Sentence examples for different anchor groups from inspiring English sources

The greater adsorption strength of phosphonic acid compared to formic acid is in good agreement with experimental observations regarding differences in the long-term stability between the two different anchor groups.

In this work, with the (TiO2 16 cluster, we theoretically investigated the effects of five different anchor groups (–CONHOH, –CSSH, –OH, –PO3H2, and –SO2H) on the photovoltaic properties of the C217 dye by means of density functional theory (DFT) and time-dependent density functional theory (TD-DFT) calculations coupled with the incoherent charge-hopping model.

To understand the influence of different anchor groups on the thermal stability of DNA-AuNPs, we have designed DNA-AuNP probes with 3 different anchor groups.

Thus, we conclude that the thermal stability and chemical stability of the DNA-AuNPs with these three different anchor groups follow an opposite trend.

Using a fluorescence assay to determine the kinetics of releasing DNA molecules from DNA-AuNPs, we observed an opposite trend between the temperature-induced and chemical-induced release of DNA from DNA-AuNPs when comparing the DNA-AuNPs that were constructed with different anchor groups.

A comparison of zinc phthalocyanine sensitizers bearing different anchoring groups affirmed the superiority of carboxylate groups relative to those bearing catechol groups in terms of cell performance.

The opto-electronic and interfacial charge transfer properties of azobenzene dye with different anchoring groups, carboxylic acid, alkoxysilyl and tropolone were studied for dye sensitized solar cell applications.

The structural modification effect of different anchoring groups on photophysical, electrochemical and photovoltaic properties of the related DSSCs was extensively investigated.

Nanocrystalline TiO2 based dye-sensitized solar cells (DSSCs) were fabricated using these dyes to investigate the effect of two different anchoring groups on their photovoltaic performance.

Among them, anchoring group is very important in forming the molecular junction, and it was found that different anchoring groups have different junction formation probabilities [14, 18 20].

A series of conductance measurements for the alkane-based molecules have showed a significant effect of different anchoring groups on the binding geometry, junction formation probabilities, contact conductance, and even conductance channel (through LUMO or HOMO) of molecular junctions [21 25].