Period charm and practical layout with a southerly garden and no upward chain..
No upward chain, freehold mid-terrace with Victorian character
Two bright double bedrooms; original wood flooring in places
Separate dining room with feature stove and lounge with box window
Sunroom overlooking southerly garden with summerhouse and shed
Four-piece bathroom with mains shower; EPC rating C
Boarded loft with ladder offers good storage potential
Solid brick walls (assumed no cavity insulation); consider upgrade
Small plot and slightly overgrown garden requiring tidy/landscaping
Set on a traditional Victorian terrace, this freehold two-bedroom house offers practical family living with immediate availability and no upward chain. The layout includes a spacious lounge, separate dining room with feature stove, and a bright kitchen that opens to a sunroom overlooking the southerly garden. Two double bedrooms and a four-piece bathroom on the first floor suit everyday family routines.
Highlights include original wood flooring, a boarded loft accessible via fitted ladder for extra storage, and gas central heating with an EPC rating of C. The rear garden faces south and includes a summerhouse and shed—useful for hobbies or storage—though parts of the garden are slightly overgrown and would benefit from tidying and landscaping.
Practical considerations: the house is of solid brick construction (as built, assumed without cavity insulation), which may mean insulation upgrades are worth considering to improve thermal efficiency. The plot is small and the property is average-sized overall, so it suits couples, small families or downsizers seeking convenient access to local amenities and good transport links rather than buyers needing extensive outdoor space.
Located within walking distance of Carlton’s shops, schools and bus routes with easy access to Nottingham city centre, this home combines period character and sensible living space. It’s an attractive option for buyers seeking a move-in-ready core with scope to personalise and improve energy performance over time.