The G2C (Glass-to-Concrete) research project, a collaboration between Ghent University, fischerwerke GmbH & Co. KG and vitroplena bv, explores potential applications of glass-to-concrete bonding in building construction. The project aims to push the boundaries of traditional building materials by integrating glass with concrete, combining their unique properties to create innovative, aesthetically appealing and structurally advanced solutions. A recent showcase at the Glass Technology Live exhibition during Glasstec 2024 demonstrated several potential applications of this technology through a pedestrian bridge demonstrator. This paper focuses on the production and assembly aspects of the bridge. As the first full-scale structure implementing glass-to-concrete bonding, this project provided valuable insights into bonding procedures, assembly-related problem-solving and logistical planning. These practical aspects are crucial to assessing the feasibility of glass-concrete bonding and its potential in real-world applications, beyond the bridge’s structural performance. The 5.5-meter walkway features a 3-meter-span hybrid floor panel made of fibre-reinforced high-strength concrete with glass plates bonded to the top and bottom. The panel’s unique triangular openings not only reduce weight but also increase transparency, enhancing both the aesthetic and functional properties of the structure. T-beams are integrated within the hybrid panel: the edges of the panel form the web of the T-beam, while the curved glass web provides additional stiffness. Glass balustrades are seamlessly bonded to the 8 cm thick concrete slab, enhancing both stability and the overall aesthetic flow. The floating staircases, constructed using a concrete mix excluding cement, are supported by structural glass side panels which also serve as balustrades. Each segment of the bridge – the hybrid panel and two staircases – is designed for transport by truck.This showcase highlights the potential of bonded glass-concrete elements to combine aesthetic appeal with structural integrity, offering exciting possibilities for the future of hybrid (glass-to-concrete) structures.