科研成果

2022
Ye J, Yuan Y, Zhang Y, Yang W, Gao X. Biophotoelectrochemistry for the nexus of energy and environment. Frontiers in Microbiology. 2022;13:1072083.
Deng H, Li L, Kim JJ, Ling FT, Beckingham LE, Wammer KH. Bridging environmental geochemistry and hydrology. Journal of Hydrology. 2022:128448.
Ji J, Sun X, He W, Liu Y, Duan J, Liu W, Nghiem LD, Wang Q, Cai Z. Built-in electric field enabled in carbon-doped Bi3O4Br nanocrystals for excellent photodegradation of PAHs. Separation and Purification Technology [Internet]. 2022;302:122066. 访问链接Abstract
A new type of solar active carbon-doped Bi3O4Br catalyst was synthesized by combining hydrothermal and post-thermal treatment. The activity of the material under sunlight and visible light was 3.3 times and 2.7 times that of Bi3O4Br, respectively. The C-doping on Bi3O4Br nanosheets increased the built-in electric field strength, thus significantly promoted the migration of charge carriers and enhanced the photocatalytic activity. In addition, replacing Br with C with a smaller atomic radius can shorten the interlayer spacing, which is beneficial to carrier separation. Experiments showed that the doping of C shortened the semiconductor band gap by 9.8% and expanded the absorption range of visible light. Among the photogenerated reactive species, h+ played a major role in the degradation of 1-methylpyrene (a typical polycyclic aromatic hydrocarbons), followed by O2∙- and •OH. Based on intermediate analysis and DFT calculation, we proposed the degradation mechanism and pathways. Quantitative structure–activity relationship (QSAR) analysis showed that some toxic intermediates were produced during the photocatalysis process, but the overall environmental risk was greatly reduced. This work provides new perspective for understanding non-metallic doping in semiconductor photocatalysts to enhance the built-in electric field, and this technology can be extended to other semiconductor materials.
Xiong F, Wen D, Li Q. Calcium-mediated regulation promotes the biofilm formation of two novel pyridine-degrading bacteria. Frontiers in Environmental Science [Internet]. 2022;10:815528. 访问链接Abstract
In bioaugmented wastewater treatment systems, it is essential for recalcitrant pollutant-degrading bacteria to form biofilms. Inducing biofilm formation in these bacteria, however, is challenging as it involves multiple inter-related regulating pathways and environmental factors. Herein, we report the remarkable promoting effect of Ca2+ on biofilm formation of two novel pyridine-degrading bacteria with poor innate biofilm-forming capabilities, Pseudomonas sp. ZX01 and Arthrobacter sp. ZX07. The roles of Ca2+ in different biofilm development stages were investigated. Our data showed strong influences of Ca2+ on the initial attachment of the two strains onto positively charged glass surfaces by altering cell surface charge as well as the cation bridging effect. Contrary to many other biofilm promoting mechanisms, Ca2+ downregulated the extracellular polymeric substances (EPS) production per cell in both Pseudomonas sp. ZX01 and Arthrobacter sp. ZX07, while increasing biofilm biomass. This is attributed to the strong cationic bridging between Ca2+ and EPS which can elevate the efficiency of the extracellular products in binding bacterial cells. Furthermore, Ca2+ increased the protein-to-polysaccharide (PN/PS) ratio in biofilm EPS of both strains, which favored cell aggregation, and biofilm establishment by increasing the hydrophobicity of cell surfaces. More intriguingly, the intracellular c-di-GMP, which can drive the switch of bacterial lifestyle from planktonic state to biofilm state, was also elevated markedly by exogenous Ca2+. Taken together, these results would be of guidance for applying the two strains into bioaugmented biofilm reactors where Ca2+ supplement strategy can be employed to facilitate their biofilm formation on the surfaces of engineering carriers.
Hu Q, Gu C, Zhu S, Li Q, Tong A, Kang J, HUANG R, Wu Y. Capacitorless DRAM Cells Based on High-Performance Indium-Tin-Oxide Transistors With Record Data Retention and Reduced Write Latency. IEEE Electron Device Letters. 2022;44:60–63.
