Savills | Highwood Court, 22 Highbury Crescent, London, N5 1RX | Properties for sale
668 sq ft(62.06 sq m)
Guide price £685,000

Highwood Court22 Highbury Crescent, London, N5 1RX


    Key features

    • Quiet location
    • Private and communal garden
    • Off street parking
    • No onward chain
    • Close to Highbury Station

    A quiet, two bedroom apartment with its own private terrace.

    About this property

    • Highwood Court, with just twelve apartments, is a stylish modern development in an enviable location next to Highbury Fields. The building is well maintained and presented to a high standard.

      The apartment is accessed via a communal entrance on the ground floor. There is an open plan reception and kitchen, with wooden floors and fitted appliances. Doors lead out from the reception to a privately owned terrace. There are two double bedrooms, both with direct access out onto a private garden which, given its position in the building, is not overlooked and very quiet. One of the bedrooms has an ensuite bathroom and there is a further main bathroom, both with underfloor heating.

      Importantly there is a designated parking space and secure bike store within the development and a large communal garden to the rear.

      The apartment is offered chain free and is ready for immediate occupation.

      View payable Stamp Duty for this property

    “A great two bedroom apartment”.

    Adam SmithProperty agent

    Local information

    • Highbury Crescent wraps around the west side of Highbury Fields. The Fields, with around 29 acres of open space, are well loved by locals and boast a swimming pool and fitness centre, 11 tennis courts, netball courts and a café. Transport links at Highbury Corner including tube (Victoria Line,) buses and London Overground provide easy access to both the City and West End and the rest of London. Upper Street is also a very short walk away, with its numerous shops, bars, restaurants and the Almeida Theatre.

    Additional information

    • EPC Rating = C