RIEDEL Fatto A Mano Performance Pinot Noir - red
The Pinot Noir glass is perfect to support the balance of fragility and fresh compact fruit in light-bodied wines from the New World.
Created during several workshops, the tulip shape and slightly flared lip highlights the irresistible sweetness, whilst perfectly balancing the acidity and deemphasizing the alcohol, to create a perfect picture of the wine.
The optic impact in the RIEDEL Performance series adds both a design feature and an astounding effect on wine's aromatics.
This product features a red crystal stem and clear crystal base.
RIEDEL Fatto a Mano Performance marries together two of the brand's successful series, combining refined craftsmanship and the precision of modern machine production. The series includes bowls with Performance's signature optic impact, plus a dynamic colored feature at stem or base.
This product is handmade.
Our master glassmakers individually craft each item so every piece has a unique character. Due to the nature of crafting, small tolerances in the size and weight of each product, tiny bubbles, imperfections, or slight surface variations are an acceptable part of the process.
This item is dishwasher safe.
This pack contains a single piece.
Blauburgunder, Moulin à vent, Nebbiolo, Nerello Mascalese, Echézeaux, Beaujolais Cru, Barbaresco, Volnay, Blanc de Noirs, Romanée Saint Vivant, Musigny, Chambolle Musigny, Vougeot, Rosé Champagne, Vosne-Romanée, Nuits Saint Georges, Prokupac, Pinot Noir New World, St. Aubin, Pinot Noir Old World, Burgundy (red), Pommard, Barolo, Santenay
Year of design 2020
Capacity 830.0 ccm
Height 250.0 mm
Box quantity 1
Type of Manufacturing hand finished
Material Crystal
RIEDEL Fatto A Mano Performance Pinot Noir - red
Hard Facts
This collection offers colored, handcrafted stems from RIEDEL Fatto A Mano and machine-made Grape Varietal Specific bowls from RIEDEL Performance, fused with a detailed feature at the base of the bowl. The glass's highly functional optic design provides a heightened aromatic experience due to its greater inner surface area.