Li S, Wang L, Su L, Li Z, Zhang K. Carbon dioxide diffusions in Methane-Dissolved pore Fluids: Implications for geological carbon storage and utilization in tight formations. Chemical Engineering Journal [Internet]. 2022;429:132147. 访问链接Abstract
Fluid immobilizations in tight formations augment the importance of CO2 molecular diffusions in the processes of geological carbon utilization and storage. This study, for the first time, investigates the CO2 diffusions in unconventional tight formations which are saturated with in-situ gas-dissolved pore fluids, both experimentally and theoretically. A novel high-pressure high-temperature diffusion cell was designed to reproduce the actual CO2 diffusions in extremely low-permeability on-site geological cores saturated with methane-dissolved crude oils at the reservoir conditions and various scenarios (e.g., different gas–liquid ratios). On the other hand, a comprehensive mathematical model, which consists composition and diffusion models, was developed for quick predictions and in-depth evaluations. The CO2 diffusion coefficients at the pressure of 18.5 MPa and temperature of 80 °C with varying gas–liquid ratios were obtained from a genetic algorithm-fitting of the measured and calculated data. With the gas–liquid ratios increasing from 0 to 40 sm3/m3, the CO2 diffusion coefficient was found to decrease from 7.90 × 10−9 to 3.09 × 10−9 m2/s and the average velocity of diffusion front reduced from 0.0121 to 0.0050 m/d. This finding indicates methane dissolutions into the crude oil at the reservoir conditions would be detrimental for the CO2 diffusions. Hence, the methane amount is suggested to be well controlled in the processes of geological carbon storage and utilization for oil production. This study will support the foundation of more general application pertaining to geological CO2 utilization and storage, especially in the unconventional tight or shale oil reservoirs.
Xia F, Xia T, Xiang L, Ding S, Li S, Yin Y, Xi M, Jin C, Liang X, Hu Y. Carbon Nanotube-Based Flexible Ferroelectric Synaptic Transistors for Neuromorphic Computing. ACS Applied Materials & Interfaces [Internet]. 2022;14:30124-30132. 访问链接Abstract
Biological nervous systems evolved in nature have marvelous information processing capacities, which have great reference value for modern information technologies. To expand the function of electronic devices with applications in smart health monitoring and treatment, wearable energy-efficient computing, neuroprosthetics, etc., flexible artificial synapses for neuromorphic computing will play a crucial role. Here, carbon nanotube-based ferroelectric synaptic transistors are realized on ultrathin flexible substrates via a low-temperature approach not exceeding 90 °C to grow ferroelectric dielectrics in which the single-pulse, paired-pulse, and repetitive-pulse responses testify to well-mimicked plasticity in artificial synapses. The long-term potentiation and long-term depression processes in the device demonstrate a dynamic range as large as 2000×, and 360 distinguishable conductance states are achieved with a weight increase/decrease nonlinearity of no more than 1 by applying stepped identical pulses. The stability of the device is verified by the almost unchanged performance after the device is kept in ambient conditions without additional passivation for 240 days. An artificial neural network-based simulation is conducted to benchmark the hardware performance of the neuromorphic devices in which a pattern recognition accuracy of 95.24% is achieved.
Long G, Jin W, Xia F, Wang Y, Bai T, Chen X, Liang X, Peng L-M, Hu Y. Carbon nanotube-based flexible high-speed circuits with sub-nanosecond stage delays. NATURE COMMUNICATIONS [Internet]. 2022;13. 访问链接Abstract
High-speed flexible circuits are required in flexible systems to realize real-time information analysis or to construct wireless communication modules for emerging applications. Here, we present scaled carbon nanotube-based thin film transistors (CNT-TFTs) with channel lengths down to 450 nm on 2-mu m-thick parylene substrates, achieving state-of-the-art performances of high on-state current (187.6 mu A mu m(-1)) and large transconductance (123.3 mu S mu m(-1)). Scaling behavior analyses reveal that the enhanced performance introduced by scaling is attributed to channel resistance reduction while the contact resistance (180 +/- 50 k omega per tube) remains unchanged, which is comparable to that achieved in devices on rigid substrates, indicating great potential in ultimate scaled flexible CNT-TFTs with high performance comparable to their counterparts on rigid substrates where contact resistance dominates the performance. Five-stage flexible ring oscillators are built to benchmark the speed of scaled devices, demonstrating a 281 ps stage delay at a low supply voltage of 2.6 V. High-speed flexible circuits are essential in flexible systems for real-time information analysis and wireless communication. Here, flexible circuits are reported with a 281 ps stage delay based on scaled carbon nanotube thin film transistors.
