A review of non-fullerene polymer solar cells: from device physics to morphology control

The rise in power conversion efficiency of organic photovoltaic (OPV) devices over the last few years has been driven by the emergence of new organic semiconductors and the growing understanding of morphological control at both the molecular and aggregation scales. Non-fullerene OPVs adopting p-type conjugated polymers as the donor and n-type small molecules as the acceptor have exhibited steady progress, outperforming PCBM-based solar cells and reaching efficiencies of over 15% in 2019. This review starts with a refreshed discussion of charge separation, recombination, and V OC loss in non-fullerene OPVs, followed by a review of work undertaken to develop favorable molecular configurations required for high device performance. We summarize several key approaches that have been employed to tune the nanoscale morphology in non-fullerene photovoltaic blends, comparing them (where appropriate) to their PCBM-based counterparts. In particular, we discuss issues ranging from materials chemistry to solution processing and post-treatments, showing how this can lead to enhanced photovoltaic properties. Particular attention is given to the control of molecular configuration through solution processing, which can have a pronounced impact on the structure of the solid-state photoactive layer. Key challenges, including green solvent processing, stability and lifetime, burn-in, and thickness-dependence in non-fullerene OPVs are briefly discussed

Metamaterial absorber integrated microfluidic terahertz sensors

Spatial overlap between the electromagnetic fields and the analytes is a key factor for strong light-matter interaction leading to high sensitivity for label-free refractive index sensing. Usually, the overlap and therefore the sensitivity are limited by either the localized near field of plasmonic antennas or the decayed resonant mode outside the cavity applied to monitor the refractive index variation. In this paper, by constructing a metal microstructure array-dielectric-metal (MDM) structure, a novel metamaterial absorber integrated microfluidic (MAIM) sensor is proposed and demonstrated in terahertz (THz) range, where the dielectric layer of the MDM structure is hollow and acts as the microfluidic channel. Tuning the electromagnetic parameters of metamaterial absorber, greatly confined electromagnetic fields can be obtained in the channel resulting in significantly enhanced interaction between the analytes and the THz wave. A high sensitivity of 3.5 THz/RIU is predicted. The experimental results of devices working around 1 THz agree with the simulation ones well. The proposed idea to integrate metamaterial and microfluid with a large light-matter interaction can be extended to other frequency regions and has promising applications in matter detection and biosensing

Two-jet inclusive cross sections in heavy-ion collisions in the perturbative QCD

In the framework of perturbative QCD, double inclusive cross sections for high $p_t$ parton production in nucleus-nucleus collisions are computed with multiple rescattering taken into account. The induced long-range correlations between numbers of jets at forward and backward rapidities are found to reach $10\div 20$% for light nuclei at $\sqrt{s}=200$ GeV/c and to be suppressed for heavy nuclei and LHC energies.Comment: 17 pages, 6 figures. V2: Major revision

Quantification of nitrate storage in the vadose (unsaturated) zone: a missing component of terrestrial N budgets

National terrestrial nitrogen budgets for many developed countries have been calculated as part of the management of impacts of N on the environment, but these rarely represent the subsurface explicitly. Using estimates of vadose zone travel time and agricultural nitrate loading, we quantify, for the first time, the total mass of nitrate contained in the vadose zone of aquifers in England and Wales. This mass peaked in 2008 at 1400 kt N (800 to >1700 kt N from sensitivity analyses) which is approximately 2.5 to 6 times greater than saturated zone estimates for this period and indicates that the subsurface is an important store of reactive nitrogen. About 70% of the nitrate mass is estimated to be in the Chalk, with the remainder split between the Permo-Triassic sandstones, the Jurassic Oolitic limestones and minor aquifers. Current controls on fertiliser application mean that the vadose zone is now a nitrate source and in 2015 we estimate the net flux from the unsaturated zone to groundwater to be 72 kt N/annum. The mass of nitrate in the vadose zone should be included in future terrestrial nitrogen budgets at national and global scales to improve ecosystem management. This article is protected by copyright. All rights reserved

