Filter 205,000+ materials by biocompatible elements, screen Mg/Ca/Ti alloys for implants, and explore polymer carriers for nanoparticle drug delivery — all without a single lab run.
Identifying candidate scaffolds or implant alloys from literature requires manual cross-referencing of biocompatibility data, mechanical properties, and degradation rates.
Choosing polymer carriers and nanoparticle scaffolds for encapsulation is largely experience-driven — systematic computational screening doesn't exist in most workflows.
General materials databases don't support filtering by biological safety of constituent elements, making it hard to identify non-toxic candidate compositions quickly.
Restrict search to materials composed exclusively of biocompatible elements (C, H, N, O, Ca, Mg, Ti, Zn, Fe). Exclude toxic heavy metals instantly.
Filter Ti, Mg, and Co-Cr alloys by elastic modulus (bone-matching), density, and corrosion stability for orthopaedic and dental applications.
Carve spherical and cubic nanoparticles from any crystal structure. Ideal for modelling drug loading and surface functionalisation geometry.
One toggle to restrict the entire 205k database to materials containing only biologically safe elements.
Filter by elastic modulus (stiffness matching), density, band gap (for photodynamic therapy), and formation energy (stability).
Shape any crystal into a spherical or cubic nanoparticle of specified radius. Inspect surface termination and coordination numbers.
Export nanoparticle and scaffold geometries as LAMMPS or XYZ files ready for molecular dynamics in GROMACS or NAMD.
We screened 400 Mg alloy compositions for biodegradable bone screws in a single afternoon. MatCraft replaced two months of literature curation and got us to preclinical candidates faster.
Real Stripe-live prices. Every credit pack is valid 12 months; every subscription rolls 30 days and cancels any time. Stripe-hosted checkout — we never see a card number.
Cost-equivalent to a single 1h consultancy call — covers a full preclinical screening cycle.
Modal tier for a biomaterials team — 200 credits covers ~40 parallel carrier evaluations per month.
For large pharma R&D orgs that need GxP-adjacent data controls and pooled credits across multiple drug-delivery programmes.
Join thousands of researchers and engineers already using MatCraft to accelerate materials discovery.