Incredibly slim profile and stylish, contemporary design
Samsung SF355 Monitor has a super slim curved panel at an incredibly slim 10mm*, as slender as a ballpoint pen, the solid curved panel is almost twice as thin as standard Samsung monitors**. Its simple circular stand elegantly complements the slender curved panel while its horizontal patterning on the rear panel provides a stylish, contemporary finish.
Optimized for viewing comfort
The SF355 has the Eye Saver Mode reduces blue light emissions — which stimulate the retina more than other color wavelengths and reduces eye fatigue to provide a more comfortable viewing experience. Furthermore, Samsung’s Flicker Free technology minimises distracting screen flicker to let you work and play for a longer period of time and in greater comfort.
Samsung eco-saving technology reduces energy consumption and environmental impact
With the energy-saving auto brightness setting, Samsung’s eco-saving technology fluidly adjusts display brightness based on the luminescence of screen blacks to reduce energy consumption by up to 10%*. The dual manual brightness settings also allow screen brightness to be set manually to 25% or 50% of maximum to reduce energy consumption.
* Based on internal testing by measuring power consumption during eco-saving of the SE350 when playing ES6.0 Video, White Pattern and Black Pattern in 2 scenarios: brightness condition when switched off versus switched on auto mode after 10 minutes; and brightness set to 65% when switched off versus switched on auto mode after 10 minutes. Actual energy consumption may be different due to operating environment.
Screen Size (Inch)
Screen Size (cm)
Screen Size (Class)
Flat / Curved
Active Display Size (HxV) (mm)
476.64(H) x 268.11(V)
Peak Luminance Ratio
Contrast Ratio Static
Dynamic Contrast Ratio
1920 x 1080
Viewing Angle (H/V)
Color Gamut (NTSC 1976)
Eco Saving Plus
Eye Saver Mode
10+ units in stock
*Our stock is a mix of Supplier and HT Stock.
All shipments are subject to our standard delivery policy.
Images may differ slightly from actual product