Your search keyword '"White, Thomas A"' showing total 292 results

1. Enhanced Efficiency and Stability for the Inverted High‐Bandgap Perovskite Solar Cell via Bottom Passivation Strategy.

Author

Chang, Li‐Chun, Dinh Bui, Anh, Huang, Keqing, Kremer, Felipe, Brink, Frank, Wang, Wei, Haggren, Anne, Mayon, Azul Osorio, Ta, Xuan Minh Chau, Duan, Leiping, Lem, Olivier Lee Cheong, Hou, Yihui, Nguyen, Dang‐Thuan, Tabi, Grace Dansoa, Zhan, Hualin, Ahmad, Viqar, Duong, The, white, Thomas, Walter, Daniel, and Weber, Klaus

Subjects

SOLAR cells, FUNCTIONAL groups, PASSIVATION, BENZIDINE, PRODUCTION sharing contracts (Oil & gas)

Abstract

The bottom perovskite with the hole transport layer (HTL) in inverted perovskite solar cells (PSCs) interface has received little attention due to challenges like interlayer dissolution during perovskite deposition. And voids at the perovskite/HTL interface can degrade cell performance. This work introduces a two‐dimensional (2D) perovskite layer between the perovskite and poly (N, N′‐bis‐4‐butylphenyl‐N, N′‐bisphenyl) benzidine (Poly‐TPD) HTL using a mixed solution of 4‐methylphenethylammonium chloride (4M‐PEA‐Cl), methylammonium iodide (MA‐I), and Poly(9,9‐bis(3′‐(N,N‐dimethyl)‐N‐ethylammoinium‐propyl‐2,7‐fluorene)‐alt‐2,7‐(9,9‐dioctylfluorene))dibromide (PFN‐Br). The amine functional groups in the organic salts improved HTL wettability, resulting in a void‐free interface. 4M‐PEA‐Cl, with its strong electron‐withdrawing benzene ring, outperformed other amine‐containing salts in passivating undercoordinated Pb2+ ions. Incorporating this hybrid passivation layer in PSCs resulted in a 1.8% absolute increase in power conversion efficiency (PCE) to 19.1% with 1.68 eV perovskite bandgap. Additionally, the passivated PSCs demonstrated enhanced operational stability, retaining 91% of their initial efficiency after 800 hours of continuous 1‐sun illumination, compared to 84.7% for the control sample. [ABSTRACT FROM AUTHOR]

Published

2024

2. Performance Potential for Locally Contacted Perovskite Solar Cells.

Author

Tabi, Grace Dansoa, Peng, Jun, Mozaffari, Naeimeh, Catchpole, Kylie R., Weber, Klaus J., Duong, The, White, Thomas P., and Walter, Daniel

Subjects

CHARGE carrier lifetime, PEROVSKITE, METHODS engineering, CHARGE carriers, PASSIVATION, SILICON solar cells

Abstract

In perovskite solar cells (PSCs), a common characteristic of highly effective interface passivation materials is low conductivity. Gains in voltage are thus often disproportionately offset by resistive losses. Local contact approaches can minimize this trade‐off and have a proven track record in conventional silicon photovoltaics. Indeed, recent record efficiencies for centimeter‐scale PSCs exploit architectures where the passivation layer partially covers the perovskite‐transport layer interface. Herein, a three‐dimensional numerical device model is used to determine practical performance limits to local contact geometries and consider both the optimum contact dimensions and the trade‐offs involved in relaxing these dimensions for ease of fabrication. It is observed that the potential for substantial power conversion efficiency (PCE) increases with local contacts. In devices where power loss occurs solely through recombination at the contacted interface, PCE can be enhanced by up to 10% absolute compared to a full‐area contact. However, optimum PCEs depend on contacts on the order of nanometers. It is shown that more fabrication‐friendly micrometer‐scale contacts still boost PCE, but the absolute enhancement falls short due to the relatively low bulk perovskite charge carrier diffusion length. This may ultimately motivate methods of interface engineering that produce "effective" local contact geometries at nanometer scales, such as via self‐forming layers. [ABSTRACT FROM AUTHOR]

Published

2024

3. Universal Strategy with Structural and Chemical Crosslinking Interface for Efficient and Stable Perovskite Solar Cells.

Author

Huang, Keqing, Chang, Lichun, Hou, Yihui, Ji, Wenzhong, Trần‐Phú, Thành, Bui, Anh Dinh, Mayon, Azul Osorio, Wang, Wei, Lem, Olivier Lee Cheong, Nguyen, Dang‐Thuan, Tabi, Grace Dansoa, Duan, Leiping, Liu, Yun, Shen, Heping, Yang, Junliang, White, Thomas P., Catchpole, Kylie R., Weber, Klaus J., and Duong, The

Subjects

SOLAR cells, PEROVSKITE, CHLORIDE ions, STANNIC oxide, CONDUCTION bands, HUMIDITY

Abstract

Due to the limited interface contact and weak interfacial interaction, planar heterojunction perovskite solar cells (PSCs) have space for further improvement. Herein, a structural and chemical crosslinking interface is proposed and constructed by introducing an extra layer, which blends tin dioxide (SnO2) nanoparticles with chloride salts. Since the incorporated materials can be dissolved during the fabrication of perovskite, the quality of perovskite films is improved, leading to larger grain size and reduced trap‐state density. Also, more chloride ions at the SnO2/perovskite interface are observed and the interaction between Cl− and Sn4+ is confirmed. It results in more pronounced n‐type SnO2 with better conductivity and deeper conduction bands, leading to preferable energy level alignment between SnO2 and perovskite. Consequently, the open‐circuit voltage and fill factor of the devices increase, and target cells present better stability, retaining 98% of initial efficiencies after >10 000 h storage in dry air (≈5% relative humidity) and maintaining 85.50% of the initial efficiency after 1000 h of operation under light. This strategy enables the achievement of 25.28% efficiency with a low bandgap (1.53 eV) perovskite composition, and it is confirmed to be universal when other related materials are utilized. [ABSTRACT FROM AUTHOR]

Published

2024

4. Void Formation and Radiation‐Induced Ion Migration in Perovskite Solar Cells under 10 MeV Proton Radiation.

Author

Nguyen, Dang‐Thuan, Bui, Anh Dinh, Huang, Keqing, Leung, Tik Lun, Chang, Li‐Chun, Nguyen, Khoa, Tabi, Grace Dansoa, Trần‐Phú, Thành, Nguyen, Hieu, Ho‐Baillie, Anita, Kluth, Patrick, Weber, Klaus, White, Thomas, and Duong, The

Subjects

SOLAR cells, ION migration & velocity, PEROVSKITE, PROTONS, RADIATION, PHOTOVOLTAIC power systems

Abstract

Perovskite solar cell (PSC) technology is a promising candidate for space applications because of its high power‐to‐weight ratio, low‐cost fabrication process, and good tolerance to high‐energy particle radiation. In this work, perovskite films and resultant high‐efficiency PSCs are assessed under 10 MeV proton radiation at fluences in the range 1e12–1e14 p cm−2, which are equivalent to 1 to 100 years in geostationary orbit (GEO) without any shielding or cover. For the first time, void formation and material ablation are detected on perovskite films, indicating structural damage of the materials under the proton radiation. Furthermore, ions inside the devices especially Au and Pb ions are displaced to underlying layers under the proton bombardment. These lead to the degradation of PSCs to ≈89% of the initial performance (from 24.1% to 21.4%) at the highest dose. The experimental results are supported by previous simulation works with a good fit in all optoelectronic parameters. This study provides insights into the degradation mechanism of PSCs under proton radiation and paves the way for the utilization of PSCs in space applications. [ABSTRACT FROM AUTHOR]

Published

2024

5. Deceptive pollinator lures benefit from physical and perceptual proximity to flowers.

Author

White, Thomas E.

Subjects

*INSECT pollinators, *POLLINATORS, *FLOWERS, *LANDSCAPE ecology, *COGNITIVE bias

Abstract

Predators often use deception to exploit sensory and cognitive biases in prey. In pollinating insects, these include preferences for conspicuous colours associated with flowers, which predators such as orb‐web spiders display as prey lures. Theory predicts that deceptive signal efficacy should covary with both their perceptual similarity and physical proximity to the resources—here, flowers—whose cues they are imitating. Here I used the colour‐polymorphic jewelled spider Gasteracantha fornicata to test this prediction. I first examined spiders' capture success in the field, and found their visual resemblance and physical proximity to flowers interacted to mediate capture rates, with colour‐similarity becoming increasingly important as the distance between spiders and flowers decreased. I then replicated this interaction experimentally. Spiders adjacent to colour‐matched flowers enjoyed heightened capture success relative to those with nearby but colour‐mismatched flowers. While spiders with flowers placed at a distance (irrespective of colour) recorded the fewest captures. These results support 'neighbourhood' effects in aggressive deception as receivers' vulnerability to exploitation is mediated by the local signalling community. More generally, they emphasise the importance of the broader information landscape in the ecology of communication, and suggest misinformation is most effective when physically and perceptually proximate to the truth. [ABSTRACT FROM AUTHOR]

Published

2024

6. Senescent skeletal muscle fibroadipogenic progenitors recruit and promote M2 polarization of macrophages.

Author

Zhang, Xu, Ng, Yan Er, Chini, Lucas C. S., Heeren, Amanda A., White, Thomas A., Li, Hao, Huang, Haojie, Doolittle, Madison L., Khosla, Sundeep, and LeBrasseur, Nathan K.

