EcoSmart Youth Hooded Sweatshirt – Soft Sustainable Double‑Ply Comfort
EcoSmart Youth Hooded Sweatshirt – Soft Sustainable Double‑Ply Comfort
EcoSmart Youth Hooded Sweatshirt – Soft Sustainable Double‑Ply Comfort
EcoSmart Youth Hooded Sweatshirt – Soft Sustainable Double‑Ply Comfort
EcoSmart Youth Hooded Sweatshirt – Soft Sustainable Double‑Ply Comfort
EcoSmart Youth Hooded Sweatshirt – Soft Sustainable Double‑Ply Comfort
EcoSmart Youth Hooded Sweatshirt – Soft Sustainable Double‑Ply Comfort
EcoSmart Youth Hooded Sweatshirt – Soft Sustainable Double‑Ply Comfort
EcoSmart Youth Hooded Sweatshirt – Soft Sustainable Double‑Ply Comfort
EcoSmart Youth Hooded Sweatshirt – Soft Sustainable Double‑Ply Comfort
EcoSmart Youth Hooded Sweatshirt – Soft Sustainable Double‑Ply Comfort
EcoSmart Youth Hooded Sweatshirt – Soft Sustainable Double‑Ply Comfort
EcoSmart Youth Hooded Sweatshirt – Soft Sustainable Double‑Ply Comfort
EcoSmart Youth Hooded Sweatshirt – Soft Sustainable Double‑Ply Comfort

Hanes

EcoSmart Youth Hooded Sweatshirt – Soft Sustainable Double‑Ply Comfort

Sale price$20.48
Color:

Color

This EcoSmart® hooded sweatshirt offers a soft, breathable blend of cotton and recycled polyester that feels gentle against the skin. The double‑ply hood provides added warmth without a drawstring for enhanced safety. A roomy pouch pocket and ribbed cuffs keep essentials secure while maintaining a sleek silhouette. Sustainable manufacturing practices ensure the garment is produced with at least 50% renewable energy and meets CPSIA tracking label requirements.

Material 50% US‑grown cotton / 50% recycled polyester (CiCLO®)
Fabric Weight 7.8 oz/yd² (lightweight fleece)
Sustainability Made in a facility powered by ≥50% renewable energy
Hood Type Double‑ply, no drawstring for safety
Pocket Front pouch pocket
Stitch Density High‑stitch density PrintPro® XP fleece
Care Instructions Machine wash cold, tumble dry low
Size Range XS – XL (youth)
CPSIA Compliance Tracking label compliant, transitioning to tear‑away label
Renewable Energy Use Facility utilizes Level 2 Higg Index practices