Light and Shadow of Artificial Intelligence: Transformative Journalism Opportunities and ethical dilemmas brought about by ChatGPT -- A research review based on the literature of domestic core journals

Since the release of ChatGPT in 2022, the related research fields have shown an explosive growth trend. Given this, this study attempts to sort out the current research systematically results on ChatGPT in journalism and communication by the literature review to expand the horizon of future research. Journalism and communication scholars have carried out a series of research on ChatGPT from three aspects: journalism reform, media theory, and media ethics. These researchers made certain progress in theory and practice. However, the existing researches still have problems, such as unclear concept definition, single research method, and confusing research topic. Future research should base on the perspective of journalism and communication disciplines, expand research methods and enrich research perspectives, and constantly upgrade ChatGPT research from phenomenon discussion to theoretical innovation and academic exchange. Keywords: ChatGPT, News communication, Artificial intelligence, Media ethics DOI: 10.7176/NMMC/104-12 Publication date: July 31st 2023

PO-198 Effect of aerobic exercise on antioxidation ability of mice kidneys

Objective To study the total antioxidant capacity of the kidney in the Aged mice Total Antioxidant Capacity(T-AOC), Malondialdehyde (MDA) and superoxide dismutase (SOD) expression level by aerobic exercise. Objective to explore the effect of aerobic exercise on antioxidation ability of mice. Methods 30 Male C57BL/6 strain mice were randomly divided into adult group ( group CC) in the 13 months old, in the control group (Group C), 5 months of quiet feeding, the aerobic exercise group (Group E) ran for 5 months, 10 per group, and the adult group (group CC) compared with the control group (Group C), The Analysis control Group (Group C) was compared with the aerobic exercise group (Group E). After 5 months of Treadmill running in Group E, Determination of antioxidant index of each group. The statistical method is processed by SPSS20.0 statistic software, the experimental data is expressed by the mean ± standard deviation, the two mean numbers are analyzed by independent sample t test, and the difference of (p<0.05) is statistically significant. Results T-AOC of adult Group was (0.99±0.13) U/mg Prot, control group was (0.27±0.07) u/mg prot, aerobic exercise group (0.39±0.10) U/mg prot, adult group SOD as (46.32± 1.84) U/mg, control Group (29.71±7.64) U/mg, aerobic exercise group (39.85±5.83) U/mg, adult group MDA (8.15±0.16) nmol/mg, control Group (8.83±0.26) nmol/mg, The aerobic exercise group was (6.31±1.23) nmol/mg, the adult group was SOD/MDA (5.69±0.32), the control group was (3.38±0.9) and the aerobic exercise group was (6.55±1.08). Compared with the adult group, the control group T-AOC and SOD decreased significantly, MDA significantly increased, the difference was very significant (p<0.01), sod/mda significantly decreased, SOD/MDA difference was significant (p<0.01). Compared with the control group, the aerobic exercise group T-AOC and SOD obviously increased, MDA significantly decreased, the difference was significant (p<0.01), SOD/MDA increased significantly, the difference was very significant (p<0.01). Conclusions To sum up, with the increase of the age of mice MDA expression is increased, the 18 months old SOD expression is lower than 13 months old, indicating that the antioxidant capacity with the increase in age,  The results of this study are consistent with the results of previous scholars. The results show that aerobic exercise has some antioxidant effect, and aerobic exercise can decrease expression of kidney tissue SOD, raise the expression of kidney tissue T-AOC, increase the expressionof kidney tissue, increase the expression  of SOD/MDA, and reduce the oxidative stress of kidney to some extent,  So as to protect the role of the kidney, aerobic exercise and kidney-related mechanisms also need our further study

Investigation of the relationship between chronic stress and insulin resistance in a Chinese population

Background: Chronic stress may facilitate the development of metabolic diseases. Insulin resistance is present long before the clinical manifestations of individual metabolic abnormalities. To explore whether chronic stress is an independent risk factor of insulin resistance, we investigated the relationship between the stress system, selected parameters of energy homeostasis, and insulin resistance in a Chinese population. Methods: We recruited 766 workers employed at four companies in Beijing. The degree of insulin resistance was determined using the homeostasis model assessment of insulin resistance (HOMA-IR). The highest quartile of HOMA-IR among all study subjects was further defined as insulin resistance in our study. The short standard version of the Copenhagen Psychosocial Questionnaire (COPSOQ) was used to assess job-related psychosocial stress. Pearson\u27s correlation coefficients were calculated between cortisol level and HOMA-IR and components of metabolic syndrome, with stratification by gender. The relationship between cortisol and HOMA-IR independent of obesity was analyzed using a linear mixed model with company as a cluster unit. Results: The values of the two scales of COPSOQ, including demands at work and insecurity at work , were significantly associated with insulin resistance and cortisol concentration (P \u3c 0.05). Cortisol was significantly positively correlated with glucose, HOMA-IR, and waist circumference in males and females (P \u3c 0.05). After adjusting for potential confounders, cortisol was an independent positive predictor for HOMA-IR (P \u3c 0.05). Conclusions: These findings showed that chronic stress was associated with insulin resistance and may contribute to the development of insulin resistance