Subjects

SKELETAL muscle, MACROPHAGES, CELLULAR aging, IMMUNOSENESCENCE, MUSCLE cells, CELLULAR signal transduction, OSTEOPONTIN

Abstract

Senescent cells compromise tissue structure and function in older organisms. We recently identified senescent fibroadipogenic progenitors (FAPs) with activated chemokine signaling pathways in the skeletal muscle of old mice, and hypothesized these cells may contribute to the age‐associated accumulation of immune cells in skeletal muscle. In this study, through cell–cell communication analysis of skeletal muscle single‐cell RNA‐sequencing data, we identified unique interactions between senescent FAPs and macrophages, including those mediated by Ccl2 and Spp1. Using mouse primary FAPs in vitro, we verified increased expression of Ccl2 and Spp1 and secretion of their respective proteins in the context of both irradiation‐ and etoposide‐induced senescence. Compared to non‐senescent FAPs, the medium of senescent FAPs markedly increased the recruitment of macrophages in an in vitro migration assay, an effect that was mitigated by preincubation with antibodies to either CCL2 or osteopontin (encoded by Spp1). Further studies demonstrated that the secretome of senescent FAPs promotes polarization of macrophages toward an M2 subtype. These data suggest the unique secretome of senescent FAPs may compromise skeletal muscle homeostasis by recruiting and directing the behavior of macrophages. [ABSTRACT FROM AUTHOR]

Published

2024

7. Calorie restriction reduces biomarkers of cellular senescence in humans.

Author

Aversa, Zaira, White, Thomas A., Heeren, Amanda A., Hulshizer, Cassondra A., Saul, Dominik, Zhang, Xu, Molina, Anthony J. A., Redman, Leanne M., Martin, Corby K., Racette, Susan B., Huffman, Kim M., Bhapkar, Manjushri, Khosla, Sundeep, Das, Sai Krupa, Fielding, Roger A., Atkinson, Elizabeth J., and LeBrasseur, Nathan K.

Subjects

*CELLULAR aging, *LOW-calorie diet, *BIOMARKERS, *INSULIN sensitivity, *NUTRITIONAL status, *ACTIVE aging

Abstract

Calorie restriction (CR) with adequate nutrient intake is a potential geroprotective intervention. To advance this concept in humans, we tested the hypothesis that moderate CR in healthy young‐to‐middle‐aged individuals would reduce circulating biomarkers of cellular senescence, a fundamental mechanism of aging and aging‐related conditions. Using plasma specimens from the Comprehensive Assessment of Long‐term Effects of Reducing Intake of Energy (CALERIE™) phase 2 study, we found that CR significantly reduced the concentrations of several senescence biomarkers at 12 and 24 months compared to an ad libitum diet. Using machine learning, changes in biomarker concentrations emerged as important predictors of the change in HOMA‐IR and insulin sensitivity index at 12 and 24 months, and the change in resting metabolic rate residual at 12 months. Finally, using adipose tissue RNA‐sequencing data from a subset of participants, we observed a significant reduction in a senescence‐focused gene set in response to CR at both 12 and 24 months compared to baseline. Our results advance the understanding of the effects of CR in humans and further support a link between cellular senescence and metabolic health. [ABSTRACT FROM AUTHOR]

Published

2024

8. Independently Actuated Soft Magnetic Manipulators for Bimanual Operations in Confined Anatomical Cavities.

Author

Koszowska, Zaneta, Brockdorff, Michael, da Veiga, Tomas, Pittiglio, Giovanni, Lloyd, Peter, Khan-White, Thomas, Harris, Russell A., Moor, James W., Chandler, James H., and Valdastri, Pietro

Subjects

MANIPULATORS (Machinery), ROBOT design & construction, PERMANENT magnets, MAGNETIC fields, RANGE of motion of joints, PITUITARY tumors

Abstract

Soft magnetic manipulators offer the prospect of improved surgical outcomes through their potential for miniaturization and inherently safe tissue interaction. However, independent actuation of multiple manipulators within the same confined workspace is limited by undesired simultaneous actuation and manipulator–manipulator interactions. Herein, for the first time, approaches for the independent magnetic actuation of two magnetic continuum manipulators within the same confined workspace are proposed. A novel modular magnetic soft robot segment design is proposed with modified geometry to provide preferential bending planes and high angles of deflection. This design is integrated into two dual‐segment magnetic manipulators which, when arranged in parallel, can deliver independent bending in two planes of motion. Two distinct independent control strategies are proposed, based on orthogonal manipulator magnetization profiles and local field gradient control, respectively. Each dual‐manipulator configuration is characterized over a sequence of applied magnetic fields and gradients, induced via a dual robotically controlled external permanent magnet system. Manipulator independence, bending range of motion, and twisting behaviors are evaluated as a function of control strategy and manipulator separation distance. To demonstrate the system's potential in clinical scenarios, a dual‐manipulator configuration is adapted to carry an endoscopic camera and optic fiber, respectively. The resultant bimanual system is deployed in the confined anatomy of a skull‐base phantom to simulate minimally invasive ablation of a pituitary adenoma. Independent motion of the camera and tool within the confined workspace demonstrate the potential for an independent magnetic tool manipulation for surgical applications. [ABSTRACT FROM AUTHOR]

Published

2024

9. Simulating Proton Radiation Tolerance of Perovskite Solar Cells for Space Applications.

Author

Nguyen, Dang-Thuan, Walter, Daniel, Weber, Klaus J., Duong, The, and White, Thomas P.

Subjects

RADIATION tolerance, SOLAR cells, PHOTOVOLTAIC power systems, PEROVSKITE, ION scattering, PROTONS

Abstract

Perovskite solar cell technology offers a promising power option for space applications due to its potential properties of high power‐to‐weight ratios and space‐radiation tolerance. Herein, a new simulation‐based method is introduced to predict the degradation of perovskite solar cells under proton radiation. The approach uses ion scattering simulations to generate depth‐dependent defect profiles as a function of proton energy and fluence, which are then incorporated into optoelectronic simulations to predict the degradation. The method to study the impact of perovskite compositions on radiation tolerance is applied and an inorganic perovskite CsPbI2Br and an organic–inorganic perovskite FAMAPbI3 is compared. The simulations predict that CsPbI2Br and FAMAPbI3 cells retain 62% and 65% of their initial efficiencies after a 100 keV fluence of 1e14 cm−2, respectively. For comparison, unshielded III–V solar cells display similar degradation for proton fluences 3–4 orders of magnitude lower. It is also shown that the radiation direction must be considered when interpreting and predicting radiation tolerance, as the spatial overlap between photogenerated carriers and radiation‐induced defects has a significant impact on cell performance. Finally, a method to predict mission end‐of‐life performance of perovskite cells is demonstrated, taking into account the full proton radiation energy spectrum and fluence and the incident direction. [ABSTRACT FROM AUTHOR]

Published

2023

10. Biomarkers of cellular senescence and risk of death in humans.

Author

St. Sauver, Jennifer L., Weston, Susan A., Atkinson, Elizabeth J., Mc Gree, Michaela E., Mielke, Michelle M., White, Thomas A., Heeren, Amanda A., Olson, Janet E., Rocca, Walter A., Palmer, Allyson K., Cummings, Steven R., Fielding, Roger A., Bielinski, Suzette J., and LeBrasseur, Nathan K.

Subjects

CELLULAR aging, RECEPTOR for advanced glycation end products (RAGE), OLDER people, EXTRACELLULAR matrix proteins, BIOMARKERS, GROWTH factors

Abstract

A robust and heterogenous secretory phenotype is a core feature of most senescent cells. In addition to mediators of age‐related pathology, components of the senescence associated secretory phenotype (SASP) have been studied as biomarkers of senescent cell burden and, in turn, biological age. Therefore, we hypothesized that circulating concentrations of candidate senescence biomarkers, including chemokines, cytokines, matrix remodeling proteins, and growth factors, could predict mortality in older adults. We assessed associations between plasma levels of 28 SASP proteins and risk of mortality over a median follow‐up of 6.3 years in 1923 patients 65 years of age or older with zero or one chronic condition at baseline. Overall, the five senescence biomarkers most strongly associated with an increased risk of death were GDF15, RAGE, VEGFA, PARC, and MMP2, after adjusting for age, sex, race, and the presence of one chronic condition. The combination of biomarkers and clinical and demographic covariates exhibited a significantly higher c‐statistic for risk of death (0.79, 95% confidence interval (CI): 0.76–0.82) than the covariates alone (0.70, CI: 0.67–0.74) (p < 0.001). Collectively, these findings lend further support to biomarkers of cellular senescence as informative predictors of clinically important health outcomes in older adults, including death. [ABSTRACT FROM AUTHOR]

Published

2023

11. Who holds power in decision making for young people's future?

Author

Kapeke, Kevin, Muse, Khalid, Rowan, Jennifer, Saw, Planning, White, Thomas, Ojinnaka‐Psillakis, Angelica, Peries, Tharidhu D, Miranda, Nicola P, Ali, Shireen, Dau, Anyuop, Taafua, Luisa, Nalupta, Charlize, Harvey, Maeson, and Zorbas, Christina

Abstract

This article examines the dynamics of power and decision-making in public health policy, with a focus on the inclusion of young people's voices. It emphasizes the need to consider the perspectives of marginalized groups, such as Aboriginal and Torres Strait Islander, culturally diverse, low-income, LGBTQIA+, and disabled children and young people. The article discusses the significance of youth participation in decision-making and highlights successful initiatives that have empowered young people in policy discussions. It also suggests strategies for transforming institutional dialogue, amplifying diverse voices, and creating new policy processes. The article emphasizes the importance of better including diverse youth voices in decision-making and proposes a framework and indicators to monitor and improve youth participation efforts. It underscores the need to address power imbalances and structural barriers for equitable youth participation in public policy decisions. [Extracted from the article]

Published

2023

12. Artificial flowers as a tool for investigating multimodal flower choice in wild insects.

Author

Chapman, Kathryn M., Richardson, Freya J., Forster, Caitlyn Y., Middleton, Eliza J. T., White, Thomas E., Burke, Paul F., and Latty, Tanya