Catalyst-free periodate activation by solar irradiation for bacterial disinfection: performance and mechanisms. Environmental Science & Technology [Internet]. 2022. 访问链接
Catalyst-Free Periodate Activation by Solar Irradiation for Bacterial Disinfection: Performance and Mechanisms
Liu F, Li Z, Dong Q, Nie C, Wang S, Zhang B, Han P, Tong M. Catalyst-Free Periodate Activation by Solar Irradiation for Bacterial Disinfection: Performance and Mechanisms. Environmental Science and Technology [Internet]. 2022;56(7):4413-4424. 访问链接Abstract
Periodate (PI)-based advanced oxidation process has recently attracted great attention in the water treatment processes. In this study, solar irradiation was used for PI activation to disinfect waterborne bacteria. The PI/solar irradiation system could inactivate Escherichia coli below the limit of detection (LOD, 10 CFU mL–1) with initial concentrations of 1 × 106, 1 × 107, and 1 × 108 CFU mL–1 within 20, 40, and 100 min, respectively. •O2– and •OH radicals contributed to the bacterial disinfection. These reactive radicals could attack and penetrate the cell membrane, thereby increasing the amount of intracellular reactive oxygen species and destroying the intracellular defense system. The damage of the cell membrane caused the leakage of intracellular K+ and DNA (that could be eventually degraded). Excellent bacterial disinfection performance in PI/solar irradiation systems was achieved in a wide range of solution pH (3–9), with coexisting humic acid (0.1–10 mg L–1) and broad solution ionic strengths (15–600 mM). The PI/solar irradiation system could also efficiently inactivate Gram-positive Bacillus subtilis. Moreover, PI activated by natural sunlight irradiation could inactivate 1 × 107 CFU mL–1 viable E. coli below the LOD in the river and sea waters with a working volume of 1 L in 40 and 50 min, respectively. Clearly, the PI/solar system could be potentially applied to disinfect bacteria in water.
Ge Y, Wang K. A Census of 163 Large-scale (\ensuremath\geq10 pc), Velocity-coherent Filaments in the Inner Galactic Plane: Physical Properties, Dense-gas Fraction, and Association with Spiral Arms. \apjs. 2022;259:36.
Gu J. CEO cognitive trust, governmental support and marketing innovation: empirical evidence from Chinese small, medium and micro enterprises Ardito L. Journal of Knowledge Management [Internet]. 2022;26(9):2463-2484. 访问链接Abstract
Purpose This study aims to verify the influence of chief executive officer (CEO) cognitive trust and governmental support on marketing innovation. Additionally, it evaluated the influence of CEO cognitive trust on the marketing innovation of small, medium and micro enterprises (SMMEs). Design/methodology/approach The authors empirically assessed the impact of CEO cognitive trust on SMME marketing innovation. Furthermore, the authors examined the mediating effect of governmental support on this relationship. The authors then studied a sample of 1,770 SMMEs in China by applying partial least squares structural equation modeling. Findings The authors found that CEO cognitive trust was negatively associated with marketing innovation. Moreover, governmental support has a competitive mediating effect on this relationship. Thus, while governmental support is urgently needed to enhance the marketing innovation of SMMEs, CEO cognitive trust negatively impacts this relationship. Research limitations/implications This study empirically establishes the importance of CEO cognitive trust and governmental support as antecedents in SMME marketing innovation. This contributes to the knowledge base of the management field, adding to important streams in the wider business literature, such as marketing studies, leadership management, strategic management and innovation. While the model is parsimonious, the relationships it highlights are robust and can be generalized to other contexts. Practical implications Managers must not only have high levels of trust and authority but must also embody these characteristics rationally. Simultaneously, managers must actively establish a trusting relationship with the government, thereby improving their company’s ability to integrate government policy information while also actively seeking governmental support. These measures are helpful in enhancing the marketing innovation capabilities of SMMEs. Social implications SMMEs occupy an important position in all countries’ economies and their vitality directly determines the strength of the economy. Formulating reasonable marketing strategies will help enhance market competitiveness and promote the rapid development of SMMEs. Originality/value The literature on marketing innovation has paid little attention to CEO cognitive trust, while CEOs’ cognitive characteristics are an increasingly relevant antecedent in SMME marketing innovation. This study analyzed CEO cognitive trust as a possible antecedent of marketing innovation activities in SMMEs, with this influence path being evaluated. This study extends the current knowledge in this field by considering the effects of CEO cognitive trust on marketing innovation.
Gu J. CEO Information Ability, Absorptive Capacity, and E-Commerce Adoption among Small, Medium, and Micro Enterprises in China. Sustainability [Internet]. 2022;14(2):839. 访问链接Abstract
The purpose of this study was to explore the relationship between chief executive officer (CEO) characteristics, absorptive capacity, and e-commerce adoption in SMMEs. To achieve this objective, the study analyzed primary data gathered from 2675 small, medium, and micro enterprises (SMMEs) in China. A logistic regression model was employed to estimate how the CEO characteristics and absorptive capacity of SMMEs influenced their e-commerce adoption. The study revealed a significant positive relationship between CEO information ability, confidence, and e-commerce adoption. Additionally, this study confirmed a positive relationship between absorptive capacity and the adoption of e-commerce.
