
cocktails, cocktails that resemble lava lamps, cocktails with foams and
bubbles, cocktails infused with surprising leather and cigar flavors,
powdered cocktails, cocktails with suspended elements, cocktail gums,
paper cocktails, solid cocktails, cocktail marshmallows, flavored ice spheres,
frozen ‘nitro’ cocktails, cocktail
popsicles, cocktail glasses filled with cotton candy and much more!! The
creativity and imagination of these mixologists is endless!
Mixologists who work at molecular gastronomy restaurants are fortunate
to have easy access to the expensive equipment used by the chef. But a lot
can be done with reasonably priced tools in almost any bar and at home if
you have patience and a little extra time to dedicate to the cocktail
preparation. Molecular mixology equipment ranges from simple
blowtorches to vacuum chambers, ISI Whips, sous vide machines, cotton

19. candy makers, liquid nitrogen, rotary evaporators and dehydrators. You can
easily get started with our
Molecular cocktails were first created by molecular gastronomy chefs such
as Ferran Adria, Heston Blumenthal and Grant Achatz but the trend was
quickly adopted and taken to the next level by pioneer mixologists such as
Tony Conigliaro, who has collaborated with Heston Blumenthal, Eben
Klemm, Eben Freeman and Angel Chocano.
Molecular Mixology Kit.
CocktailSpheres-Spherification
The technique created by molecular
gastronomy Chef Ferran Adria is also used in molecular mixology. Basic
spherification, for example, is used to create caviar of Cointreau that can be
added to champagne, cosmopolitans, margaritas, sidecar and many other
traditional cocktails to make them more interesting. Molecular gastronomy
Chef Jose Andres serves at Minibar Carbonated Mojito Spheres made
using Reverse Spherification and carbonated in an ISI Whip charged with
CO2.

20. CocktailTruffles
At his restaurant Alinea, Grant
Achatz has served a couple of spiked eggnog cocktails by creating a sphere
of eggnog filled with an alcoholic mix (similar to a chocolate truffle with
liquid filling). One of them called Eggnog - Pedro Ximenez, Benedictine,
Buffalo Trace, consists of an eggnog sphere filled with a spicy filling of
cucumber, cinnamon and bourbon served floating on sweet Pedro Ximenez
in a shot glass.

21. CocktailGels(orfancyJell-Oshots!)
Bar Nineteen 12 in Beverly Hills
serves a flight of five jelly shots: a half-sphere blueberry martini with a fresh
blueberry suspended in the center, a slice of jellified layers of Grand
Marnier, Kahlúa and Baileys to create an edible B-52, a pear martini made
with pear purée, a mojito shot in the shape of a diamond and a round
bubble gum martini. The fancy jello shots are served on a glass box filled
with ice and lighted from inside. They also serve other jellied cocktails like
campari and orange juice, gin and tonic, champagne with candied orange
peel, vanilla bean Prosecco, and Manhattan and tequila sunrise.
At Craft restaurant in Los Angeles, pastry chef Catherine Schimenti serves
jelly cubes of Prosecco, simple syrup and vanilla bean seeds.
Molecular mixologist Eben Freeman, of Tailor restaurant in New York City,
is a pioneer in creating molecular cocktails. Freeman makes a trio of edible
cocktails that is delicious! Cuba Libre Gelatin Square, Ramos Gin Fizz
Marshmallow and White Russian Breakfast Cereal.

22. The Cuba Libre Gelatin Square is made by mixing rum and coke with gelatin.
Once set, the gelatin is cut into cubes and served on a lime chip. The lime
chip is made by freezing a whole lime, it is then cut with a meat slicer into
very thin slices which are then dipped in syrup and dried in a dehydrator
until crispy.
Learn more about making
CocktailMarshmallows
Cocktail Gels.
The Ramos Gin Fizz Marshmallow of Freeman's edible cocktails trio (photo
below) is made with a traditional Ramos Gin Fizz recipe (gin, lemon juice,
lime juice, egg white, sugar, cream, orange flower water, and soda water)
plus some additional sugar and gelatin, then whipped and baked to make
the marshmallows. The marshmallow squares are then tossed in juniper
sugar (juniper berries grinded in a spice grinder).

23. InfusingSolidsandDehydratingCereal
The White Russian Breakfast
Cereal of Freeman's edible cocktails trio (photo above) is made by tossing
Rice Krispies in Kahlúa liquor, then dried in a dehydrator. This process is
done twice to add more Kahlúa flavor to the cereal. The Kahlúa krispies are
served in a bowl and chilled “vodka milk” is added. The vodka milk is a
mixture of half and half with some sugar and, of course, vodka.
A molecular cocktail from Grant Achatz that falls in this category is “Elixir
Vegetal”; a sugar cube infused with charteuse, green French liquor made
with 130 herbal extracts, fennel and lemon. At The Aviary, the molecular
gastronomy chef serves compressed watermelon with soju topped with
sesame seeds and cantaloupe compressed with Champagne topped with
Prosciutto.

