Raw data for Increasing the diameter of vertically aligned, hexagonally ordered pores in mesoporous silica thin films in journal Langmuir. 

DOI for dataset 10.5258/SOTON/D2080

Nabil A. N. Mohamed, Yisong Han, Andrew L. Hector, Anthony R. Houghton, Elwin Hunter-Sellars, Gillian Reid, Daryl R. Williams and Wenjian Zhang

Licence CC-BY
Dates 1/1/2019-30/06/2021

File contains all numerical data associated with figures in the manuscript and the supplementary information:

Fig 1 GISAXS data of SiO2 film with C22TAB
Fig 1 GISAXS data of SiO2 film with C24TAB
Fig 1 Pore diameter vs Surfactant chain length of SiO2 Films
Fig 1 Pore spacing vs Surfactant chain length of SiO2 Films

Fig 4 Isotherm and PSD Raw Data

Fig 5 CV data for SiO2 film with C22TAB using Fe(CN)64- as probe molecule
Fig 5 CV data for SiO2 film with C22TAB using Ru(NH3)63+ as probe molecule
Fig 5 CV data of SiO2 film with C22TAB using FcMeOH as probe molecule
Fig 5 Ip vs SQRT for SiO2 films with C22TAB using FcMeOH as probe molecule
Fig 5 Ip vs SQRT for SiO2 films with C22TAB using Fe(CN)64- as probe molecule
Fig 5 Ip vs SQRT of SiO2 film with C22TAB using Ru(NH3)63+ as probe molecule

Fig S1 C20TAB 1H NMR

Fig S2 C22TAB 1H NMR

Fig S3 C24TAB 1H NMR

Fig S4 C20TAB 13C NMR

Fig S5 C22TAB 13C NMR

Fig S6 C24TAB 13C NMR

Fig S7 EIS -MS of C20TAB surfactant raw data

Fig S8 EIS -MS of C22TAB surfactant raw data

Fig S9 EIS -MS of C24TAB surfactant raw data

Fig S10 GISAXS data of SiO2 film with C14TAB

Fig S11 GISAXS data of SiO2 film with C16TAB

Fig S12 GISAXS data of SiO2 film with C18TAB

Fig S13 GISAXS data of SiO2 film with C20TAB

Fig S16 CV data of SiO2 film with C20TAB using FcMeOH as probe molecule
Fig S16 CV data of SiO2 Film with C20TAB using Fe(CN)64- as the probe molecule
Fig S16 CV data of SiO2 film with C20TAB using Ru(NH3)63+ as probe moelcule

Fig S17 CV data of SiO2 film with C22TAB using FcMeOH as probe molecule
Fig S17 CV data of SiO2 film with C22TAB using Fe(CN)64- as probe molecule
Fig S17 CV data of SiO2 film with C22TAB using Ru(NH3)63+ as probe molecule.

Fig S18 DC-CVs data for SiO2 film with C14TAB using Fe(CN)64- as probe molecule
Fig S18 DC-CVs data of SiO2 film with C14TAB using FcMeOH as probe molecule
Fig S18 DC-CVs data of SiO2 film with C14TAB using Ru(NH3)63+ as probe molecule
Fig S18 Ip vs SQRT for SiO2 films with C14TAB using Fe(CN)64- as probe molecule
Fig S18 Ip vs SQRT of SiO2 film with C14TAB using FcMeOH as probe molecule
Fig S18 Ip vs SQRT of SiO2 film with C14TAB using Ru(NH3)63+ as probe molecule

Fig S19 DC-CVs data for SiO2 film with C16TAB using Fe(CN)64- as probe molecule
Fig S19 DC-CVs data for SiO2 film with C16TAB using Ru(NH3)63+ as probe molecule
Fig S19 DC-CVs data of SiO2 film with C16TAB using FcMeOH as probe molecule
Fig S19 Ip vs SQRT for SiO2 films with C16TAB using FcMeOH as probe molecule
Fig S19 Ip vs SQRT for SiO2 films with C16TAB using Fe(CN)64- as probe molecule
Fig S19 Ip vs SQRT of SiO2 film with C16TAB using Ru(NH3)63+ as probe molecule

Fig S20 DC-CVs data for SiO22 film with C18TAB using Fe(CN)64- as probe molecule
Fig S20 DC-CVs data of SiO2 film with C18TAB using FcMeOH as probe molecule
Fig S20 DC-CVs data of SiO2 film with C18TAB using Ru(NH3)63+ as probe molecule
Fig S20 Ip vs SQRT for SiO2 films with C18TAB using FcMeOH as probe molecule
Fig S20 Ip vs SQRT for SiO2 films with C18TAB using Fe(CN)64- as probe molecule
Fig S20 Ip vs SQRT of Si film with C18TAB using Ru(NH3)63+ as probe molecule

Fig S21 DC-CVs data for SiO2 film with C20TAB using Fe(CN)64- as probe molecule
Fig S21 DC-CVs data for SiO2 film with C20TAB using Ru(NH3)63+ as probe molecule
Fig S21 DC-CVs data of SiO2 film with C20TAB using FcMeOH as probe molecule
Fig S21 Ip vs SQRT for SiO2 films with C20TAB using FcMeOH as probe molecule
Fig S21 Ip vs SQRT for SiO2 films with C20TAB using Fe(CN)64- as probe molecule
Fig S21 Ip vs SQRT of SiO2 film with C20TAB using Ru(NH3)63+ as probe molecule