Subjects

WILD flowers, POLLINATION by bees, HONEYBEES, SPECIES diversity, INSECTS, MAINTENANCE costs, DIPTERA, HONEY plants

Abstract

Flowers come in a variety of colours, shapes, sizes and odours. Flowers also differ in the quality and quantity of nutritional reward they provide to entice potential pollinators to visit. Given this diversity, generalist flower‐visiting insects face the considerable challenge of deciding which flowers to feed on and which to ignore. Working with real flowers poses logistical challenges due to correlations between flower traits, maintenance costs and uncontrolled variables. Here, we overcome this challenge by designing multimodal artificial flowers that varied in visual, olfactory and reward attributes. We used artificial flowers to investigate the impact of seven floral attributes (three visual cues, two olfactory cues and two rewarding attributes) on flower visitation and species richness. We investigated how flower attributes influenced two phases of the decision‐making process: the decision to land on a flower, and the decision to feed on a flower. Artificial flowers attracted 890 individual insects representing 15 morphospecies spanning seven arthropod orders. Honeybees were the most common visitors accounting for 46% of visitors. Higher visitation rates were driven by the presence of nectar, the presence of linalool, flower shape and flower colour and was negatively impacted by the presence of citral. Species richness was driven by the presence of nectar, the presence of linalool and flower colour. For hymenopterans, the probability of landing on the artificial flowers was influenced by the presence of nectar or pollen, shape and the presence of citral and/or linalool. The probability of feeding increased when flowers contained nectar. For dipterans, the probability of landing on artificial flowers increased when the flower was yellow and contained linalool. The probability of feeding increased when flowers contained pollen, nectar and linalool. Our results demonstrate the multi‐attribute nature of flower preferences and highlight the usefulness of artificial flowers as tools for studying flower visitation in wild insects. [ABSTRACT FROM AUTHOR]

Published

2023

13. Assessing diverse evidence to improve conservation decision‐making.

Author

Christie, Alec P., Morgan, William H., Salafsky, Nick, White, Thomas B., Irvine, Robyn, Boenisch, Nicolas, Chiaravalloti, Rafael M., Kincaid, Kate, Rezaie, Ali Mohammad, Yamashita, Hiromi, and Sutherland, William J.

Subjects

EQUILIBRIUM testing, DECISION making, THEORY of change, LOCAL knowledge

Abstract

Meeting the urgent need to protect and restore ecosystems requires effective decision‐making through wisely considering a range of evidence. However, weighing and assessing evidence to make complex decisions is challenging, particularly when evidence is of diverse types, subjects, and sources, and varies greatly in its quality and relevance. To tackle these challenges, we present the Balance Evidence Assessment Method (BEAM), an intuitive way to weigh and assess the evidence relating to the core assumptions underpinning the planning and implementation of conservation projects, strategies, and actions. Our method directly tackles the question of how to bring together diverse evidence whilst assessing its relevance, reliability, and strength of support for a given assumption, which can be mapped, for example to a Theory of Change. We consider how simple principles and safeguards in applying this method could help to respectfully, and equitably, include more local forms of knowledge when assessing assumptions, such as by ensuring diverse groups of individuals contribute and assess evidence. The method can be flexibly applied within existing decision‐making tools, platforms, and frameworks whenever assumptions (i.e., claims and hypotheses) are made. This method could greatly facilitate and improve the weighing of diverse evidence to make decisions in a range of situations, from local projects to global policy platforms. [ABSTRACT FROM AUTHOR]

Published

2023

14. Proton nuclear magnetic resonance (1H NMR) of flammable organic chemicals in radioactive high‐level supernatant waste at the Savannah River Site (SRS).

Author

Fondeur, Fernando, White, Thomas L., Coleman, Charles J., Diprete, David P., Nash, Charles A., and Looney, Brian B.

Subjects

*PROTON magnetic resonance, *NUCLEAR magnetic resonance, *ORGANIC compounds, *CHEMICAL processes, *RADIOACTIVE wastes, *CHEMICAL shift (Nuclear magnetic resonance), *FORMIC acid, *GLYCOLIC acid

Abstract

The Savannah River Site stores approximately 36 million gallons of radioactive and hazardous waste that contains approximately 245 million curies. The waste is sent through various chemical processes to reduce its volume and to separate various components. The facility plans to replace formic acid (a chemical used to reduce soluble mercury) with glycolic acid. Recycle solution with glycolate may flow back to the tank farm, where the glycolate can generate hydrogen gas by thermal and radiolytic mechanisms. The current analytical method for detecting glycolate (ion chromatography) in supernatant requires a large dilution to reduce interference from the nitrate anions. Hydrogen nuclear magnetic resonance is an analytical method that requires less sample dilution. It takes advantage of the CH2 group in glycolate. Liquid samples were spiked with four different levels of glycolate to build a calibration line, as it is recommended in the standard addition method. The detection and quantitation limits determined were 1 and 5 ppm, respectively, for 32 scans, which is well below the process limit of 10 ppm. In one test, 800 scans of a supernatant spiked with 1 ppm glycolate resulted in a ‐CH2 peak with a signal‐to‐noise ratio of 36. [ABSTRACT FROM AUTHOR]

Published

2023

15. Social media conservation messaging mirrors age‐old taxonomic biases in public domain.

Author

Forster, Caitlyn Y., Hochuli, Dieter F., Keith, Ryan J., Latty, Tanya, White, Thomas E., and Middleton, Eliza J. T.

Subjects

SOCIAL media, ENDANGERED species, BIOLOGICAL extinction, PUBLIC domain, BAKING competitions, HUMAN-animal relationships

Abstract

In this global extinction crisis, we must act urgently to prevent the loss of species. The public plays a key role in ensuring the future of our biodiversity, by impacting funding decisions, creating behaviour change, and pushing change in corporations to prevent species loss. The Threatened Species Bake Off competition is a social media initiative created by the Australian Government in 2017 to raise awareness of nationally listed threatened species. In this study, we assessed the trends of the competition by collating entries via Instagram and Twitter in its first 5 years. Representations of 356 unique species were baked, 261 of which were listed as nationally threatened species. Birds and mammals were the most popular groups represented. Frogs, reptiles, fishes, and invertebrates were reasonably well represented; however, plants were drastically underrepresented in the competition. This is evidence of taxonomic bias towards the charismatic animals, and a problematic lack of representation of other threatened species that play essential roles in our ecosystems. Although the Bake Off is an innovative conservation messaging approach, it reinforces awareness of the same groups that traditional messaging techniques encouraged (i.e., charismatic megafauna). Public engagement in this competition reflects current conservation messaging, including media and education focus on charismatic animals, demonstrating engrained biases. Future competitions should address this by highlighting less popular but equally important threatened species, especially plants. [ABSTRACT FROM AUTHOR]

Published

2023

16. Parachute conservation: Investigating trends in international research.

Author

Miller, James, White, Thomas B., and Christie, Alec P.

Subjects

*PARACHUTING, *PARACHUTES, *BIODIVERSITY conservation, DEVELOPING countries

Abstract

Parachute science (inequity in research relationships between Global North and South scientists) has known detrimental impacts on Global South researchers in conservation. Using two international datasets of English and non‐English‐language studies testing conservation interventions, we compared the continents in which studies were conducted to those in which authors were affiliated. We found that a substantial proportion of English‐language studies conducted in Global South continents were led by researchers affiliated to Global North institutions. Studies in the Global South had relatively few locally affiliated lead authors and a higher percentage of studies with no locally affiliated authors. There were similar but typically less pronounced patterns for non‐English‐language studies. We discuss the potential drivers of these problematic findings and future directions that could help avoid and eliminate unethical parachute conservation science. [ABSTRACT FROM AUTHOR]

Published

2023

17. Charged multivesicular body protein 4b forms complexes with gap junction proteins during lens fiber cell differentiation.

Author

Zhou, Yuefang, Bennett, Thomas M., White, Thomas W., and Shiels, Alan

Published

2023

18. Crystal diffraction prediction and partiality estimation using Gaussian basis functions.

Author

Brehm, Wolfgang, White, Thomas, and Chapman, Henry N.

Subjects

*GAUSSIAN function, *ELECTRONIC data processing, *CRYSTALS, *DIFFRACTION patterns, *PATTERNS (Mathematics)

Abstract

The recent diversification of macromolecular crystallographic experiments including the use of pink beams, convergent electron diffraction and serial snapshot crystallography has shown the limitations of using the Laue equations for diffraction prediction. This article gives a computationally efficient way of calculating approximate crystal diffraction patterns given varying distributions of the incoming beam, crystal shapes and other potentially hidden parameters. This approach models each pixel of a diffraction pattern and improves data processing of integrated peak intensities by enabling the correction of partially recorded reflections. The fundamental idea is to express the distributions as weighted sums of Gaussian functions. The approach is demonstrated on serial femtosecond crystallography data sets, showing a significant decrease in the required number of patterns to refine a structure to a given error. [ABSTRACT FROM AUTHOR]

Published

2023

19. Determining the economic costs and benefits of conservation actions: A decision support framework.

Author

White, Thomas B., Petrovan, Silviu O., Booth, Hollie, Correa, Roberto J., Gatt, Yasmine, Martin, Philip A., Newell, Helena, Worthington, Thomas A., and Sutherland, William J.