24. PaperCocktails
Molecular mixologist Freeman has also experimented with “paper
cocktails” such as a thin, crispy sheet of quince sour made with whiskey,
quince and lemon.
PowderedCocktails
Molecular mixologist Eben Freeman also serves powdered cocktails. He
makes dehydrated rum and coke by mixing cola-flavored popping sugar
with rum powder. I guess this has no alcohol content so maybe we should
call it powdered virgin cocktail.
Whiskey,WineandCocktailGums
Molecular gastronomy chef Heston
Blumenthal serves his famous whiskey gums at his restaurant The Fat Duck.
The whiskey gums have the shape of a bottle and are served on a photo
frame with the map of Britain (photo above). Each whiskey gum is made
from a different whiskey and it is placed on the map indicating the region
where it was made. He also has a wine gums version.
Molecular mixologist Freeman has also jellied gin and tonic and has served
it on lime chips and sprinkled with "tonic" powder. The “tonic” powder,
which adds fizz to the edible cocktail, is a mixture of baking soda, citric acid
and powdered sugar. Molecular gastronomy Chef Michael Han serves gin
and tonic gums in his Singapore restaurant. The gum is served on a cold
stone and the diners are told to place the gum on the tongue and let it melt
in the mouth.

25. CocktailIcePops
Bar Nineteen 12 also converts cocktails into
ice pops. Colorful martini Popsicles of various flavors including apple,
watermelon and sour cherry.

26. Frozen‘Nitro’Cocktails
Molecular gastronomy Chef José
Andrés serves “nitro caipirinha” at Bar Centro in Los Angeles. The “nitro
caipirinha” is made at the table by freezing a delicious caipirinha using
liquid nitrogen. The end result is caipirinha slush with very high alcoholic
content.

27. FruitsorVegetablesFilledwithCocktailGel
Molecular gastronomy Chef Grant
Achatz has transformed the classic cocktail Sazerac into an edible cocktail
with an incredible presentation. The classic Sazerac cocktail is made with
whiskey, Peychaud bitters, simple syrup, absinthe and lemon garnish. The
molecular mixology version of Chef Achatz is served in a syrup-poached
kumquat filled with whiskey gel and topped with a pudding dot of
Peychaud bitters, fine lemon peel and micro mint leaf. Deconstructed
edible Sazerac in a bite!
Mixologist Jamie Boudreau serves a cocktail in cored cherry tomatoes filled
with a gel of gin, Tabasco, Worcestershire sauce and salt.

28. SuspendingSolidElementsinLiquid
Another molecular mixology
technique developed by Chef Ferran Adria is to suspend solid elements in
liquid to create visually stunning cocktails and drinks. Xanthan Gum is used
to thicken the liquid to maintain elements in suspension in a drink without
sinking. One of his creations is White Sangria in Suspension with herbs, fruit
and spherical caviar suspended in the sangria mix.

29. ServingCocktailsinHollowedFruitsandVegetables
Tony Conigliaro, co-founder
of 69 Colebrooke Row in London, created the Don Julio Kaffir Margarita
which is served in a frozen kaffir lime that has been cut on one end and
hollowed to be used as a shot glass. The tequila is infused with kaffir lime
leaves and zest using the low temperature infusion with sous vides method.
The margarita shot is accompanied by another frozen kaffir lime filled with
sea salt snow and oak-smoked rock salt pieces placed on a kaffir leaf coated
with gelatin with kaffir essence. Lick the salt off the lime leaf, drink the
margarita, followed by the salt snow.
SpiritGranité
Eddie Perez, the Foundry mixologist in Hollywood, created a cocktail served
in a spoon with granité of pear vodka mixed with finely grated dehydrated
maraschino cherries, topped with pearls of Champagne gelée and fresh
Champagne grapes that have been peeled and marinated in Drambuie,
sprinkled with lemon and lime zest.

30. Foams,AirsandBubbles
Foams, airs and bubbles are a great
way of adding a molecular touch to any cocktail. In the Cranberry Bubbles
Cosmo, a classic cosmopolitan is topped with cranberry bubbles made using
the “bubbles with air pump” technique. Elderflower foam, made with St.
Germain liquor and chardonnay foamed in an ISI Whip, can add a nice
touch to a glass of Champagne.

31. CottonCandy
Cotton candy is another fun way to serve
a cocktail in style. The glass is generously filled with cotton candy; the
cocktail is served in a shaker and strained over the cotton candy making it
disappear as it dissolves. Molecular gastronomy Chef Jose Andres serves a
“Magic Mojito” with cotton candy at The Bazaar in Los Angeles. Some
molecular mixologists are experimenting with cocktail flavored cotton
candy.

