科研成果

2023
Du P, Liu W, Zhang Q, Zhang P, He C, Shi Q, Huang C-H, Wang J. Transformation of dissolved organic matter during UV/peracetic acid treatment. Water Research [Internet]. 2023;232:119676. 访问链接Abstract
Peracetic acid combined ultraviolet (UV/PAA) process has garnered growing attention as a promising advanced oxidation process (AOP) for wastewater treatment, but the corresponding transformation of ubiquitous dissolved organic matter (DOM) under this AOP remains unknown. This study systematically investigated the changes in characteristics and composition of DOM under UV/PAA, as well as the underlying mechanisms by multiple spectroscopic analyses and Fourier transform ion cyclotron resonance mass spectrometry. UV/PAA treatment dramatically decreased aromaticity, apparent molecular weight, and fluorescent abundance of DOM with the production of more oxidized and saturated compounds. The reactive species (i.e., ·OH and CH3C(O)O·/CH3C(O)OO·) in UV/PAA contributed primarily to DOM changes but showed different reaction selectivity and mechanisms. ·OH reacts with DOM components and mainly yields oxygenation products via a radical addition pathway. Comparatively, the electron transfer route is more likely to occur in CH3C(O)O·/CH3C(O)OO·-induced DOM transformation. Aside from oxygenation products, electron transfer could exclusively generate decarboxylation products and distinguishes CH3C(O)O·/CH3C(O)OO·-based AOPs from ·OH-based AOPs. These findings significantly improve knowledge of DOM alterations under UV/PAA AOP at both the bulk and molecular levels.
Gan L, Xia F, Zhang P, Jiang X, Liu Y, Niu S, Hu Y. Triboelectric nanogenerators with a constant inherent capacitance design. NANO RESEARCH. 2023;16:4077-4084.Abstract
Triboelectric nanogenerators (TENGs) utilize the phenomena of contact electrification and electrostatic induction to harvest mechanical energy from the environment. A good match between the motion frequency and the circuit characteristic frequency is critical for the effective power generation of a TENG. However, most TENGs have a time-dependent inherent capacitance (TIC-TENG), which hinders an optimal design for efficient energy conversion. Here, we propose a novel structure of a TENG with a constant inherent capacitance (CIC-TENG) and a mathematical model is established to provide analytical expressions of key output parameters of the device, which gives numerical simulation results that are in good agreement with the experimentally obtained results. Figures of merit and an optimization strategy are also given as guidelines for the optimization of material selection, geometry design, etc. Furthermore, a disk-formed CIC-TENG (DCIC-TENG) with polarity-switched triboelectric pairs is constructed to harvest unidirectional mechanical energy continuously, achieving an output power density of 55 mW/m(2). The effects of the motion frequency, the number of electrodes and triboelectric pairs on the charge transfer efficiency of the DCIC-TENG are assessed and a preferred design strategy is given. Finally, the CIC-TENG demonstrates approximately two-fold advantages in power transfer efficiency over the TIC-TENG, and a DCIC-TENG-based self-powered anemometer was fabricated to measure wind speed in real time.
Xiuxiu Jia, Xue Zhao YZFLWLYHHZJMGH. Tri-functional lanthanum-based biochar for efficient phosphorus recovery, bacterial inhibition, and soil fertility enhancement. Biochar [Internet]. 2023;5(1):16. 访问链接Abstract
Excess phosphorus (P) in water can lead to eutrophication and upset ecological balance. In this study, biochar with ultrathin two-dimensional nanosheets from the natural mesocarp of shaddock was chosen as the carrier. The highly dispersed and small particle size of La(OH)3 on the surface of the nanosheets (MSBL3) was successfully achieved using chemical impregnation for the adsorption of P in aqueous solution, and the maximum adsorption capacity was 260.0 mg P g−1 [La]. The differences in surface crystallization of La(OH)3 on biochar at different La loadings were analyzed using the high-precision characterization methods. After six adsorption–desorption cycles, MSBL3 retained 76.7% of its initial performance in terms of the P adsorption capacity. The preparation of 1 g of MSBL3 costs about RMB 1, and it could reduce the P concentration in 2.6 ton of Laoyu River water to below the eutrophication threshold; and the inhibitory effect of MSBL3 on the eutrophication of water bodies was confirmed by the growth state of water hyacinth. Furthermore, 0.1 M MSBL3 could inhibit Escherichia coli and Staphylococcus aureus up to 98.7% and 85.0%, respectively, which indicates that MSBL3 can be used to recover P from water and also to improve water quality. In addition, the growth of the maize seedlings verified that the P-absorbed MSBL3 waste is a good soil fertilizer and can solve the problem of post-treatment of the adsorbent. In conclusion, MSBL3 prepared in this study is a promising P sorbent for application.
