(Abbreviation: “gly“ for  NH₂CH₂COOH)

• gly₃·ZnCl₂

• gly·ZnCl₂·H₂O

• gly₂·ZnCl₂·2H₂O

Fleck, M., Held, P., Bohatý, L. & Schwendtner, K.: New compounds of glycine with metal halogenides. Z. Kristallogr. 223 (2008) 212-221.

Fleck, M., Becker, P., Bayarjargal, L., Ochrombel, R. & Bohatý, L.: Crystal growth, crystal structure and physical properties of polar orthorhombic tris(glycine) zinc chloride, (NH₃CH₂COO)₃·ZnCl₂.
Cryst. Res. Technol. 43 (2008) 127-134.

Kaminskii, A. A., Bohatý, L., Becker, P., Eichler, H. J., Rhee, H. & Hanuza, J.:  Orthorhombic tris(glycine) zinc chloride Gly₃·ZnCl₂ – a new semi-organic many-phonon SRS crystal manifesting different nonlinear-laser (χ⁽³⁾+χ⁽²⁾) interactions under one-micron picosecond pumping. Laser Phys. Lett. 6 (2009) 872 - 885.

Bohatý, L., Kaminskii, A.A. & Becker, P.: Crystalline cvompounds oft the system glycine – ZnCl₂ – H₂O: crystal growth and optical properties. Acta Cryst. A66 (2010) s157-s158.

• [Mn(C₅H₁₁NO₂)₃]MnBr₄    (= (C₅H₁₁NO₂)₃·2MnBr₂)  

Kocadag, M., Fleck, M. & Bohatý, L.: catena-Poly[[manganese(II)-tris(μ-betaine-κ²O:O´)]tetrabromidomanganate(IV)]. Acta Cryst. E 64 (2008) m1273 – m1274.