Macrolorblx. Upd

The (>95 %) and ambient‑stable colloidal dispersions enable facile processing (spin‑coating, inkjet printing) into thin films (<200 nm) while preserving the 3‑D order.

Using the package, we modeled an infinite FCC lattice of macrolorblx spheres (radius r = 1.6 nm, dielectric constant ε = 3.2). The calculated band diagram (Figure 3) shows a complete PBG between 620–720 nm (Δλ/λ ≈ 0.15). Switching the lorbl side‑chains to the cis state reduces ε to 2.8, shifting the PBG to 770–860 nm, offering reversible spectral tuning . macrolorblx.

| Component | Value (ų) | |-----------|-----------| | αₓₓ | 52.3 | | αᵧᵧ | 53.1 | | αzz | 7.8 | | | 45.2 | Switching the lorbl side‑chains to the cis state

We have demonstrated that constitutes a new class of self‑assembling photonic metamaterials with a robust FCC lattice, complete visible‑range photonic bandgaps, and reversible, ultrafast photo‑tuning. The synergy of rational molecular design, scalable synthesis, and predictive multiscale modeling establishes macrolorblx as a versatile platform for next‑generation photonic devices. shifting the PBG to 770–860 nm