Improving the charge injection in bottom contact organic transistor by carbon electrodes

The electrode/organic semiconductor interface in OFETs is critical to device performance. Traditional metal electrodes often produce unfavorable interfacial dipole when they are in contact with organic semiconductors, inducing a larger...

Performance Improvement in single-gate organic transistors with contacts at top and bottom: Additional p + region insertion near source and drain

This research explores performance attributes of bottom gate top contact (BGTC) and bottom gate bottom contact (BGBC) organic thin film transistors (OTFT). To upgrade the performance characteristics, a region of 5nm with high concentration of carrier is tallied neighboring contacts. The drain current for BGTC is –18.6μ A as compared to –5.1μ A of BGBC transistor. Also, it is established that the innate attributes of BGTC are better than those of their counterparts, which is typically considered because of the inadequate contact attributes and mediocre semiconductor quality of BGBC OTFT. The analysis showed that upon varying the length of the channel ranging from 5μm to 40μm, there was a significant change in the drain current of BGTC and BGBC devices. For the same values of V GS and V DS (0V to –5V) where drain current in BGTC structure varied from –129.86μ A to –13.69μ A, whereas for their counterparts it ranged from –37.10μ A to –3.76μ A for channel length equal to 5μ m and 40μ m respectively. Also, with the varying doping strength ranging from 1012 cm–3 to 1016 cm–3 for BGBC device, drain current varied from –2.15μ A to –18.52μ A for BGTC whereas for BGBC it varied from –0.19μ A to –7.09μ A keeping V GS and V DS –5 V, yielding that upon varying the doping strength, where for BGTC I D changed by a factor of 8.6, the BGBC device showed a considerable change by a factor of 37.3. Likewise, mobility, threshold voltage, sub-threshold swing and transconductance also showing better performance with the P + insertion. These variations in the innate attributes are primarily due to the deficiency of carriers at the interface of source and channel, leading to a greater drop in the potential, which is more prominent for the bottom gate bottom contact devices.

Sediment impacts on sponges and a deep-sea coral in New Zealand

<p><b>Increased levels of suspended sediment in the water column are important factors contributing to the degradation of marine ecosystems worldwide. In coastal waters, temporal variation in suspended sediment concentrations (SSCs) occurs naturally due to seasonal and oceanographic processes. However, there is evidence that anthropogenic activities are increasing sediment concentrations. The volume of sediment moving from land-based sources into coastal ecosystems and human activities in the ocean disturbing the seafloor, such as dredging and bottom-contact fisheries, have been increasing over the last century. In addition, offshore activities, particularly bottom-contact fishing and potential deep-sea mining, can create sediment plumes in the deep-sea that may extend over long distances. Elevated suspended sediment concentrations have detrimental effects on benthic communities, particularly for suspension feeders like sponges and corals.</b></p> <p>The aim of this thesis was to investigate the effects of increased SSCs that might arise from heavy anthropogenic disturbance on common shallow water and deep-sea sponges and a deep-sea coral in New Zealand, as these groups contribute to habitat structure in some benthic environments, including the deep sea.</p>

Sediment impacts on sponges and a deep-sea coral in New Zealand

<p><b>Increased levels of suspended sediment in the water column are important factors contributing to the degradation of marine ecosystems worldwide. In coastal waters, temporal variation in suspended sediment concentrations (SSCs) occurs naturally due to seasonal and oceanographic processes. However, there is evidence that anthropogenic activities are increasing sediment concentrations. The volume of sediment moving from land-based sources into coastal ecosystems and human activities in the ocean disturbing the seafloor, such as dredging and bottom-contact fisheries, have been increasing over the last century. In addition, offshore activities, particularly bottom-contact fishing and potential deep-sea mining, can create sediment plumes in the deep-sea that may extend over long distances. Elevated suspended sediment concentrations have detrimental effects on benthic communities, particularly for suspension feeders like sponges and corals.</b></p> <p>The aim of this thesis was to investigate the effects of increased SSCs that might arise from heavy anthropogenic disturbance on common shallow water and deep-sea sponges and a deep-sea coral in New Zealand, as these groups contribute to habitat structure in some benthic environments, including the deep sea.</p>