Subjects

*COST benefit analysis, *ECONOMIC statistics, *DATA recorders & recording, *COST estimates, *BIODIVERSITY conservation

Abstract

The need for conservation action to be cost‐effective is widely accepted, resulting in increased interest and effort to assess effectiveness. Assessing the financial and economic costs of conservation is equally important for assessing cost‐effectiveness, yet their measurement and assessment are repeatedly identified as lacking. The healthcare sector, in contrast, has made substantial progress in identifying and including costs in decision‐making. Here, we consider what conservation can learn from this experience. We present a three‐step framework for identifying and recording the relevant economic costs and benefits of conservation interventions where the user (1) describes the costing context, (2) determines which types of cost and benefit to include, and (3) obtains values for these costs and benefits alongside metadata necessary for others to interpret the data. This framework is designed to help estimate economic costs but can also be used flexibly to record the direct costs of interventions (i.e., financial costs) and calculate financial and economic benefits. Although recording data on economic costs and benefits is deceptively complex, this framework facilitates improved recording, and indicates how collating this data could enhance the assessment of cost‐effectiveness across conservation contexts using a range of decision‐making tools. [ABSTRACT FROM AUTHOR]

Published

2022

20. A synthesis of deimatic behaviour.

Author

Drinkwater, Eleanor, Allen, William L., Endler, John A., Hanlon, Roger T., Holmes, Grace, Homziak, Nicholas T., Kang, Changku, Leavell, Brian C., Lehtonen, Jussi, Loeffler‐Henry, Karl, Ratcliffe, John M., Rowe, Candy, Ruxton, Graeme D., Sherratt, Tom N., Skelhorn, John, Skojec, Chelsea, Smart, Hannah R., White, Thomas E., Yack, Jayne E., and Young, Catherine M.

Subjects

ONTOGENY, APOSEMATISM

Abstract

Deimatic behaviours, also referred to as startle behaviours, are used against predators and rivals. Although many are spectacular, their proximate and ultimate causes remain unclear. In this review we aim to synthesise what is known about deimatic behaviour and identify knowledge gaps. We propose a working hypothesis for deimatic behaviour, and discuss the available evidence for the evolution, ontogeny, causation, and survival value of deimatic behaviour using Tinbergen's Four Questions as a framework. Our overarching aim is to direct future research by suggesting ways to address the most pressing questions in this field. [ABSTRACT FROM AUTHOR]

Published

2022

21. Above 23% Efficiency by Binary Surface Passivation of Perovskite Solar Cells Using Guanidinium and Octylammonium Spacer Cations.

Author

Mozaffari, Naeimeh, Duong, The, Shehata, M. M., Bui, Anh Dinh, Pham, Huyen T., Yin, Yanting, Mayon, Y. Osorio, Zheng, Jianghui, Mahmud, Md Arafat, Tabi, Grace Dansoa, Andersson, Gunther G., Black, Lachlan E., Peng, Jun, Shen, Heping, White, Thomas P., Weber, Klaus, and Catchpole, Kylie R.

Subjects

SURFACE passivation, SPACE charge, SOLAR cells, METHYLAMMONIUM, PEROVSKITE, GUANIDINE, OPEN-circuit voltage

Abstract

One of the important factors in the performance of perovskite solar cells (PSCs) is effective defect passivation. Dimensional engineering technique is a promising method to efficiently passivate non‐radiative recombination pathways in the bulk and surface of PSCs. Herein, a passivation approach for the perovskite/hole transport layer interface is presented, using a mixture of guanidinium and n‐octylammonium cations introduced via GuaBr and n‐OABr. The dual‐cation passivation layer can provide an open‐circuit voltage of 1.21 V with a power conversion efficiency of 23.13%, which is superior to their single cation counterparts. The mixed‐cation passivation layer forms a 1D/2D perovskite film on top of 3D perovskite, leading to a more hydrophobic and smoother surface than the uncoated film. A smooth surface can diminish non‐radiative recombination and enhance charge extraction at the interface making a better contact with the transport layer, resulting in improved short‐circuit current. In addition, space charge‐limited current measurements show a three times reduction in the trap‐filled limit voltage in the mixed‐cation passivated sample compared with unpassivated cells, indicating fewer trapped states. The shelf‐life stability test in ambient atmosphere with 60% relative humidity as well as light‐soaking stability reveal the highest stability for the dual‐cation surface passivation. [ABSTRACT FROM AUTHOR]

Published

2022

22. Electrical properties of perovskite solar cells by illumination intensity and temperature‐dependent photoluminescence imaging.

Author

Bui, Anh Dinh, Mozaffari, Naeimeh, Truong, Thien N., Duong, The, Weber, Klaus J., White, Thomas P., Catchpole, Kylie R., Macdonald, Daniel, and Nguyen, Hieu T.

Subjects

SOLAR cells, PEROVSKITE, OPEN-circuit voltage, LIGHTING, ACTIVATION energy

Abstract

Hybrid organic–inorganic perovskite solar cells (PSCs) are one of the most promising candidates for next generation photovoltaics. Further improvement in their performance, particularly efficiency, durability and reproducibility, requires a deep understanding of recombination losses during fabrication and within a device itself. In this work, we report a contactless, imaging‐based procedure to spatially resolve electronic properties of PSCs including implied open‐circuit voltage (iVoc) and its temperature coefficient, ideality factor (nid) and activation energy of recombination (EA) by employing illumination intensity and temperature‐dependent photoluminescence. The illumination intensity dependence of iVoc allows the extraction of nid whereas its temperature dependence allows the extraction of the temperature coefficient and EA. This imaging approach is then applied to investigate changes of these electronic parameters on fully and partially fabricated devices. [ABSTRACT FROM AUTHOR]

Published

2022

23. 27.6% Perovskite/c‐Si Tandem Solar Cells Using Industrial Fabricated TOPCon Device.

Author

Wu, Yiliang, Zheng, Peiting, Peng, Jun, Xu, Menglei, Chen, Yihua, Surve, Sachin, Lu, Teng, Bui, Anh Dinh, Li, Nengxu, Liang, Wensheng, Duan, Leiping, Li, Bairu, Shen, Heping, Duong, The, Yang, Jie, Zhang, Xinyu, Liu, Yun, Jin, Hao, Chen, Qi, and White, Thomas

Subjects

SOLAR cells, PHOTOVOLTAIC power systems, MASS production, ROUGH surfaces, IDEAL sources (Electric circuits), PEROVSKITE

Abstract

The tandem cell structure is the most promising solution for the next generation photovoltaic technology to overcome the single‐junction Shockley–Queisser limit. The fabrication of a perovskite/c‐Si monolithic tandem device has not yet been demonstrated on a c‐Si bottom cell produced from an industrial production line. Here, a c‐Si cell with a tunneling oxide passivating contact (TOPCon) structure produced on a production line as the bottom cell of a tandem device, and a top cell featuring solution‐processed perovskite films to form the tandem device are used. The c‐Si cell features a rough damage etched, but untextured front surface from the wafering processes. To combat the challenge of rough surfaces, several strategies to avoid shunt paths across carrier transport layers, absorber layers, and their interfaces are implemented. Moreover, the origin of reflection loss on this planar structure is investigated and the reflection loss is managed to below 4 mA cm−2. In addition, the source of the voltage loss from the TOPCon bottom cell is identified and the device structure is redesigned to be suitable for tandem applications while still using mass production feasible fabrication methods. Overall, 27.6% efficiency is achieved for a monolithic perovskite/c‐Si tandem device, with significant potential for future improvements. [ABSTRACT FROM AUTHOR]

Published

2022

24. Unraveling the Role of Energy Band Alignment and Mobile Ions on Interfacial Recombination in Perovskite Solar Cells.

Author

Mozaffari, Naeimeh, Walter, Daniel, White, Thomas P., Bui, Anh D., Tabi, Grace Dansoa, Weber, Klaus, and Catchpole, Kylie R.

Subjects

ION recombination, ENERGY bands, PEROVSKITE, PHOTOVOLTAIC power systems, ELECTROSTATICS, HETEROJUNCTIONS, SOLAR cells

Abstract

A key limitation in perovskite solar cell (PSC) performance is suboptimal electronic properties at the perovskite–transport layer (TL) interfaces, which result in parasitic nonradiative recombination. Interface recombination depends on the concentration of recombination‐active defects, but as a recombination event requires both an electron and a hole, the magnitude and sign of charge accumulation at the perovskite–TL heterojunctions are also critical. Here, we employ a well‐established numerical ion‐electron drift‐diffusion model of PSCs to illustrate how the work function of the transport layer is an important factor in determining the total recombination activity at the perovskite interfaces. We show that the equilibrium electrostatics of the perovskite–TL heterojunctions, which are determined by the work function difference between the two materials, can result in increased recombination rates for any given concentration of interface defects. As a case study, we compare PSCs incorporating a NiOX hole transport layer with those with a spiro‐OMeTAD. We show that the work function of NiOX can induce greater electron accumulation at the perovskite–NiOX interface, which leads to increased interface recombination. Finally, a higher ion concentration is found to be beneficial to overall device performance by displacing accumulated electrons or holes at the TL interfaces and thus reducing recombination rates. [ABSTRACT FROM AUTHOR]

Published

2022

25. A framework and case study to systematically identify long‐term insect abundance and diversity datasets.

Author

Grames, Eliza M., Montgomery, Graham A., Boyes, Douglas H., Dicks, Lynn V., Forister, Matthew L., Matson, Tanner A., Nakagawa, Shinichi, Prendergast, Kit S., Taylor, Nigel G., Tingley, Morgan W., Wagner, David L., White, Thomas E., Woodcock, Paul, and Elphick, Chris S.

