371x Online

Breaking the Mold: Why SOLID INX© X100 (371X) is a Game-Changer for Bioprinting

Time is of the essence in the lab. This formulation is tailored to balance high-speed printing without sacrificing the resolution required for cellular scaffolds. Why It Matters for Research Breaking the Mold: Why SOLID INX© X100 (371X)

Designed for use with advanced systems like the Nanoscribe Quantum X Bio and Upnano NanoOneBio , this material allows for the creation of intricate organ structures with extreme accuracy. Enter the , cataloged under Art

Enter the , cataloged under Art. No. 371X by leading laboratory suppliers like Carl ROTH . This isn't just another resin; it’s a specialized solution designed to push the boundaries of what 3D printers can achieve at the nano and micro scales. What is SOLID INX© X100? This isn't just another resin; it’s a specialized

One of its standout features is the ability to maintain and return to its original form, a critical requirement for simulating dynamic biological environments.

The series refers to a specific formulation of bioink optimized for high-precision printing technologies. While its counterpart, GEL-MA INX© X100 (371L), focuses on gelatin-based biocompatibility, the SOLID INX© X100 (371X) is engineered for structural excellence. Key Features of the 371X Series:

The challenge in bioprinting has always been the "Goldilocks" problem: finding a material that is hard enough to hold a shape but "soft" enough to be biologically relevant. The 371X material fills this gap by offering a stable, solid-phase result that remains compatible with highly innovative bioprinting technologies .