Black T-Shirt Mockup - Banana Prompts

Black T-Shirt Mockup - Banana Prompts - AI Generated Image using prompt: Black cotton t-shirt, classic crew neck with short sleeves and a relaxed, slightly boxy fit, displayed in medium close-up showing both front and back views side-by-side against a pure white seamless background. Fabric is medium-weight cotton jersey knit with a matte finish, texture subtly visible, minimal creasing, freshly ironed or professionally steamed. Lighting is soft and diffused from multiple sources, eliminating harsh shadows and ensuring even illumination. Deep black hue accurately rendered in full color with neutral, unedited grading, no color cast. Medium depth of field keeps both views in sharp focus; camera angle is eye-level for straightforward presentation. Clean, minimalist, commercial aesthetic suitable for online retail or catalog use. High-resolution image with crisp detail, no grain, noise, lens distortion, or chromatic aberration. Symmetrical composition emphasizing the shirt’s shape and form. Photorealistic rendering with digitally precise accuracy.

Black cotton t-shirt, classic crew neck with short sleeves and a relaxed, slightly boxy fit, displayed in medium close-up showing both front and back views side-by-side against a pure white seamless background. Fabric is medium-weight cotton jersey knit with a matte finish, texture subtly visible, minimal creasing, freshly ironed or professionally steamed. Lighting is soft and diffused from multiple sources, eliminating harsh shadows and ensuring even illumination. Deep black hue accurately rendered in full color with neutral, unedited grading, no color cast. Medium depth of field keeps both views in sharp focus; camera angle is eye-level for straightforward presentation. Clean, minimalist, commercial aesthetic suitable for online retail or catalog use. High-resolution image with crisp detail, no grain, noise, lens distortion, or chromatic aberration. Symmetrical composition emphasizing the shirt’s shape and form. Photorealistic rendering with digitally precise accuracy.