Iskandar Puteri, 19 September 2025 (Malaysia time) — UEM Sunrise Bhd has recorded a full take-up of Phases 2A and 3A of its Aspira Hills development in southern Johor within just 48 hours of its priority preview, underlining strong demand for landed homes in the Johor-Singapore corridor.
Over the two-day priority preview held in Q3 2025, all 285 double-storey terrace homes were snapped up. The sales momentum follows the success of Phase 1, launched in September 2024, which was also fully taken up.
These homes are built on 76.35 acres of freehold land in Gerbang Nusajaya. Each unit spans between 1,743 and 1,820 sq ft, and the development’s gross development value (GDV) is estimated at over RM230 million. The enclave maintains a low density of approximately 12 units per acre, aimed at providing more space, privacy, and communal amenities.
Location is a key draw: Aspira Hills is situated in the Johor-Singapore Special Economic Zone (JS-SEZ), Flagship Zone B. It offers direct access via upcoming infrastructure such as the Gerbang Nusajaya Interchange, and major expressways including the Second Link Expressway and the North-South Expressway. Future connectivity enhancements — such as the proposed Rapid Transit System (RTS2), the KTM ETS network, and proximity to airports in Senai, Changi, and Seletar — are expected to further increase its appeal.
UEM Sunrise’s Chief Financial Officer, Hafizuddin Sulaiman, said the strong response demonstrates homebuyers’ appetite for well-designed, spacious landed properties in high-connectivity areas. He noted that modern homebuyers in the corridor are prioritising space, community amenities, and convenient access to urban and cross-border infrastructure.
Aspira Hills is curated for multi-generational living, with features including backyard gardens, pocket parks, a 1.4-km jogging track, and a six-acre community park. The project is envisioned as a sustainable, secure, and well-connected township, reinforcing UEM Sunrise’s long-term vision to build communities that align with the growth trajectory of the JS-SEZ.