Qiming Yuan, Hehui Li BDQDQCZZMZGDCLTG. The cerebellum and cognition: further evidence for its role in language control. Cerebral Cortex [Internet]. 2022;33(1):35–49. 访问链接Abstract
The cognitive function of the human cerebellum could be characterized as enigmatic. However, researchers have attempted to detail the comprehensive role of the cerebellum in several cognitive processes in recent years. Here, using functional magnetic resonance imaging (fMRI) and transcranial direct current stimulation (tDCS), we revealed different functions of bilateral cerebellar lobules in bilingual language production. Specifically, brain activation showed the bilateral posterolateral cerebellum was associated with bilingual language control, and an effective connectivity analysis built brain networks for the interaction between the cerebellum and the cerebral cortex. Furthermore, anodal tDCS over the right cerebellum significantly optimizes language control performance in bilinguals. Together, these results reveal a precise asymmetrical functional distribution of the cerebellum in bilingual language production, suggesting that the right cerebellum is more involved in language control. In contrast, its left counterpart undertakes a computational role in cognitive control function by connecting with more prefrontal, parietal, subcortical brain areas.
Zheng Y, Wang J, Irwin J, English J, Ma Q, Wang R, Wang K, Wang DQ, Krause M, Randriamampandry TH, et al. CHANG-ES XXV: H I imaging of nearby edge-on galaxies - Data Release 4. \mnras. 2022;513:1329-1353.
Channel Coupling Dynamics of Deep-Lying Orbitals in Molecular High-Harmonic Generation. PHYSICAL REVIEW LETTERS [Internet]. 2022;128(18):183202. 访问链接
Dang C, Jiang H, Zheng M, Li Z, Liu W, Fu J. Chapter 17 The Different Toxicity and Mechanism of Titanium Dioxide (TiO2) and Titanate Nanotubes (TNTs) on Escherichia coli. In: Emerging Nanotechnologies for Water Treatment. The Royal Society of Chemistry; 2022. pp. 507-522. 访问链接Abstract
As typical titanium nanomaterials, TiO2 and titanate nanotubes (TNTs) are extensively used. Although the toxicity of nano-TiO2 under solar light has been investigated, it is not enough to evaluate its environmental toxicity because the dark environment is also important in the natural environment. In addition, little is known about the environmental toxicity and mechanism of the emerging TNTs. In this study, we investigated the toxicity of nano-TiO2 and TNTs based on the inactivation performance on Escherichia coli cells under simulated solar light and in a dark chamber, and their toxicity mechanisms were explored on a subcellular level. The inactivation performance was: nano-TiO2-solar (100.0%) > TNTs-solar (62.7%) > TNTs-dark (36.6%) > TiO2-dark (0.5%). The excellent inactivation performance of nano-TiO2 under solar light is caused by the large amount of active free radicals attacking cell organelles until peroxidation and death, which is due to the strong photocatalytic properties. The lower inactivation ability of nano-TiO2 in the dark was due to the absence of radicals and its accessible physical morphology. For TNTs, the inactivation ability under solar light is derived from a combination of its weak photocatalytic performance and morphological effects, and TNTs in a dark environment can only attack cells via physical piercing.
Liu W, Ji H, Chen L, Duan J. Chapter 7 Application of Titanate Nanotubes for Water Treatment. In: Emerging Nanotechnologies for Water Treatment. The Royal Society of Chemistry; 2022. pp. 185-227. 访问链接Abstract
Titanate nanotubes (TNTs), derived from TiO2 nanoparticles through hydrothermal treatment, have been attracting intensive research interests in recent years. Unlike the precursor TiO2 nanoparticles that have high photocatalytic activity under ultraviolet light, TNTs exhibit multi-layered and tubular structures. In addition, TNTs are composed of corrugated ribbons of edge-sharing [TiO6] octahedrons as the skeleton and H+/Na+ are located in the interlayers. Thus, TNTs usually have uniform tubular microstructures, large specific surface area, abundant functional groups (–ONa/–OH), good ion-exchange properties, high solution stability and high photoelectric quantum conversion effects. The specific physicochemical properties of TNTs indicate their great application potential in water and wastewater treatment. This chapter provides an overview of the latest research on the environmental applications and implications of TNTs. Conventional methods for the synthesis and characterization of TNTs are also summarized. TNTs and modified TNTs used as adsorbents, photocatalysts and catalysts for peroxymonosulfate/peroxydisulfate activation are systematically discussed. The environmental behaviors of aggregation and sedimentation of TNTs in water are also described.
Liu YC, Man RQ, Qiu YT, Yang JW, Wang JR, Tan R, Tang LZ, Yu Y, Song K, Guo S, et al. Characteristics of PM2. 5 Pollution in Beijing During the Historical Period of the 2022 Olympic Winter Games. Huanjing Kexue/Environmental ScienceHuanjing Kexue/Environmental Science. 2022;43:3895-3902.
Xu N, Hu M*. Chemical characteristics and sources of organic aerosols across the Taiwan Strait. ATMOSPHERIC POLLUTION RESEARCH [Internet]. 2022;13(2). 访问链接

Pages