The latest smart fans from Modern Forms, such as Crown and Radiant, feature elevated materials and evolved designs for inspired spaces — an era of intentional sculptural styles where graceful movement, luxurious materiality and premium performance are seamlessly integrated. The collection includes aerodynamic blade profiles, wrapped wood accents for dimensional texture, natural Spanish alabaster, rippled injection molded acrylic and reclaimed K5 crystal diffusers. A range of rich finishes brings warmth, contrast and dimensionality. The smart ceiling fans connect to a mobile app or home automation system, allowing you to control fan speed, lighting and schedules from your phone, remote or wall control.
The latest designs reflect a broader trend within the lighting industry toward natural elements and tactile finishes. The Crown ceiling fan elevates luxury fan design with a sculptural alabaster diffuser and integrated, tunable LEDs that deliver both uplight and downlight in perfect symmetry. Light glows through hand-carved stone, producing both decorative presence and ambient glow.
Another new smart ceiling fan, Radiant redefines modern comfort through light, air and artistry. Ambient up-lighting is seamlessly integrated into the design, marking a defining moment in ceiling fan innovation. A soft, architectural glow illuminates the ceiling while a customizable downlight diffuser, available in natural Spanish alabaster, rippled acrylic or reclaimed crystal, casts gentle radiance below.
Traditionally, ceiling fans were designed mainly for cooling. While airflow is still important, modern homeowners expect more. That’s why Modern Forms developed a new series of fans designed to combine air movement, lighting and smart controls into a seamless system that integrates with the overall room design. The Modern Forms Elite Series is a new generation of fans that integrates advanced controls, tunable LED lighting and refined architectural design. Rather than simply moving air, these fans are engineered to serve as a functional focal point in the space.
