4 article(s) from Constable, Edwin C
Figure 1: (a) Principle of n- and p-type DSSCs showing opposite charge transfer directions. (b) Structures of...
Figure 2: The surface of NiO(001). (a) Large-scale topographic image of the NiO(001) crystal showing clean te...
Figure 3: (a) Large-scale topographic image showing that Cu-TCPP molecules form islands on the surface of NiO...
Figure 4: (a) Large-scale topographic image showing that C343 molecules form islands on the surface of NiO(00...
Figure 5: (a, b) CPD measurements of Cu-TCCP and C343 islands on the NiO(001) substrate, respectively (scan p...
Scheme 1: Structures of the ruthenium dyes N3 and N719.
Scheme 2: Structures of cis-[Fe{bpy-4,4'-(CO2H)2}2(CN)2], the co-adsorbant cheno, and the NHC iron(II) dye 1 ...
Scheme 3: Structures of ionic liquids.
Figure 1: J–V curves for DSCs containing dye 1 and electrolytes with MPN (E1, E2) and MeCN (E1a, E2a) as solv...
Figure 2: J–V curves for DSCs containing dye 1 electrolytes E1–E4 with different ionic liquids. The solvent i...
Figure 3: J–V curves to illustrate the effects of removing the MBI additive from electrolytes E1–E4.
Figure 4: J–V curves for DSCs with dye 1 and electrolytes E2 and E2b–E2e. The curves were recorded on the day...
Figure 5: EQE spectra for the DSCs with dye 1 and electrolytes E4 (with EMIMPF as ionic liquid) and E2b, E2c,...
Figure 6: J–V curves for DSCs with dye 1 and electrolytes with TBP additive.
Figure 7: (a) Nyquist plots of DSCs with E2b, E2e and E2c electrolytes. (b) Expansion of the high frequency r...
Figure 8: The dependence of short-circuit current density of the DSCs (on day of sealing the cells) on additi...
Figure 1: Structure of 4,4′-di(4-carboxyphenyl)-6,6′-dimethyl-2,2′-bipyridine. The trans-conformation of DCPD...
Figure 2: From large-scale imaging to atomic resolution on NiO(001). (a) Large scale topographic image of the...
Figure 3: Single DCPDMbpy molecules on NiO(001). (a) Topographic image of NiO(001) covered with DCPDMbpy afte...
Figure 4: Windmill-shaped cluster on NiO(001). (a) Topographic image of DCPDMbpy forming molecular clusters o...
Figure 5: Islands of DCPDMbpy on NiO(001). (a, b) simultaneous topographic and CPD measurements of the molecu...
Figure 1: Different components of a DSC under illumination in an open circuit. Upon light excitation electron...
Figure 2: Schematic band diagram for a KPFM tip in close proximity to an n-type semiconductor surface (a) in ...
Figure 3: Schematic structures of (a) the standard dye N719 and (b) a copper(I)-based dye, assembled in situ ...
Figure 4: Topography and work function of (a) a bare TiO2 and (b) an N719 sensitized TiO2 layer with a thickn...
Figure 5: SPV for bare nc-TiO2 in dependency on (a) the wavelength and (b) on the light intensity under super...
Figure 6: Semilogarithmic plot of the SPV dependence on the incident light intensity, (a) measured for three ...
Figure 7: Time evolution of the measured CPD of TiO2 and TiO2 + N719 during the turning on and off of the vio...
Figure 8: Schematic illustration of the KPFM measurement system and the surface dipole induced by adsorption ...
Figure 9: (a) I–V curves for a bare TiO2 solar cell and DSCs sensitized with Cu(I) dye and N719. (b) A schema...
Figure 10: Lift-mode KPFM setup inside a nitrogen glove box in combination with a tunable illumination system ...