$259,900
13 Knickerbocker Road, Scotia, NY 12302
- 3 beds |
- 1 bath |
- 1,318 sqft
Single-Family Home
Built in 1930
7,405sqft lot
1 car garage
$197/sqft
Listed 1 month ago
Property Description
Showings begin Friday 6/5. Lovely and bright bungalow in the Village ready to welcome you home! This updated 3 bedroom, 1 bath home has hardwood floors and LVL throughout, large eat-in kitchen and tiled bath/shower, living room and 2 bedrooms on the first floor. The second floor has a large bedroom, walk-in closet and sitting/office area. Full basement, front porch, detached garage with plenty of additional off-street parking, rear patio and fenced yard for enjoying some Summer nights. New - garage door and opener ('20), basement windows, roof and gutters ('21), Central Air and fence ('24). LA is related to Seller.
- Listing Status:
- Pending
- Date Added:
- June 3, 2026
- Data Last Updated:
- July 5, 2026 at 8:39PM
- Listing Office:
- Capital Region Realty Inc : 518-372-3300
- Listing Agent:
- Deidre K Emerle : 518-788-1700
- MLS ID:
- 202618689
- General: Walk-In Closet(s)Ceramic Tile BathPaddle FanEat-in Kitchen
- Appliances: RangeRefrigeratorDishwasherMicrowaveWasher/DryerOven
- Laundry: In Basement
- Basement: Full
- Flooring: HardwoodVinyl
- A/C: Central Air
- Heating: Natural GasForced Air
- Fireplace: Fireplaces: 0
- General: Drive-PavedGardenGarage(s)
- Style: Bungalow
- Other Structures: Garage(s)
- Parking: DetachedGarage Door OpenerOff StreetPavedGarageParking spaces: 4
- Roofing: Asphalt
- Windows: BlindsCurtain RodsScreens
- General: Vinyl SidingBlock
- Originating MLS: Global MLS
- School District: Scotia Glenville
- County: Schenectady
- Zoning: 422201 30.78-1-25
- View: Trees/Woods
- Fencing: FencedPrivacyBack YardChain LinkVinyl
- Utilities: Cable Available200+ Amp Service
- Water: Public
- Sewer: Public Sewer
- Source: Global MLS
This listing courtesy of Deidre K Emerle , Capital Region Realty Inc
Monthly Payment
$Est. Payment
- Principal & Interest $
- Property Taxes $
- Home Insurance $
- VA Funding Fee $






