Paul By Paul Smith Striped Denim Shirt
Blue Denim Shirt
How to wear Paul By Paul Smith Striped Denim Shirt
This off-duty combo of a blue denim shirt and blue skinny jeans is very easy to throw together without a second thought, helping you look cute and prepared for anything without spending a ton of time going through your wardrobe.
This combination of a Paul By Paul Smith Striped Denim Shirt from farfetch.com and khaki leopard skinny jeans is hard proof that a safe off-duty outfit can still be really interesting. Not sure how to round off? Complete your getup with brown leather heeled sandals to rev up the glam factor.
If you're hunting for a relaxed casual and at the same time seriously stylish look, pair a blue denim shirt with black ripped skinny jeans. Round off with black leather chelsea boots and ta-da: your outfit is complete.
A big thumbs up to this off-duty combo of a blue denim shirt and black skinny jeans! Dial down the casualness of this look by sporting brown suede ankle boots.
Extra stylish, this combo of a Paul By Paul Smith Striped Denim Shirt and black leggings brings variety. We're totally digging how this whole look comes together thanks to black suede ballerina shoes.
This combination of a Paul By Paul Smith Striped Denim Shirt from farfetch.com and black skinny jeans is a good look for off duty. A chic pair of silver leather low top sneakers is a simple way to upgrade this getup.
Stylish yet functional, this look features a Paul By Paul Smith Striped Denim Shirt and red skinny jeans. For extra style points, complete this look with white cutout leather ankle boots.
If the situation allows casual style, opt for a blue denim shirt and white ripped skinny jeans. White leather gladiator sandals will give a sense of stylish casualness to an otherwise standard look.
This casual combination of a Paul By Paul Smith Striped Denim Shirt and blue skinny jeans can take on different nuances depending on how you style it. To bring out the fun side of you, introduce a pair of tan nubuck lace-up flat boots to the equation.