Subjects

INSECT diversity, INSECT populations, INSECT communities, ODONATA, INSECTS

Abstract

Biodiversity is in crisis, and insects are no exception. To understand insect population and community trends globally, it is necessary to identify and synthesize diverse datasets representing different taxa, regions, and habitats. The relevant literature is, however, vast and challenging to aggregate. The Entomological Global Evidence Map (EntoGEM) project is a systematic effort to search for and catalogue studies with long‐term data that can be used to understand changes in insect abundance and diversity. Here, we present the overall EntoGEM framework and results of the first completed subproject of the systematic map, which compiled sources of information about changes in dragonfly and damselfly (Odonata) occurrence, abundance, biomass, distribution, and diversity. We identified 45 multi‐year odonate datasets, including 10 studies with data that span more than 10 years. If data from each study could be gathered or extracted, these studies could contribute to analyses of long‐term population trends of this important group of indicator insects. The methods developed to support the EntoGEM project, and its framework for synthesizing a vast literature, have the potential to be applied not only to other broad topics in ecology and conservation, but also to other areas of research where data are widely distributed. [ABSTRACT FROM AUTHOR]

Published

2022

26. Spatial analysis to inform the mitigation hierarchy.

Author

Jones, Kendall R., von Hase, Amrei, Costa, Hugo M., Rainey, Hugo, Sidat, Naseeba, Jobson, Benjamin, White, Thomas B., and Grantham, Hedley S.

Subjects

BIODIVERSITY conservation, CORPORATE profits, NET losses, CONSERVATION projects (Natural resources), BIODIVERSITY, PROTECTED areas

Abstract

Human activities such as urbanization, infrastructure and agriculture are driving global biodiversity declines. In an attempt to balance economic development goals with biodiversity conservation, governments and industry apply a decision‐making framework known as the mitigation hierarchy, with a goal of achieving no net loss or net gain outcomes for biodiversity. Successful application of the mitigation hierarchy requires biodiversity assessments and spatial planning to inform the design of mitigation policies, identify priority areas for biodiversity conservation and impact avoidance, assess the biodiversity impacts of developments, and identify appropriate mitigation measures including offsetting residual impacts. However, guidance on the necessary data and assessment techniques is often lacking, especially in countries where formal mitigation policies do not exist or are in their infancy. Here, we discuss and demonstrate analyses that can help answer some key questions for formulating effective mitigation policies and applying the mitigation hierarchy. We focus on data and analyses that can inform the avoidance and offset steps in particular, and demonstrate these techniques using a case study in Mozambique. While these analyses will not replace field‐based assessments for projects, they offer rapid, low‐cost approaches to support scoping and development of mitigation policy, planning and decision‐making, especially in relatively data‐poor regions. [ABSTRACT FROM AUTHOR]

Published

2022

27. Principles for the production of evidence‐based guidance for conservation actions.

Author

Downey, Harriet, Bretagnolle, Vincent, Brick, Cameron, Bulman, Caroline R., Cooke, Steven J., Dean, Mike, Edmonds, Bob, Frick, Winifred F., Friedman, Kim, McNicol, Catherine, Nichols, Christopher, Herbert, Saul, O'Brien, David, Ockendon, Nancy, Petrovan, Silviu, Stroud, David, White, Thomas B., Worthington, Thomas A., and Sutherland, William J.

Subjects

PRESERVATION of manuscripts, SPECIES, DECISION making, PARTICIPATORY design, HABITATS

Abstract

Many types of guidance documents inform conservation by providing practical recommendations for the management of species and habitats. To ensure effective decisions are made, such guidance should be based upon relevant and up‐to‐date evidence. We reviewed conservation guidance for mitigation and management of species and habitats in the United Kingdom and Ireland, identifying 301 examples produced by over 50 organizations. Of these, only 29% provided a reference list, of which only 32% provided reference(s) relevant to justify the recommended actions (9% of the total). Furthermore, even this guidance was often outdated, lacked a methodology for production, or did not highlight uncertainty in the key evidence that supported the recommendations. These deficiencies can lead to misguided and ineffective conservation practices, policies, and decisions, and a waste of resources. Based on this review and co‐design by experts from 14 organizations, we present a set of principles for ensuring sufficient and relevant evidence is transparently incorporated into future conservation guidance. Producing evidence‐based guidance in line with these principles would enable more effective conservation outcomes. [ABSTRACT FROM AUTHOR]

Published

2022

28. Benefits and costs of social foraging in velvet worms.

Author

Herringe, Caragh A., Middleton, Eliza J., Boyd, Kelsey C., Latty, Tanya, and White, Thomas E.

Subjects

EXTERNALITIES, COST effectiveness, ANIMAL behavior, WORMS, VELVET

Abstract

Group living is ubiquitous in nature, and social foraging is among the common forms of cooperative behaviour in animals. Understanding the evolution and maintenance of social foraging requires knowledge of the underlying benefits and costs to group members, though these are only known for few model taxa, which often lie at the extremes of social organisation. Here, we experimentally examined hypothesised benefits and costs of social foraging in the velvet worm Euperipatoides rowelli; the only Onychophoran currently known to live and forage in groups. To explore benefits, we tested the effects of natural group size and controlled prey size on the latency to attack and begin consuming prey, the likelihood of complete prey consumption and the time taken to completely consume prey. Our focal cost was aggressive intraspecific interactions in the form of biting, kicking and striking, which may present a particular risk to soft‐bodied velvet worms. As predicted, we found a positive scaling of most effects with the size of foraging groups. Larger groups were faster to attack and begin consuming prey, and more likely to completely consume prey, though they took longer to do so. This may be a consequence of the increasing representation of juveniles in larger aggregations. However, larger groups were also subject to heightened aggression among conspecifics, though is it unclear whether such a cost holds at the level of individual group members. Variation in prey size and, hence, resource availability had little effect across all outcomes, except for a slightly reduced likelihood of completely consuming larger prey. A time‐course analysis of individual activity suggested the existence of feeding hierarchies with adults excluding juveniles, particularly when resources are scarce. Taken together, our results offer the first support for the existence of foraging benefits and costs to group membership in E. rowelli, which may contribute to the maintenance of group living in this evolutionary significant taxon. [ABSTRACT FROM AUTHOR]

Published

2022

29. Origin of Efficiency and Stability Enhancement in High‐Performing Mixed Dimensional 2D‐3D Perovskite Solar Cells: A Review.

Author

Mahmud, Md Arafat, Duong, The, Peng, Jun, Wu, Yiliang, Shen, Heping, Walter, Daniel, Nguyen, Hieu T., Mozaffari, Naeimeh, Tabi, Grace Dansoa, Catchpole, Kylie R., Weber, Klaus J., and White, Thomas P.

Subjects

SOLAR cells, PHOTOVOLTAIC power systems, PEROVSKITE, KEY performance indicators (Management), BUSINESS consultants, PHOTOVOLTAIC power generation

Abstract

Perovskite solar cells are a potential game changer for the photovoltaics industry, courtesy of their facile fabrication and high efficiency. Despite this, commercialization is being held back by poor stability. To become economically feasible for commercial production, perovskite solar cells must meet or exceed industry standards for operational lifetime and reliability. In this regard, mixed dimensional 2D‐3D perovskite solar cells, incorporating long carbon‐chain organic spacer cations, have shown promising results, with enhancement in both device efficiency and stability. Dimensional engineering of perovskite films requires a delicate balance of 2D and 3D perovskite composition to take advantage of the specific properties of each material phase. This review summarizes and assesses the current understanding, and apparent contradictions in the state‐of‐the‐art mixed dimensional perovskite solar cell literature regarding the origin of stability and performance enhancement. By combining and comparing results from experimental and theoretical studies it is focused on how the perovskite composition, film formation methods, additive and solvent engineering influence efficiency and stability, and identify future research directions to further improve both key performance metrics. [ABSTRACT FROM AUTHOR]

Published

2022

30. Host genetic factors associated with the range limit of a European hantavirus.

Author

Saxenhofer, Moritz, Labutin, Anton, White, Thomas A., and Heckel, Gerald

Subjects

HYBRID zones, HANTAVIRUSES, SINGLE nucleotide polymorphisms, GENE families, BIOLOGICAL transport, MICROTUS, HYBRID systems

Abstract

The natural host ranges of many viruses are restricted to very specific taxa. Little is known about the molecular barriers between species that lead to the establishment of this restriction or generally prevent virus emergence in new hosts. Here, we identify genomic polymorphisms in a natural rodent host associated with a strong genetic barrier to the transmission of European Tula orthohantavirus (TULV). We analysed the very abrupt spatial transition between two major phylogenetic clades in TULV across the comparatively much wider natural hybrid zone between evolutionary lineages of their reservoir host, the common vole (Microtus arvalis). Genomic scans of 79,225 single nucleotide polymorphisms (SNPs) in 323 TULV‐infected host individuals detected 30 SNPs that were consistently associated with the TULV clades CEN.S or EST.S in two replicate sampling transects. Focusing the analysis on 199 voles with evidence of genomic admixture at the individual level (0.1–0.9) supported statistical significance for all 30 loci. Host genomic variation at these SNPs explained up to 37.6% of clade‐specific TULV infections. Genes in the vicinity of associated SNPs include SAHH, ITCH and two members of the Syngr gene family, which are involved in functions related to immune response or membrane transport. This study demonstrates the relevance of natural hybrid zones as systems not only for studying processes of evolutionary divergence and speciation, but also for the detection of evolving genetic barriers for specialized parasites. [ABSTRACT FROM AUTHOR]

Published

2022

31. A practical conservation tool to combine diverse types of evidence for transparent evidence‐based decision‐making.

Author

Christie, Alec P., Downey, Harriet, Frick, Winifred F., Grainger, Matthew, O'Brien, David, Tinsley‐Marshall, Paul, White, Thomas B., Winter, Michael, and Sutherland, William J.