Modelling the groundwater nitrate legacy

This report details the findings of a project jointly funded by the British Geological Survey (BGS)and Defra through the Environment Agency. The overall aim of the work was to investigate the use of new models to inform decision-making on nitrate pollution in groundwater and the potential for incorporating unsaturated zone processes into the model currently used by the Environment Agency to delineate Nitrate Vulnerable Zones (NVZs). The potential application as supporting evidence for the Water Framework Directive has also been considered as nitrate pollution of groundwater remains the most significant reason for failure of WFD environmental objectives across England. The background to the nitrate legacy in groundwater and to the approaches to NVZ designation is described in Stuart et al. (2016). A series of developments to the BGS Nitrate Time Bomb (NTB) model have been made to improve a number of areas and approaches used in the first version of the model. The improvements included a spatially and temporally distributed nitrate input function, improved unsaturated zone thickness estimation, travel time attribution using a 1:250,000 geological map, estimating nitrate velocity in the unsaturated zone using groundwater recharge and aquifer properties, and introducing nitrate transport processes in low permeability superficial deposits and the saturated zones. These now allow the model to be applied at sub national scale. Using the improved model we have also made the first estimate of the mass of nitrate stored within the unsaturated zone and how this will change over time to improve UK nitrate budget estimates. The new version of the BGS NTB approach was applied in three case studies at different scales which compared its outcomes to the results from other modelling to demonstrate that the model can be benchmarked against the other nitrate modelling approaches: • For a basin-scale model of the Thames Chalk (Howden et al., 2010 & 2011). The NTB model gave comparable results to the original study back to 1925 provided that the same nitrate input function was used. Both models failed to predict nitrate concentrations in the Thames after the mid-1980s. • At the multi-borehole scale in the Permo-Triassic. A similar approach was used to the BGS model in the Eden Valley. This replicated the existing model for the area used by the Environment Agency both in terms of trend assessment and in the lack of dilution available within the aquifer block for blending purposes. • At the single borehole scale in the Chalk of the South Downs. The existing Environment and National Park model constructed by AMEC treated the unsaturated zone very similarly to the NTB model. This model provided a good fit to observed concentrations and confirmed the importance of estimating unsaturated zone delays. The assessment of modelled travel time from different areas of the catchment clearly illustrated the arable areas that would give a relatively rapid respond to changes in nitrate management. To illustrate the potential application of the BGS NTB model to support the Environment Agency’s NVZ designation methodology, areas of England were identified where unsaturated zone lags may be significant and where there is uncertainty in the NVZ designation. A major advantage of the BGS NTB model is that it covers the whole of England (and Wales) in a consistent way. A national overview of areas of designation uncertainty identified large areas of England, in particular the chalk outcrop of southern and eastern England. These were compared to areas with significant unsaturated zone travel time indicating where travel time may be contributing to designation uncertainty. The results suggest that the model may be useful both for identifying currently impacted groundwater which reflects legacy fertilizer application and also where additional designation could be needed as impacts have not yet emerged. Application of the model to support implementation of the WFD has also been considered and whilst no quantitative analysis has yet been carried out there are a number of ways that the model could be of significant benefit. For example, the model could be used to estimate when trend reversal would be expected to occur as a result of measures (at a specific location or across a groundwater body) and the time required to achieve good chemical status (alternative objective setting). A further application could be for scenario testing such as evaluating the effects of different land use/management measures as part of cost benefit analysis or considering the long term impacts of climate change through changing fertiliser use and/or recharge

Experimental analysis of sample-based maps for long-term SLAM

This paper presents a system for long-term SLAM (simultaneous localization and mapping) by mobile service robots and its experimental evaluation in a real dynamic environment. To deal with the stability-plasticity dilemma (the trade-off between adaptation to new patterns and preservation of old patterns), the environment is represented at multiple timescales simultaneously (5 in our experiments). A sample-based representation is proposed, where older memories fade at different rates depending on the timescale, and robust statistics are used to interpret the samples. The dynamics of this representation are analysed in a five week experiment, measuring the relative influence of short- and long-term memories over time, and further demonstrating the robustness of the approach

Genuine collective flow from Lee-Yang zeroes

We propose to use the theory of phase transitions of Lee and Yang as a practical tool to analyze long-range correlations in a finite-size system. We apply it to the analysis of anisotropic flow in nucleus-nucleus collisions, and show that this method is more reliable than any other used so far.Comment: 5 pages, 3 eps figures, RevTeX. v2: overall presentation modifie

EHR STAR: The State‐Of‐the‐Art in Interactive EHR Visualization

Since the inception of electronic health records (EHR) and population health records (PopHR), the volume of archived digital health records is growing rapidly. Large volumes of heterogeneous health records require advanced visualization and visual analytics systems to uncover valuable insight buried in complex databases. As a vibrant sub-field of information visualization and visual analytics, many interactive EHR and PopHR visualization (EHR Vis) systems have been proposed, developed, and evaluated by clinicians to support effective clinical analysis and decision making. We present the state-of-the-art (STAR) of EHR Vis literature and open access healthcare data sources and provide an up-to-date overview on this important topic. We identify trends and challenges in the field, introduce novel literature and data classifications, and incorporate a popular medical terminology standard called the Unified Medical Language System (UMLS). We provide a curated list of electronic and population healthcare data sources and open access datasets as a resource for potential researchers, in order to address one of the main challenges in this field. We classify the literature based on multidisciplinary research themes stemming from reoccurring topics. The survey provides a valuable overview of EHR Vis revealing both mature areas and potential future multidisciplinary research directions