Synergistic Improvement of Production, Economic Return and Sustainability in the Tea Industry through Ecological Pest Management

The use of ecological principles to manage plant pests has attracted renewed attention, but our knowledge related to the contributions of ecological pest management to social and natural sustainability is fragmented. In this study, we compared the performance and resilience of tea production and the economic benefits of tea ecological management (TEM) and tea conventional management (TCM). We show that TEM significantly improved tea biomass and quality, nutritional efficiency, and beneficial insects, but reduced seasonal variation. As a result, economic return increased by $8045/ha in the TEM mode compared to$6064/ha in the TCM mode. These results confirm that TEM is a promising production mode that can reconcile the conflict between the immediate and long-term service of agriculture. However, environmental improvements associated with organic pest control benefit society, and the government should provide adequate financial support to promote the production system

Progress of Surface Science Studies on ABX(3)-Based Metal Halide Perovskite Solar Cells

ABX(3) type metal halide perovskite solar cells (PSCs) have shown efficiencies over 25%, rocketing toward their theoretical limit. To gain the full potential of PSCs relies on the understanding of the device working mechanisms and recombination, the material quality, and the match of energy levels in the device stacks. In this review, the importance of designing PSCs from the viewpoint of surface/interface science studies is presented. For this purpose, recent case studies are discussed to demonstrate how probing of local heterogeneities (e.g., grains, grain boundaries, atomic structure, etc.) in perovskites by surface science techniques can help correlate material properties and PSC device performance. At the solar cell device level with active areas larger than millimeter scale, the ensemble average measurement techniques can characterize the overall average properties of perovskite films as well as their adjacent layers and provide clues to understand better the solar cell parameters. How generation and healing of electronic defects in perovskite films limit the device efficiency, reproducibility, and stability, and induce the time-dependent transient behavior in the current-voltage curves are also the central focus of this review. On the basis of these studies, strategies to further improve efficiency and stability, as well as reducing hysteresis are presented

Perovskite solar cells by vapor deposition based and assisted methods

Metal halide perovskite solar cells have made significant breakthroughs in power conversion efficiency and operational stability in the last decade, thanks to the advancement of perovskite deposition methods. Solution-based methods have been intensively investigated and deliver record efficiencies. On the other hand, vapor deposition-based and assisted methods were less studied in the early years but have received more attention recently due to their great potential toward large-area solar module manufacturing and high batch-to-batch reproducibility. In addition, an in-depth understanding of perovskite crystallization kinetics during the vapor deposition based and assisted process allows increasing perovskite deposition rate and enhancing perovskite quality. In this review, the advances in vapor-based and assisted methods for the fabrication of perovskite solar cells are introduced. The quality of the perovskite layers (i.e., morphology, crystallinity, defect chemistry, carrier lifetime) fabricated by different methods is compared. The limitations of state-of-the-art vapor-deposited perovskite layers are discussed. Finally, insights into the engineering of vapor deposition based and assisted perovskite layers toward efficient and stable perovskite solar cells and modules are provided

Scalable Fabrication of Stable High Efficiency Perovskite Solar Cells and Modules Utilizing Room Temperature Sputtered SnO2 Electron Transport Layer

Stability and scalability have become the two main challenges for perovskite solar cells (PSCs) with the research focus in the field advancing toward commercialization. One of the prerequisites to solve these challenges is to develop a cost-effective, uniform, and high quality electron transport layer that is compatible with stable PSCs. Sputtering deposition is widely employed for large area deposition of high quality thin films in the industry. Here the composition, structure, and electronic properties of room temperature sputtered SnO2 are systematically studied. Ar and O-2 are used as the sputtering and reactive gas, respectively, and it is found that a highly oxidizing environment is essential for the formation of high quality SnO2 films. With the optimized structure, SnO2 films with high quality have been prepared. It is demonstrated that PSCs based on the sputtered SnO2 electron transport layer show an efficiency up to 20.2% (stabilized power output of 19.8%) and a T-80 operational lifetime of 625 h. Furthermore, the uniform and thin sputtered SnO2 film with high conductivity is promising for large area solar modules, which show efficiencies over 12% with an aperture area of 22.8 cm(2) fabricated on 5 x 5 cm(2) substrates (geometry fill factor = 91%), and a T-80 operational lifetime of 515 h