Subjects

SCIENTIFIC literature, LOCAL knowledge, SCIENTIFIC knowledge, INFORMATION sharing

Abstract

Making the reasoning and evidence behind conservation management decisions clear and transparent is a key challenge for the conservation community. Similarly, combining evidence from diverse sources (e.g., scientific and local knowledge) into decision‐making is also difficult. Our group of conservation researchers and practitioners has co‐produced an intuitive tool and template (Evidence‐to‐Decision [E2D] tool: www.evidence2decisiontool.com) to guide practitioners through a structured process to transparently document and report the evidence and reasoning behind decisions. The tool has three major steps: (1). Define the Decision Context; (2). Gather Evidence; and (3). Make an Evidence‐Based Decision. In each step, practitioners enter information (e.g., from the scientific literature, practitioner knowledge and experience, and costs) to inform their decision‐making and document their reasoning. The tool packages this information into a customized downloadable report (or is documented if using the offline template), which we hope can stimulate the exchange of information on decisions within and between organizations. By enabling practitioners to revisit how and why past decisions were made, and integrate diverse forms of evidence, we believe our open‐access tool's template can help increase the transparency and quality of decision‐making in conservation. [ABSTRACT FROM AUTHOR]

Published

2022

32. Using technology to improve the management of development impacts on biodiversity.

Author

White, Thomas B., Viana, Leonardo R., Campbell, Geneviève, Elverum, Claire, and Bennun, Leon A.

Subjects

TECHNOLOGY management, BIODIVERSITY, CORPORATE profits, NET losses, BIODIVERSITY monitoring, ENVIRONMENTAL impact analysis

Abstract

The mitigation hierarchy (MH) is a prominent tool to help businesses achieve no net loss or net gain outcomes for biodiversity. Technological innovations offer benefits for business biodiversity management, yet the range and continued evolution of technologies creates a complex landscape that can be difficult to navigate. Using literature review, online surveys, and semi‐structured interviews, we assess technologies that can improve application of the MH. We identify six categories (mobile survey, fixed survey, remote sensing, blockchain, data analysis, and enabling technologies) with high feasibility and/or relevance to (i) aid direct implementation of mitigation measures and (ii) enhance biodiversity surveys and monitoring, which feed into the design of interventions including avoidance and minimization measures. At the interface between development and biodiversity impacts, opportunities lie in businesses investing in technologies, capitalizing on synergies between technology groups, collaborating with conservation organizations to enhance institutional capacity, and developing practical solutions suited for widespread use. [ABSTRACT FROM AUTHOR]

Published

2021

33. Combined Bulk and Surface Passivation in Dimensionally Engineered 2D‐3D Perovskite Films via Chlorine Diffusion.

Author

Mahmud, Md Arafat, Pham, Huyen T., Duong, The, Yin, Yanting, Peng, Jun, Wu, Yiliang, Liang, Wensheng, Li, Li, Kumar, Anand, Shen, Heping, Walter, Daniel, Nguyen, Hieu T., Mozaffari, Naeimeh, Tabi, Grace Dansoa, Andersson, Gunther, Catchpole, Kylie R., Weber, Klaus J., and White, Thomas P.

Subjects

SURFACE passivation, PASSIVATION, PEROVSKITE, SOLAR cells, OPEN-circuit voltage, 3-D films, CHLORINE

Abstract

Dimensional engineering of perovskite films is a promising pathway to improve the efficiency and stability of perovskite solar cells (PSCs). In this context, surface or bulk passivation of defects in 3D perovskite film by careful introduction of 2D perovskite plays a key role. Here the authors demonstrate a 2D perovskite passivation scheme based on octylammonium chloride, and show that it provides both bulk and surface passivation of 1.6 eV bandgap 3D perovskite film for highly efficient (≈23.62%) PSCs with open‐circuit voltages up to 1.24 V. Surface and depth‐resolved microscopy and spectroscopy analysis reveal that the Cl− anion diffuses into the perovskite bulk, passivating defects, while the octylammonium ligands provide effective, localized surface passivation. The authors find that the Cl− diffusion into the perovskite lattice is independent of the 2D perovskite crystallization process and occurs rapidly during deposition of the 2D precursor solution. The annealing‐induced evaporation of Cl from bulk perovskite is also inhibited in 2D–3D perovskite film as compared to pristine 3D perovskite, ensuring effective bulk passivation in the relevant film. [ABSTRACT FROM AUTHOR]

Published

2021

34. Contactless and Spatially Resolved Determination of Current−Voltage Curves in Perovskite Solar Cells via Photoluminescence.

Author

Bui, Anh Dinh, Mahmud, Md Arafat, Mozaffari, Naeimeh, Basnet, Rabin, Duong, The, Bartholazzi, Gabriel, Le, Tien T., Truong, Thien N., Tebyetekerwa, Mike, Wibowo, Ary, Weber, Klaus J., White, Thomas P., Catchpole, Kylie R., Macdonald, Daniel, and Nguyen, Hieu T.

Subjects

CURRENT-voltage curves, SOLAR cells, PEROVSKITE, PHOTOLUMINESCENCE, OPEN-circuit voltage, CURVES, CURRENT density (Electromagnetism)

Abstract

Early prediction of spatially resolved performance of perovskite solar cells (PSCs) is essential for process monitoring, control and fault diagnosis, and upscaling of this emerging technology. Herein, a fast, nonde structive, contactless imaging‐based approach is developed to visualize the spatial distribution of possible light current density−voltage (pseudo‐J−V) curves on finished and partly finished cells. This allows for the extraction of other critical spatially resolved properties including implied open‐circuit voltage and pseudo‐fill factor. The technique is applied to systematically investigate various degradation behaviors on PSCs including thermal stability, light soaking, and ambient air exposure. Finally, it is used to predict pseudo‐J−V curves of various perovskite films with different compositions. These results demonstrate the significant value of this fast imaging technique for the research and development of PSCs ranging from material selection, process optimization, to degradation study. [ABSTRACT FROM AUTHOR]

Published

2021

35. Uncovering opportunities for effective species conservation banking requires navigating technical and practical complexities.

Author

White, Thomas B., Bull, Joseph W., Toombs, Theodore P., and Knight, Andrew T.

Subjects

*WILDLIFE conservation, *BIODIVERSITY, *MARKET value, *STAKEHOLDERS, *STANDARDS

Abstract

In the USA, Species Conservation Banking is a prominent example of compensatory biodiversity impact mitigation, with an annual market value estimated at US$354.2 million. Species Conservation Banking represents a useful case study of a well‐established program that can provide empirical insights into the practicalities of implementing quantitative compensatory biodiversity mitigation on‐the‐ground. Using semi‐structured key‐informant interviews structured around well‐established technical challenges to compensatory mitigation, this study aimed to understand (i) how and why these challenges are or are not addressed in practice; and (ii) how these challenges relate to practical challenges faced by conservation banking stakeholders on‐the‐ground. Challenges identified included: (i) defining trading currencies and equivalence, (ii) regulatory and political uncertainty, (iii) regulatory agency capacity, will and knowledge, (iv) lack of policies, standards, and competition with other mitigation mechanisms, (v) long‐term uncertainty/longevity, and (vi) lack of species knowledge and data transparency. These challenges are numerous, diverse, interlinked and transdisciplinary, and collectively inhibit the ability of practitioners to resolve underlying technical challenges—a finding likely applicable to related biodiversity offset programs. To help address challenges and navigate this complexity, we formulate several recommendations for conservation banking stakeholders to improve the chances of beneficial biodiversity outcomes being achieved. [ABSTRACT FROM AUTHOR]

Published

2021

36. Exercise reduces circulating biomarkers of cellular senescence in humans.

Author

Englund, Davis A., Sakamoto, Ayumi E., Fritsche, Chad M., Heeren, Amanda A., Zhang, Xu, Kotajarvi, Brian R., Lecy, Denise R., Yousefzadeh, Matthew J., Schafer, Marissa J., White, Thomas A., Atkinson, Elizabeth J., and LeBrasseur, Nathan K.

Subjects

OLDER people, REDUCING exercises, AGE, BIOMARKERS, PHYSICAL mobility, CELLULAR aging, PROTEIN expression

Abstract

Cellular senescence has emerged as a significant and potentially tractable mechanism of aging and multiple aging‐related conditions. Biomarkers of senescent cell burden, including molecular signals in circulating immune cells and the abundance of circulating senescence‐related proteins, have been associated with chronological age and clinical parameters of biological age in humans. The extent to which senescence biomarkers are affected by interventions that enhance health and function has not yet been examined. Here, we report that a 12‐week structured exercise program drives significant improvements in several performance‐based and self‐reported measures of physical function in older adults. Impressively, the expression of key markers of the senescence program, including p16,p21, cGAS, and TNFα, were significantly lowered in CD3+ T cells in response to the intervention, as were the circulating concentrations of multiple senescence‐related proteins. Moreover, partial least squares discriminant analysis showed levels of senescence‐related proteins at baseline were predictive of changes in physical function in response to the exercise intervention. Our study provides first‐in‐human evidence that biomarkers of senescent cell burden are significantly lowered by a structured exercise program and predictive of the adaptive response to exercise. [ABSTRACT FROM AUTHOR]

Published

2021

37. Limited understanding of bushfire impacts on Australian invertebrates.

Author

Saunders, Manu E., Barton, Philip S., Bickerstaff, James R. M., Frost, Lindsey, Latty, Tanya, Lessard, Bryan D., Lowe, Elizabeth C., Rodriguez, Juanita, White, Thomas E., and Umbers, Kate D. L.