32. LayeredCocktails
Layered cocktails do not create new textures or flavors but make a
beautiful presentation. Layered cocktails were made before the term
molecular mixology existed but this technique is still used today by
molecular mixologists so I decided to include it.
To create layered cocktails, each ingredient is carefully poured into a glass
or carafe starting with the densest liquid first and progressing to the least
dense. At The Aviary in Chicago, Chef Grant Achatz uses the Cocktail
master device to make a 7 Layer Hurricane with cranberry stock, passion
fruit juice, blood orange juice, lime juice and three types of rum. Get
your Cocktail master from our store and create your next signature cocktail
or dish.

33. InfusingSpiritswithNewFlavors
Infusing alcohols with other
flavorful ingredients is a great technique to enhance flavors, create unique
flavor profiles, build up the complexity of a drink and surprise your diners.
You can infuse flavors into alcohol using flavorful ingredients like herbs,
spices, seeds, fruits and others. There are a few infusion methods that are
particularly good for molecular mixology because they are fast and can be
done in cold or low temperature to maintain the alcohol content of the
spirit: high pressure rapid infusion with the ISI Whip, vacuum chamber
infusion and low temperature infusion Sous Vide. (Read more
about infusion techniques). Infuse spirits with cocoa nibs, coffee, nuts,
fresh herbs or anything you want to experiment with.

34. DistillingIngredientsatLowTemperature
Lucky molecular mixologists who
can afford purchasing a Rotary Evaporator, which costs over $6000, use this
equipment to extract essential oils of a solid ingredient by boiling in a
vacuum at low temperature without damaging the fresh aroma
compounds. The essential oils can then be mixed with other ingredients to
be used in a cocktail. This method has been used to extract soil and leather
aromas for example.
UnusualFlavorPairings
Molecular mixologists also rely on the scientific method of flavor pairing to
find odd new combinations that taste ridiculously good and make you
wonder why mankind didn’t discover them before. The scientific method of
food pairing was most famously applied by Heston Blumenthal, chef of The
Fat Duck, and is based on the principal that foods combine well with one
another when they have similar molecular compounds in common These
are a few innovative creations using this technique:

35. - Grey Goose l'Originale - oyster leaf
– caviar: The pure taste of Grey Goose L'Original matches perfectly with
oysters. Instead of using oysters for this cocktail they used oyster leaf, a
special plant with a slightly salty taste. The resemblance with the taste of
oyster is striking; therefore this plant is sometimes called the vegetarian
oyster. The tiny leaves of the plant are decorated with caviar, red wine
vinegar and shallot, a reference to the traditional preparation of oysters in
France.
- Grey Goose le Citron - Camembert
– litchi: It’s old news that cheeses can be matched to perfection with
various fruits. The savory nature of the cheese is underscored when

36. combined with the sweet, fresh taste of fruit. The aroma analysis showed
that Grey Goose Le Citron can be perfectly combined with camembert, the
world famous white cheese from Normandy, traditionally made from raw,
unpasteurized milk. Add also lychee for a surprising, yet delicious treat.
- Rum, raisings and hazelnuts
- Rum Havana Club 7 Anos, Darjeeling tea, Lime, Grapefruit and Cardamom
SmokingandAromatizing
Using a device like the Smoking
Gun, the Super-Aladin smoker or the Volcano vaporizer, molecular
mixologists can quickly add smoke and other aromas to cocktails without
using heat. These devices have been used to create drinks such as Cigar-
smoke Infused Manhattan, Smoked Beer, Applewood Smoked Bloody Mary,
Smoked Bourbon and Bacon Vodka Bloody Mary.

37. FlavoredIce
Another technique used by molecular
mixologists is to make ice cubes or spheres flavored with one of the
ingredients of the cocktail. As the ice melts, it releases the aromas and
flavors of that ingredient into the cocktail instead of diluting it. At the
Aviary, Chef Grant Achatz serves a Rhubarb cocktail with Peychaud bitters
ice spheres. (Picture from Gourmet Pigs. Great overview of other cocktails
served at The Aviary too!)

38. Eat-and-DrinkCocktails
There is a trend in molecular mixology to
pair a food bite with a cocktail. Chef Cathal Armstrong and mixologist Todd
Thrasher created an eat-and-drink cocktail for their PX Lounge bar
consisting of sauternes, poached pear and Licor 43 (citrus and vanilla
flavored Spanish liquor with 43 ingredients) topped with foie gras on a
crispy wafer. The cocktail is called Pear of Desire and it is served in a
beautiful small flute glass.
Being
Passionate
with the food
is the key