Kitchen
2,351 sq ft(218.41 sq m)
Guide price £1,750,000(€1,983,930)

King George SquareRichmond, Surrey, TW10 6LF


    Key features

    • Fabulous views over Richmond Park
    • Secure gated development
    • Off street parking
    • Tastefully presented
    • Close to 'Richmond Village'

    An exceptional town house with stunning park views.

    About this property

    • A tastefully presented 1986 built town house backing onto (and with stunning views over) Richmond Park, within a secure and exclusive gated development. The property has wooden flooring to all principal rooms and an excellent flow of natural light. On the ground floor there is a superbly appointed open plan kitchen/breakfast room, a formal dining room and two sets of french doors that lead directly onto to the charming rear garden. The first floor accommodation consists of a bright and spacious reception room, a generous master bedroom suite and a further bedroom suite. On the second floor there are two bedrooms (one ensuite) and a further family bathroom. The second bedroom on this floor also provides access to a converted loft room on the top floor which also gives access to ample storage.

      View payable Stamp Duty for this property

    The views into Richmond Park are just jaw dropping and change so much with the seasons

    Daniel HutchinsProperty agent

    Local information

    • King George Square is enviably situated abutting Royal Richmond Park, whilst being within just a few hundred metres of the local shops at Friars Stile Road - that cater very well for day to day needs and provide a charming village atmosphere. Richmond town centre is within a mile and has a sophisticated selection of shops, boutiques and restaurants. Richmond train station (also within a mile) provides a rapid and direct line into London Waterloo, as well as the District Line tube and overland to Stratford, via north London. Local schools enjoy an excellent reputation and are amongst the best in the country.

    Additional information

    • EPC Rating = D