Strand Cap Toe Oxford
Burgundy Leather Oxford Shoes by Allen Edmonds
How to wear Allen Edmonds Strand Cap Toe Oxford
Hard proof that a navy blazer and multi colored check dress pants are amazing when teamed together in a classy outfit for a modern dandy. Feeling inventive? Mix things up by rounding off with burgundy leather oxford shoes.
A navy suit looks especially classy when worn with a white dress shirt in a modern man's getup. The whole look comes together if you add Allen Edmonds Strand Cap Toe Oxford to the equation.
This is irrefutable proof that a white suit and a white dress shirt look awesome when you team them together in a sophisticated look for a modern gent. Let your styling expertise truly shine by finishing this look with burgundy leather oxford shoes.
Dress in a grey linen blazer and charcoal dress pants for seriously stylish style. Let your sartorial savvy truly shine by rounding off your ensemble with Allen Edmonds Strand Cap Toe Oxford from Nordstrom.
A navy plaid blazer looks so refined when worn with grey dress pants. Upgrade this look with a pair of Allen Edmonds Strand Cap Toe Oxford from Nordstrom.
For a look that's refined and Bond-worthy, opt for a dark brown suit and a white vertical striped dress shirt. If in doubt about the footwear, go with a pair of Allen Edmonds Strand Cap Toe Oxford.
A navy overcoat and grey vertical striped dress pants are absolute essentials if you're putting together a polished wardrobe that holds to the highest menswear standards. A great pair of Allen Edmonds Strand Cap Toe Oxford from Nordstrom pulls this ensemble together.
Marry a burgundy check blazer with burgundy dress pants for masculine refinement with a contemporary spin. Get a bit experimental with shoes and dress up your look by wearing burgundy leather oxford shoes.
This is irrefutable proof that a navy field jacket and dark brown dress pants look awesome when worn together in a refined getup for a modern gentleman. To give your outfit a dressier spin, add Allen Edmonds Strand Cap Toe Oxford to the equation.