Subjects

FIRE management, MARINE invertebrates, WILDFIRES, FRESHWATER habitats, INVERTEBRATES, ENVIRONMENTAL degradation

Abstract

Understanding how increasing risk of frequent and severe fires affects biodiversity and ecosystem function is important for effective conservation and recovery, but large knowledge gaps exist for many taxa in many parts of the world, especially invertebrates.After Australia's 2019–2020 catastrophic bushfire disaster, estimates of biodiversity loss and government priorities for post‐fire conservation activities were focused on vertebrates and plants because of lack of knowledge about invertebrates.Our synthesis of published evidence reveals a fragmented and ambiguous body of literature on invertebrate responses to fire in Australian ecosystems, limiting the capacity of evidence to inform effective conservation policy in response to extreme fire events. Peer‐reviewed studies are available for only six of the more than 30 invertebrate phyla and 88% were on arthropods, predominantly ants.Nearly all studies (94%) were conducted in terrestrial habitats, with only four studies measuring impacts in freshwater habitats and no studies of impacts on marine invertebrates. The high variation in study designs and treatment categories, as well as the absence of key methodological details in many older observational studies, means that there is substantial opportunity to improve our approach to collating meaningful estimates of general fire effects.To understand the full ecological effects of catastrophic fire events, and design effective policies that support recovery of ecosystems now and in future, it is critical that we improve understanding of how fire regimes affect invertebrates. We list key priorities for research and policy to support invertebrate conservation and ecosystem recovery in the face of increasing fire risk. [ABSTRACT FROM AUTHOR]

Published

2021

38. Pastoralism after culture: environmental governance and human‐animal estrangement at China's ecological frontier.

Author

White, Thomas

Subjects

*PASTORAL societies, *ECOSYSTEM services, *ANIMAL culture, *ENVIRONMENTAL protection, *CULTURAL property

Abstract

In the name of 'ecological civilization', the Chinese state has sought to adjust the ecologies of its degraded northern grasslands, using market instruments, such as payments for ecosystem services, to induce ethnic minority pastoralists to pursue non‐herding livelihoods. In the far west of Inner Mongolia, the resultant decline in the availability of rural labour has meant that most domestic camels that remain on the rangelands are now left largely unmanaged throughout the year. Local Mongol officials and intellectuals have long regarded extensive animal husbandry as a bulwark against Mongol dispossession through Chinese agricultural expansion. This article shows how they now make use of dominant ecological and market rationalities to articulate their defence of this form of land use, by figuring these 'semi‐wild' camels as providers of ecosystem services. In doing so, however, their proposals bypass the figure of the culture‐possessing rural minority subject, which in this region is associated with training and working with camels, and which has been fostered by the cultural heritage policies of the reform era. Divergent understandings of the 'wildness' of nonhumans thus reveal tensions between ecological and cultural politics at China's margins, and anxieties surrounding the rural minority subject in the context of new modes of environmental governance. [ABSTRACT FROM AUTHOR]

Published

2021

39. Anion Exchange‐Induced Crystal Engineering via Hot‐Pressing Sublimation Affording Highly Efficient and Stable Perovskite Solar Cells.

Author

Ding, Bin, Peng, Jun, Chu, Qian-Qian, Zhao, Shenyou, Shen, Heping, Weber, Klaus J., Yang, Guan-Jun, White, Thomas P., Catchpole, Kylie R., Nazeeruddin, Mohammad Khaja, and Dyson, Paul J.

Subjects

SILICON solar cells, SOLAR cells, PEROVSKITE, SOLAR cell efficiency, CRYSTAL orientation, CHEMICAL equilibrium

Abstract

Crystalline, dense, and uniform perovskite thin films are crucial for achieving high‐power conversion efficiency solar cells. Herein, a universal method of fabricating highly crystalline and large‐grain perovskite films via crystal engineering is demonstrated. Anion exchange of Cl− and I−, and annealing perovskite films, in an ultraconfined and uniform temperature enclosed space with saturated MAI (or FAI) vapor using hot‐pressing sublimation technology are conducted. This process ensures a rapid crystal growth rate due to fast exchange between the gas phase and the crystalline film to reduce vertically oriented grain boundaries. The generation of the commonly observed PbI2 phase is also suppressed due to the chemical equilibrium state during the thermal annealing process. Using this approach, pinhole‐free perovskite films with preferred crystal orientation and micrometer‐scale grains are obtained, leading to a high steady‐state efficiency of 22.15% based on mixed‐cation perovskite composition. In addition, devices based on different perovskite compositions all exhibit enhanced photovoltaic performance based on the crystal engineering method. The device (without encapsulation) has an efficiency loss of about only 4% after 2520 h of aging in ambient conditions and retains 87% of its initial efficiency after 1000 h of continuous 1 Sun light soaking, thus demonstrating considerably improved stability. [ABSTRACT FROM AUTHOR]

Published

2021

40. The neural mechanisms of audiotactile binding depend on asynchrony.

Author

Zumer, Johanna M., White, Thomas P., and Noppeney, Uta

Subjects

*TEMPORAL integration, *EVOKED potentials (Electrophysiology), *BURST noise, *ELECTROENCEPHALOGRAPHY, *PSYCHOPHYSICS

Abstract

Asynchrony is a critical cue informing the brain whether sensory signals are caused by a common source and should be integrated or segregated. This psychophysics–electroencephalography (EEG) study investigated the influence of asynchrony on how the brain binds audiotactile (AT) signals to enable faster responses in a redundant target paradigm. Human participants actively responded (psychophysics) or passively attended (EEG) to noise bursts, "taps‐to‐the‐face" and their AT combinations at seven AT asynchronies: 0, ±20, ±70 and ±500 ms. Behaviourally, observers were faster at detecting AT than unisensory stimuli within a temporal integration window: the redundant target effect was maximal for synchronous stimuli and declined within a ≤70 ms AT asynchrony. EEG revealed a cascade of AT interactions that relied on different neural mechanisms depending on AT asynchrony. At small (≤20 ms) asynchronies, AT interactions arose for evoked response potentials (ERPs) at 110 ms and ~400 ms post‐stimulus. Selectively at ±70 ms asynchronies, AT interactions were observed for the P200 ERP, theta‐band inter‐trial coherence (ITC) and power at ~200 ms post‐stimulus. In conclusion, AT binding was mediated by distinct neural mechanisms depending on the asynchrony of the AT signals. Early AT interactions in ERPs and theta‐band ITC and power were critical for the behavioural response facilitation within a ≤±70 ms temporal integration window. [ABSTRACT FROM AUTHOR]

Published

2020

41. Macroecological patterns in flower colour are shaped by both biotic and abiotic factors.

Author

Dalrymple, Rhiannon L., Kemp, Darrell J., Flores‐Moreno, Habacuc, Laffan, Shawn W., White, Thomas E., Hemmings, Frank A., and Moles, Angela T.

Subjects

FLOWERING of plants, INSECT pollinators, BIOTIC communities, ABIOTIC environment, INSECT-plant relationships, SOLAR radiation, COLOR

Abstract

Summary: There is a wealth of research on the way interactions with pollinators shape flower traits. However, we have much more to learn about influences of the abiotic environment on flower colour.We combine quantitative flower colour data for 339 species from a broad spatial range covering tropical, temperate, arid, montane and coastal environments from 9.25ºS to 43.75ºS with 11 environmental variables to test hypotheses about how macroecological patterns in flower colouration relate to biotic and abiotic conditions.Both biotic community and abiotic conditions are important in explaining variation of flower colour traits on a broad scale. The diversity of pollinating insects and the plant community have the highest predictive power for flower colouration, followed by mean annual precipitation and solar radiation. On average, flower colours are more chromatic where there are fewer pollinators, solar radiation is high, precipitation and net primary production are low, and growing seasons are short, providing support for the hypothesis that higher chromatic contrast of flower colours may be related to stressful conditions.To fully understand the ecology and evolution of flower colour, we should incorporate the broad selective context that plants experience into research, rather than focusing primarily on effects of plant–pollinator interactions. See also the Commentary on this article by Verloop et al., 228: 1701–1703. [ABSTRACT FROM AUTHOR]

Published

2020

42. In Situ Formation of Mixed‐Dimensional Surface Passivation Layers in Perovskite Solar Cells with Dual‐Isomer Alkylammonium Cations.

Author

Mahmud, Md Arafat, Duong, The, Yin, Yanting, Peng, Jun, Wu, Yiliang, Lu, Teng, Pham, Huyen T., Shen, Heping, Walter, Daniel, Nguyen, Hieu T., Mozaffari, Naeimeh, Tabi, Grace Dansoa, Liu, Yun, Andersson, Gunther, Catchpole, Kylie R., Weber, Klaus J., and White, Thomas P.

Published

2020

43. The analogia fidei in Catholic Theology.

Author

Joseph White, Thomas

Subjects

*METAPHYSICS, *CHRISTIANITY, *THEOLOGIANS, CATHOLIC Church doctrines, BIBLICAL theology

Abstract

This article explores four components of a Catholic dogmatic conception of the analogia fidei: the intellectual unity of the biblical texts as Scripture, the harmony of the Scriptures and the Church's doctrinal pronouncements, the unity or analogy between the supernatural mysteries of the faith, and the compatibility and concord of truths of natural reason with truths of divine revelation. This classical conception of divine revelation is compared with alternatives in modern theology, particularly those of Schleiermacher and Rahner, Barth and Balthasar. I argue that, despite their respective strengths, neither modern post metaphysical theological anthropologies nor christological revisions of classical ontology are able to provide the intellectual resources that the traditional Catholic model of the analogia fidei provides, particularly for engaging with distinctively modern questions and contemporary intellectual challenges to Christianity. [ABSTRACT FROM AUTHOR]

Published

2020

44. Effect of menopausal hormone therapy on proteins associated with senescence and inflammation.

Author

Faubion, Laura, White, Thomas A., Peterson, Brett J., Geske, Jennifer R., LeBrasseur, Nathan K., Schafer, Marissa J., Mielke, Michelle M., and Miller, Virginia M.