Zacharopoulos G, Ejjeh A, Jing Y, Yang E-Y, Jia T, Brumar I, Intan J, Huzaifa M, Adve S, Adve V, et al. Trireme: Exploration of hierarchical multi-Level parallelism for hardware acceleration. ACM Transactions on Embedded Computing Systems. 2023.
Hu QL, .. et al. WUY. True Nonvolatile High-Speed DRAM Cells Using Tailored Ultrathin IGZO. Advanced Materials [Internet]. 2023;35(20):2210554. 访问链接
Wang Y, Lan Z, Wu X, Qu T. TT-Net: Dual-Path Transformer Based Sound Field Translation in the Spherical Harmonic Domain, in International Conference on Acoustics, Speech and Signal Processing (ICASSP). Rhodes Island, Greece; 2023:1-5.
Qin C, Yang Y, Wu X, Chen L, Liu Z, Tang L, Lyu L, Huang D, Wang D, Zhang C, et al. Twistedly hydrophobic basis with suitable aromatic metrics in covalent organic networks govern micropollutant decontamination. NATURE COMMUNICATIONS. 2023;14.Abstract
The pre-designable structure and unique architectures of covalent organic frameworks (COFs) render them attractive as active and porous medium for water crisis. However, the effect of functional basis with different metrics on the regulation of interfacial behavior in advanced oxidation decontamination remains a significant challenge. In this study, we pre-design and fabricate different molecular interfaces by creating ordered pi skeletons, incorporating different pore sizes, and engineering hydrophilic or hydrophobic channels. These synergically break through the adsorption energy barrier and promote inner-surface renewal, achieving a high removal rate for typical antibiotic contaminants (like levofloxacin) by BTT-DATP-COF, compared with BTT-DADP-COF and BTT-DAB-COF. The experimental and theoretical calculations reveal that such functional basis engineering enable the hole-driven levofloxacin oxidation at the interface of BTT fragments to occur, accompanying with electron-mediated oxygen reduction on terphenyl motif to active radicals, endowing it facilitate the balanced extraction of holes and electrons. The synergetic regulation of the electronic structure and interfacial reaction of covalent organic frameworks (COF) for water purification remains a challenge. Here the authors propose that COFs materials possessing molecular interfaces with ordered pi skeletons, suitable pore size, and hydrophilic/hydrophobic channels synergically break through the adsorption energy barrier achieving high removal rates for micropollutants.
Shi X, Li X, Guo Q, Zeng M, Wang X, Wu Y. Ultrashort channel chemical vapor deposited bilayer WS2 field-effect transistors. Applied Physics Reviews. 2023;10:011405.
Li M, Li C, Xu X, Wang M, Zhu Z, Meng K, He B, Yu G, Hu Y, Peng L-M, et al. An Ultrathin Flexible Programmable Spin Logic Device Based on Spin-Orbit Torque. NANO LETTERS. 2023;23:3818-3825.Abstract
Flexible electronic devices have shown increasingly promising value facilitating our daily lives. However, flexible spintronic devices remain in their infancy. Here, this research demonstrates a type of nonvolatile, low power dissipation, and programmable flexible spin logic device, which is based on the spin-orbit torque in polyimide (PI)/Ta/Pt/Co/Pt heterostructures fabricated via capillary-assisted electrochemical delamination. The magnetization switching ratio is shown to be about 50% for the flexible device and does not change after 100 cycles of bending, indicating the device has stable performance. By designing the path of pulse current, five Boolean logic gates AND, NAND, NOT, NOR, and OR can be realized in an integrated two-element device. Moreover, such peeling-off devices can be successfully transferred to almost any substrate, such as paper and human skin, and maintain high performance. The flexible PI/Ta/Pt/Co/Pt spin logic device serves as logic-in-memory architecture and can be used in wearable electronics.
Li J, Jiang Q, Cai K, Fu J, Liu Y, Chen D, Liu X, Dai H, Chen Y, Chen Y. Uncovering the spatially uneven synergistic effects of China's enterprise-level industrial water pollutants reduction. Resources, Conservation and Recycling [Internet]. 2023;190:106811. 访问链接Abstract
China has made great efforts in industrial pollution control, but for the different industrial sectors under various development stages, it is not so clear whether there is synergistic effects among them, and how it changes with the environmental policies. This study filled this knowledge gap by comiling the China Industrial Economic and Pollutant Emission data (WatSim-CIEPE) using 1.28 million individual enterprise data. The results demonstrated a power function decreasing trend for the emission per unit output value. The load reduction at different stages had synergic effects, and coastal cities reached the inflection point earlier. There is a completely opposite pattern between pollutant emission and GIOV in spatial evolution, mainly because the chemical and metal sectors with high pollutant emissions and low GIOV migrated to western China. The year gap between the implementation of the national development strategy and the break-point of gravity center variation of GIOV indicates a hysteresis effect for the influence of development policies. There may be three risks in China's industrial pollution control: (a) NH pollution gets serious in the western regions; (b) the food sector may become a new dominant pollution source; (c) the imbalance between industrial development and pollution control may further aggravate.
