Cosy 1 bed at Berwick Street London BR02
This cosy one bedroom Stayo home is only a few meters from the world-famous Oxford Street. Within walking distance to London’s main tourist attractions, this Soho apartment is a fantastic hub from which to explore London.
Located on the first floor, this stunning apartment features everything you need for your London city break. The spacious living room boasts a sofa bed, plus dining facilities and a fully equipped kitchen. The apartment also features a double bedroom with a modern ensuite bathroom with shower.
Overlooking the vibrant street below, you’ll feel right in the heart of Soho.
Stayo Berwick Street apartments have air conditioning and are lovely and bright, offering a place to stay in a lively, bustling area. It’s ideal for brilliant nightlife and shopping, with excellent travel links too.
The buzz of Soho offers an atmosphere like no other. It’s an area that’s incredibly easy to explore on foot in the heart of the West End; surrounded by a mix of fantastic shopping, restaurants, diverse entertainment and nightlife.
Warm up with one of the best hot chocolates in town at the renowned Said cafe just a few minutes walk away, or head to Soho Square for some fresh air and winter bird song.
We're open and your health and wellbeing are our top priority.
Hospital grade deep cleaning
- Air Conditioning
- Double Bed
- Hair Dryer
- Ironing Facilities
- Sofa Bed
- Washing Machine
Live like a local
On the Doorstep
One of our favourite streets in London, the incredibly pretty Neal's Yard is not to be missed. You'll find amazing food like Homeslice and a wide range of shops committed to sustainability with plenty of chances for the perfect Instagram shot.
Neal's Yard, WC2h 9DP
One of London’s oldest markets, Berwick Street Market dates right back to 1778. Now a bustling foodie destination it still hosts traditional fruit, vegetable and florist stalls too. Here you will find an inspiring mix of food from Caribbean to Egyptian all in the heart of Soho.
Berwick St, Soho, London W1F 0PH