Kitchen
563 sq ft(52.30 sq m)
Guide price £425

Birchside Apartments1 Albert Road, Queens Park, London, NW6 5FS

  • Managed by Savills
  • Furnished

Key features

  • A contemporary apartment in a desirable development
  • Private balcony and communal gardens
  • 24hr concierge
  • Wood flooring the reception and kitchen
  • On-site Marks & Spencer Simply Food
  • Council Tax Band = B

A beautifully presented one bedroom apartment to rent in a popular development in Queens Park, NW6. The property benefits from a 24hr concierge and communal gardens.

About this property

  • A beautifully presented one bedroom apartment to rent in a popular development in Queens Park, NW6. The property benefits from a 24hr concierge and communal gardens. The accommodation is positioned on the 3rd floor (with lift) comprising a master bedroom with built-in wardrobes, stylish bathroom, open-plan fitted kitchen, bright reception room which leads onto a private balcony. The property is conveniently located moments Queens Park station (Bakerloo Line), cafes, restaurants and shops.

An extremely popular development in Queens Park benefiting from a private balcony and communal gardens.

Euan WilliamsProperty agent

Local information

  • Known for family-friendly living, Queens Park is a vibrant residential village located on the southern edge of the London Borough of Brent.
  • Salusbury Road is a sought after location for independent cafes, bars, restaurants and antique shops, and home to ‘Gail's' and ‘The Alice House'.
  • On the high street, there is a very well regarded primary school, ‘Salusbury Primary School' which opens its gates every weekend and hosts a local farmer's market in the school playground.
  • There is fantastic open green space in Queens Park which offers tennis courts, pitch & putt course, children's café and playground.
  • Queens Park offers both underground (Bakerloo) and Overground train lines, making it easy to commute to major stations such as Euston and Baker Street.

Additional information

  • EPC Rating = B