Subjects

*HORMONE therapy, *TUMOR necrosis factor receptors, *MACROPHAGE inflammatory proteins, *PROTEIN hormones, *CELLULAR aging

Abstract

Background: Estrogen may inhibit cell senescence that contributes to age‐related disorders. This study determined the effects of menopausal hormone treatments on circulating levels of markers of cell senescence. Methods: Growth differentiation factor 15 (GDF15), tumor necrosis factor receptor 1 (TNFR1), FAS, and macrophage inflammatory protein 1α (MIP1α) were measured in serum using multiplexed bead‐based assays and compared among menopausal women participating in the Kronos Early Estrogen Prevention Study randomized to either placebo (n = 38), oral conjugated equine estrogen (oCEE, n = 37), or transdermal 17β‐estradiol (tE2, n = 34). Serum levels of the senescent markers for each treatment were compared to placebo 36 months after randomization using the Wilcoxon rank sum test. Results: Serum levels of GDF15, TNFR1, and FAS, but not MIP1α, were lower in both the oCEE and tE2 groups compared to placebo. The difference in levels between treatment and placebo for GDF15, TNFR1, and FAS were greater for oCEE [−108 pg/mL (p =.008), −234 pg/mL (p =.0006), and −1374 pg/mL (p <.0001), respectively] than for tE2 [−76 pg/mL (p =.072), −105 pg/mL (p =.076), and −695 pg/mL (p =.036), respectively]. Additionally, TNFR1 showed a positive association with time past menopause (correlation = 0.255, p =.019). Conclusions: Circulating levels of some markers of cell senescence were lower in menopausal women treated with oCEE and tE2 compared to placebo. Differences in the magnitude of effect of the two active treatments may reflect the differences in circulating levels of estrogen metabolites due to formulation and mode of delivery. These data generate new hypotheses with regard to the effects of menopause on the biology of aging. [ABSTRACT FROM AUTHOR]

Published

2020

45. Marine biodiversity offsets: Pragmatic approaches toward better conservation outcomes.

Author

Jacob, Céline, Bochove, Jan‐Willem, Livingstone, Suzanne, White, Thomas, Pilgrim, John, and Bennun, Leon

Subjects

MARINE biodiversity, RESOURCE exploitation, MARINE biology, POWER resources, NET losses

Abstract

Increasing exploitation of marine natural resources and expansion of energy infrastructure, shipping, and aquaculture across the oceans are placing increased pressure on marine life. Biodiversity offsets, as the last stage of the mitigation hierarchy, provide an opportunity to promote a more sustainable basis for development by addressing residual impacts and achieving "no net loss" for biodiversity. Despite debate around their effectiveness, biodiversity offsets are seeing increasing application on land but remain a rarely used tool in the marine environment. We assess how offsets can be applied in the marine environment to achieve better biodiversity outcomes, and identify implications for conservation policy and practice. For instance, spatial conservation planning provides opportunities to move away from a siloed, project‐by‐project, approach by pooling offsets on a regional scale. There are real differences between marine and terrestrial environments in relation to ecology, connectivity, data availability, management options, and impact perception, and marine offsets are therefore often regarded as challenging. However, fundamental offset principles, types, and approaches apply equally on land and at sea. Marine biodiversity offset approaches can build on the experience of terrestrial offsets but can also innovate to help achieve biodiversity gains and contribute toward global and national biodiversity targets. [ABSTRACT FROM AUTHOR]

Published

2020

46. Monolithic Perovskite/Si Tandem Solar Cells: Pathways to Over 30% Efficiency.

Author

Shen, Heping, Walter, Daniel, Wu, Yiliang, Fong, Kean Chern, Jacobs, Daniel A., Duong, The, Peng, Jun, Weber, Klaus, White, Thomas P., and Catchpole, Kylie R.

Subjects

SILICON solar cells, SOLAR cells, PEROVSKITE, OPTICAL losses, SURFACE passivation, DENSITY currents

Abstract

The article commences with a review focusing on three critical aspects of the perovskite/Si tandem technology: the evolution of efficiencies to date, comparisons of Si subcell choices, and the interconnection design strategies. Building on this review, a clear route is provided for minimizing optical losses aided by optical simulations of a recently reported high‐efficiency perovskite/Si tandem system, optimizations which result in tandem current densities of ≈20 mAcm−2 with front‐side texture. The primary focus is on electrical modeling on the Si‐subcell, in order to understand the efficiency potential of this cell under filtered light in a tandem configuration. The possibility of increasing the Si subcell efficiency by 1% absolute is offered through joint improvements to the bulk lifetime, which exceeds 4 ms, and improves surface passivation quality to saturation current densities below 10 fA cm−2. Polycrystalline‐Si/SiOx passivating contacts are proposed as a promising alternative to partial‐area rear contacts, with the potential for further simplifying cell fabrication and improving device performance. A combination of optical modeling of the complete tandem structure alongside electrical modeling of the Si‐subcell, both with state‐of‐the‐art modeling tools, provides the first complete picture of the practical efficiency potential of perovskite/Si tandems. [ABSTRACT FROM AUTHOR]

Published

2020

47. pinkIndexer – a universal indexer for pink‐beam X‐ray and electron diffraction snapshots.

Author

Gevorkov, Yaroslav, Barty, Anton, Brehm, Wolfgang, White, Thomas A., Tolstikova, Aleksandra, Wiedorn, Max O., Meents, Alke, Grigat, Rolf-Rainer, Chapman, Henry N., and Yefanov, Oleksandr

Subjects

X-ray diffraction, X-ray crystallography, CRYSTAL orientation, DIFFRACTION patterns, ELECTRON diffraction, RADIATION sources

Abstract

A crystallographic indexing algorithm, pinkIndexer, is presented for the analysis of snapshot diffraction patterns. It can be used in a variety of contexts including measurements made with a monochromatic radiation source, a polychromatic source or with radiation of very short wavelength. As such, the algorithm is particularly suited to automated data processing for two emerging measurement techniques for macromolecular structure determination: serial pink‐beam X‐ray crystallography and serial electron crystallography, which until now lacked reliable programs for analyzing many individual diffraction patterns from crystals of uncorrelated orientation. The algorithm requires approximate knowledge of the unit‐cell parameters of the crystal, but not the wavelengths associated with each Bragg spot. The use of pinkIndexer is demonstrated by obtaining 1005 lattices from a published pink‐beam serial crystallography data set that had previously yielded 140 indexed lattices. Additionally, in tests on experimental serial crystallography diffraction data recorded with quasi‐monochromatic X‐rays and with electrons the algorithm indexed more patterns than other programs tested. [ABSTRACT FROM AUTHOR]

Published

2020

48. Marital Interventions: Participation, Helpfulness, and Change in a Nationally Representative Sample.

Author

White, Thomas Jack Esplin, Duncan, Stephen F., Yorgason, Jeremy B., James, Spencer L., and Holmes, Erin K.

Subjects

INTERVENTION (Social services), MARITAL conflict, NEWLYWEDS, MULTILEVEL models, GENERALIZABILITY theory

Abstract

Objective: To examine how often early‐married couples have participated in marital interventions and how helpful and change‐producing these interventions are perceived to be in a national probability sample. Background: Past research provides an unclear view of frequency of participation in marital interventions yet suggests that participation is both helpful and change‐producing. However, these studies are limited by their demographics, regions, and samples. A nationally representative, population‐level study of newlywed couples would help overcome these limitations and provide generalizable answers to the field. Method: A sample of 1,562 individuals who indicated participation in a marriage intervention either before or after marriage was drawn from a nationally representative sample known as the Couple Relationships and Transition Experiences (CREATE) survey. Multilevel models were used to address the research questions. Results: Just under 2 in 5 (38.3%) early‐married individuals participated in an intervention designed to prepare for or strengthen their marriage. Counseling was perceived to be the most helpful and change‐producing intervention, with religiosity, education, and gender moderating this association. Conclusion: This study provides a first‐of‐its‐kind national picture of participation rates and perceptions of the effectiveness of marriage interventions among early‐married couples. Implications: Findings may help energize marketing and outreach efforts and may encourage varied strategies to increase participation rates. [ABSTRACT FROM AUTHOR]

Published

2020

49. Spatially and Spectrally Resolved Absorptivity: New Approach for Degradation Studies in Perovskite and Perovskite/Silicon Tandem Solar Cells.

Author

Nguyen, Hieu T., Gerritsen, Sven, Mahmud, Md Arafat, Wu, Yiliang, Cai, Ziyuan, Truong, Thien, Tebyetekerwa, Mike, Duong, The, Peng, Jun, Weber, Klaus, White, Thomas P., Catchpole, Kylie, and Macdonald, Daniel

Abstract

Instability in perovskite solar cells is the main challenge for the commercialization of this solar technology. Here, a contactless, nondestructive approach is reported to study degradation across perovskite and perovskite/silicon tandem solar cells. The technique employs spectrally and spatially resolved absorptivity at sub‐bandgap wavelengths of perovskite materials, extracted from their luminescence spectra. Parasitic absorption in other layers, carrier diffusion, and photon smearing phenomena are all demonstrated to have negligible effects on the extracted absorptivity. The absorptivity is demonstrated to reflect real degradation in the perovskite film and is much more robust and sensitive than its luminescence spectral peak position, representing its optical bandgap, and intensity. The technique is applied to study various common factors which induce and accelerate degradation in perovskite solar cells including air and heat exposure and light soaking. Finally, the technique is employed to extract the individual absorptivity component from the perovskite layer in a monolithic perovskite/silicon tandem structure. The results demonstrate the value of this approach for monitoring degradation mechanisms in perovskite and perovskite/silicon tandem cells at early stages of degradation and various fabrication stages.Spectrally and spatially resolved absorptivity at sub‐bandgap wavelengths of perovskite materials, extracted from their luminescence spectra, is employed to study degradation across perovskite and perovskite/silicon tandem solar cells. The absorptivity is demonstrated to reflect real degradation in the perovskite film and is much more robust and sensitive than its luminescence spectral peak position, representing its optical bandgap and intensity. [ABSTRACT FROM AUTHOR]

Published

2020

50. A conditional mouse model of complex II deficiency manifesting as Leigh-like syndrome.

Author

Al Khazal, Fatimah, Holte, Molly Nelson, Bolon, Brad, White, Thomas A., LeBrasseur, Nathan, and Maher, L. James

Published

2019