Ribbed Jumper
Black Knit Turtleneck by Philo-Sofie
How to wear Philo-Sofie Ribbed Jumper
If you enjoy functional style, go for a Philo-Sofie Ribbed Jumper from farfetch.com and an olive puffer jacket. Complete your look with black leather wedge ankle boots and the whole outfit will come together.
Prove your sartorial prowess by wearing this off-duty pairing of a Philo-Sofie Ribbed Jumper from farfetch.com and blue skinny jeans. A pair of black suede over the knee boots finishes off this ensemble quite well.
A black knit turtleneck and black skinny jeans are a pairing that every chic woman should have in her casual sartorial collection.
This laid-back combo of a Philo-Sofie Ribbed Jumper and black leather leggings is ideal when you need to look stylish but have zero time to spare. Clueless about how to round off? Complement this outfit with a pair of black leather pumps to rev up the chic factor.
A Philo-Sofie Ribbed Jumper and black leather leggings have secured themselves as bona fide essentials. On the shoe front, go for something on the more elegant end of the spectrum and round off your getup with navy embroidered suede loafers.
For an edgy and casual outfit, choose a black knit turtleneck and a gold pleated midi skirt — these pieces go nicely together. Black suede ankle boots are guaranteed to breathe a hint of elegance into this ensemble.
A Philo-Sofie Ribbed Jumper from farfetch.com and light blue ripped boyfriend jeans paired together are a covetable outfit for girls who appreciate relaxed styles. Complement your look with a pair of black cutout suede ankle boots to instantly jazz up the look.
Why not make a Philo-Sofie black knit turtleneck and black leather skinny pants your outfit choice? These two items are very comfortable and look amazing worn together. Complement your outfit with black leather pumps et voila, your look is complete.
Go for a Philo-Sofie black knit turtleneck and black leather leggings for relaxed dressing with a twist. When in doubt as to the footwear, introduce navy low top sneakers to the equation.