Made with a versatile Mt. Fuji design, this might be the only glass you really need.
Both beautiful and usable, the glass works as both a conversation-starter and a daily driver.
A thick borosilicate body makes the glass tough to break and easy to clean (even in the dishwasher). A larger capacity, wider base and narrower top prevent spilling and tipping. The iconic shape holds fizz, aerates wine and opens up liquor — all while looking stunning and winning design awards.
Clear through the medley of glasses you've collected over the years. The Mt. Fuji is a closet reset for your kitchen cabinet.
Introducing Mt. Fuji — The World's Most Versatile Glass Shape
Inspired by Japan's tallest mountain, our essential bar glass is designed for everything. With a wide, flat bottom that gracefully narrows as it rises. It holds beer fizz longer, aerates wine faster, and opens up liquor beautifully.
Wine. Beer. Cocktails. Coffee. Water. Liquor.
You only need one glass for all of it. This is it.
Slightly larger
1.25 cups, exactly –– a half cup more than traditional glassware. The little extra room goes a long way, making possible to layer, stir, scoop and serve in the cup. It also means that your pinot isn't brimming, your IPA isn't foaming over and your granola-yogurt ratio is never off.
Wide base, Narrow top
The wide base makes it near impossible to accidentally tip over. The narrow top gathers foam while preventing spilling.
Made for Life
By using thick borosilicate glass, we’ve created a bar glass that is dishwasher-safe, microwave safe and highly shatter/scratch resistant.
Monolayer Borosilicate Glass
Made from a single piece of borosilicate glass, the set is not just stunning— it's also tough.
In technical terms, borosilicate glass has a very low coefficient of thermal expansion. In regular terms, that means that the essential bar glass will not crack under big temperature changes like regular glass. That durability has made borosilicate the glass of choice for high-end restaurants, wineries and now, The Essential.
But we went further, opting for a thicker layer of glass than most. By doing this, we not only accomplished greater temperature-resistance but also much great shatter-resistance.