Fig. 9: Hydrogen storage in 3D-2D nanocomposites.

a H₂ adsorption of HKUST-1, GO and HKUST-1/GO nanocomposites (MG-1, MG-2, and MG-3) at 77 K. a is reprinted with permission from ref. ⁹¹, Copyright 2011 Elsevier. b H₂ adsorption (77 K) of HKUST-1, GO, and HKUST-1/GO nanocomposites (CG-3, CG-9, and CG-15). b is reprinted with permission from ref. ³⁰, Copyright 2013 Royal Society of Chemistry. c N₂ physisorption (77 K) of NiDOBDC and NiDOBDC/GO nanocomposites. d H₂ adsorption isotherm of NiDOBDC, GO, and NiDOBDC/GO nanocomposites up to 40 bar at 25 °C and up to 40 bar at 40 °C. c, d are reprinted with permission from ref. ⁴³, Copyright 2018 Elsevier. e Comparison of measured and simulated H₂ adsorption isotherm of GA (graphene aerogel), Cu-BTC, and Cu-BTC/GA nanocomposites at 77 K. f Number of H₂ molecules adsorbed by Cu-BTC and Cu-BTC/GA-based nanocomposites. Cu-BTC/GA-n (where n = 1, 2, or 3, and denotes the number of GO layers in Cu-BTC/GA), based on the measurement conducted at 100 bar and 77 K. e, f are reprinted with permission from ref. ⁹⁴, Copyright 2011 Elsevier.