Tang R, Guo S, Lu Q, Song K, Gong Y, Tan R, Liu K, Wang H, Yu Y, Shen R, et al. Unexpected moderate contribution of intermediate volatility organic compounds from gasoline vehicle emission to secondary organic aerosol formation in summer of Beijing. Atmospheric ResearchAtmospheric Research. 2023;295.
Guo C, Zhou Z, Liu X, Liu X, Meng J, Dai* H. The unintended dilemma of China's target-based carbon neutrality policy and provincial economic inequality. Energy Economics [Internet]. 2023:107002. 访问链接
Zhao X. Unmet needs and depression among spousal caregivers: the mediating role of marital satisfaction. Aging & Mental Health [Internet]. 2023. 访问链接
Liu Y, Xu X, Dimitrov D, Pellissier L, Borregaard MK, Shrestha N, Su X, Luo A, Zimmermann NE, Rahbek C, et al. An updated floristic map of the world. Nature Communications. 2023;14:2990.Abstract
Floristic regions reflect the geographic organization of floras and provide essential tools for biological studies. Previous global floristic regions are generally based on floristic endemism, lacking a phylogenetic consideration that captures floristic evolution. Moreover, the contribution of tectonic dynamics and historical and current climate to the division of floristic regions remains unknown. Here, by integrating global distributions and a phylogeny of 12,664 angiosperm genera, we update global floristic regions and explore their temporal changes. Eight floristic realms and 16 nested sub-realms are identified. The previously-defined Holarctic, Neotropical and Australian realms are recognized, but Paleotropical, Antarctic and Cape realms are not. Most realms have formed since Paleogene. Geographic isolation induced by plate tectonics dominates the formation of floristic realms, while current/historical climate has little contribution. Our study demonstrates the necessity of integrating distributions and phylogenies in regionalizing floristic realms and the interplay of macroevolutionary and paleogeographic processes in shaping regional floras.
Huang Y, Luo K, Yang W, Chen X, Wang M, Shi L, Zhu L, Mao X, Ji X, Xu T. Urea Electrosynthesis in Microbial Electrolysis Cells Using Low-cost Fe–N–C for Simultaneous N2 and CO2 Reduction. Industrial & Engineering Chemistry Research. 2023;62(34):13450-13457.
Hu H, Wang H, Lu K, Wang J, Zheng Z, Xu X, Zhai T, Chen X, Lu X, Qin M, et al. Variation and Trend of Nitrate radical reactivity towards volatile organic compounds in Beijing, China. 2023.
Khan Z, Zhao M, Ahsan H, Wolfram P, Snyder A, Kyle P, Rice J, Vernon C, Ou Y, Binsted M. Version of GCAM-USA used for National Climate Assessment 5, Chapter 5: GCAM-USA-v5. 3-IM3-NCA5. MultiSector Dynamics-Living, Intuitive, Value-adding, Environment; 2023.
Chu X, Jin Y, Wang X, Zhang S, Wang Y, Zhu W, Mei H. Wasserstein barycenter matching for graph size generalization of message passing neural networks, in International Conference on Machine Learning. PMLR; 2023:6158–6184.
Dai T. Wastewater treatment plant effluent discharge decreases bacterial community diversity and network complexity in urbanized coastal sediment. Environmental Pollution [Internet]. 2023. 访问链接Abstract
The wastewater treatment plant (WWTP) effluent discharge affects the microorganisms in the receiving water bodies. Despite the ecological significance of microbial communities in pollutant degradation and element cycling, how the community diversity is affected by effluent remains obscure. Here, we compared the sediment bacterial communities exposed to different intensities of WWTP effluent discharge in Hangzhou Bay, China: i) a severely polluted area that receives effluent from an industrial WWTP, ii) a moderately polluted area that receives effluent from a municipal WWTP, and iii) less affected area that inner the bay. We found that the sediment bacterial diversity decreased dramatically with pollution levels of inorganic nutrients, heavy metals, and organic halogens. Microbial community assembly model analysis revealed increased environmental selection and decreased species migration rate in the severely polluted area, resulting in high phylogenetic clustering of the bacterial communities. The ecological networks were less complex in the two WWTP effluent receiving areas than in the inner bay area, as suggested by the smaller network size and lower modularity. Fewer negative network associations were detected in the severely (6.7%) and moderately (8.3%) polluted areas than in the less affected area (16.7%), indicating more collaborative inter-species behaviors are required under stressful environmental conditions. Overall, our results reveal the fundamental impacts of WWTP effluents on the ecological processes shaping coastal microbial communities and point to the potential adverse effects of diversity loss on ecosystem functions.
Qiong Su*, Hancheng Dai* SXXYYLVSRKP. Water-energy-carbon nexus: greenhouse gas emissions from integrated urban drainage systems in China. Environmental Science & Technology. 2023.

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