科研成果

2024
Qiu Y, Ma* Y, Wu M, Jia Y, Qu X, Zhou Z, Lou J, Jia T, Ye L, HUANG R. Quartet: A 22nm 0.09mJ/lnference Digital Compute-in-Memory Versatile AI Accelerator with Heterogeneous Tensor Engines and Off-Chip-Less Dataflow. IEEE Custom Integrated Circuits Conference (CICC) [Internet]. 2024. Links
Yuan CL; WL; Y. The quiet revolution: Send-down movement and female empowerment in China. Journal of Development Economics [Internet]. 2024;172(103379). 访问链接Abstract
What promotes female empowerment and gender equality? We investigate how internal population mobility and social interaction foster the advancement of female empowerment and gender equality across diverse subpopulations. Using the urban-to-rural youth resettlement program in China during the 1970s — the Send-down Movement — as our empirical context, we find that rural females with greater exposure to urban youths have achieved higher levels of education, increased labor force participation, greater financial independence, enhanced autonomy in marital and fertility decisions, increased political engagement, heightened self-confidence, reduced risk aversion, and a stronger belief in gender-equal ideologies and social values. Our findings underscore the role of population mobility in disseminating gender-equal ideologies and practices, both through human capital formation and social interactions, leading to lasting impacts on female empowerment in traditional societies.
Wei J, Chen W, Wen D. Rare biosphere drives deterministic community assembly, co-occurrence network stability, and system performance in industrial wastewater treatment system. Environment International [Internet]. 2024;190:108887. 访问链接Abstract
Bacterial community is strongly associated with activated sludge performance, but there still remains a knowledge gap regarding the rare bacterial community assembly and their influence on the system performance in industrial wastewater treatment plants (IWWTPs). Here, we investigated bacterial communities in 11 full-scale IWWTPs with similar process designs, aiming to uncover ecological processes and functional traits regulating abundant and rare communities. Our findings indicated that abundant bacterial community assembly was governed by stochastic processes; thereby, abundant taxa are generally present in wastewater treatment compartments across different industrial types. On the contrary, rare bacterial taxa were primarily driven by deterministic processes (homogeneous selection 61.9%-79.7%), thus they only exited in specific IWWTPs compartments and wastewater types. The co-occurrence networks analysis showed that the majority of keystone taxa were rare bacterial taxa, with rare taxa contributing more to network stability. Furthermore, rare bacteria rather than abundant bacteria in the oxic compartment contributed more to the degradation of xenobiotics compounds, and they were main potential drivers of pollutant removal. This study demonstrated the irreplaceable roles of rare bacterial taxa in maintaining system performance of IWWTPs, and called for environmental engineers and microbial ecologists to increase their attention on rare biosphere.
Li D, Wang C, Huang* H. Real-space approach for the Euler class and fragile topology in quasicrystals and amorphous lattices. SciPost Physics [Internet]. 2024;17:086. 访问链接Abstract
arXiv:2311.01557
Masten HN, Lundh JS, Feygelson TI, Sasaki K, Cheng Z, Spencer JA, Liao P-Y, Hite JK, Pennachio DJ, Jacobs AG. Reduced temperature in lateral (AlxGa1− x) 2O3/Ga2O3 heterojunction field effect transistor capped with nanocrystalline diamond. Applied Physics Letters. 2024;124(15).
Sheng A, Deng Y, Ding Y, Cheng L, Liu Y, Li X, Arai Y, Liu J. Regulation of ferrihydrite biotransformation by Fe(II) supply rates and extracellular polymeric substances. Geochimica et Cosmochimica Acta [Internet]. 2024. 访问链接Abstract
Biotransformation of ferrihydrite (Fh) by dissimilatory iron-reducing bacteria (DIRB) into various secondary minerals assemblages widely occurs in anaerobic environments. While respiration-driven supply rates of Fe(II) have been proposed as a primary factor controlling kinetics and mineral products of this process, the specific mechanism by which DIRB respiration rates regulate Fh biotransformation remains elusive. Here, to minimize the complex effects of microbial cells, we conducted Fh transformation using 1 mM biogenic Fe(II) (BioFe(II)), added at different rates to mimic diverse respiration-driven supply rates of Fe(II) by DIRB. For comparison, transformation experiments with FeSO4 alone and FeSO4 plus citrate (CitFe(II)) added at the corresponding supply rates were performed to decouple the specific effects of Fe(II) addition rates and extracellular polymeric substances (EPS) associated with BioFe(II). Decreasing FeSO4 supply rates favored the transformation of Fh to lepidocrocite (Lp) over to Gt and the subsequent transformation of Lp to magnetite (Mt), altering the transformation pathway from Fh → Lp/Gt → Gt to Fh → Lp/Gt → Mt/Gt. These results underscore the significant effect of aqueous Fe(II) supply rates on the competition of olation and oxolation of labile Fe(III) intermediates into different secondary minerals. In the experiments with BioFe(II) and CitFe(II), although EPS or citrate slightly increased Fe(II) adsorption and Fe(III)labile generation, the increase in sorbed Fe(II) was minimal compared to the variations in aqueous Fe(II) concentrations caused by the different Fe(II) supply rates. At the same Fe(II) supply rates, EPS or citrate notably inhibited the transformation of Fh to Gt and the further conversion of Lp, altering the pathway from Fh → Mt/Gt/Lp to primarily Fh → Lp. These effects became more pronounced with the decrease of BioFe(II) and CitFe(II) supply rates. Our findings provide new insights into how DIRB respiration rates control kinetics, pathways, and mineral products of Fh transformation, which is crucial for elucidating the relevant biogeochemical cycling of nutrients and (im)mobilization of contaminants.
Jiao W, Wang K, Xu F, Wang C, Beuther H. Relative alignment between gas structures and magnetic field in Orion A at different scales using different molecular gas tracers. \aap. 2024;686:A202.
Zhou Y, Huang W, Zhu R, HUANG R, Tang K. A Reliable 2 bit MLC FeFET with High Uniformity and 109 Endurance by Gate Stack and Write Pulse Co-optimization, in 2024 IEEE European Solid-State Electronics Research Conference (ESSERC).; 2024:657-660.
Xu N, Hu M, Li X, Song K, Qiu Y, Sun HX, Wang Y, Zeng L, Li M, Wang H, et al. Resolving Ultraviolet-Visible Spectra for Complex Dissolved Mixtures of Multitudinous Organic Matters in Aerosols. Analytical Chemistry. 2024;96(5).
Qiu LD, Wei X, Zhou M, Zhou Y. Resource, Competition, and the Equilibrium Effects of Innovation Subsidies. Journal of Economic Behavior and Organization [Internet]. 2024;224:297-322. 访问链接Abstract
We study the equilibrium effects of innovation subsidies that reduce firms' innovation costs in a monopolistic competition model with firm heterogeneity in innovation capabilities and an industry-level resource constraint. Subsidies change product market competition and resource price, and further affect firms' innovation. We show a counterintuitive result: though subsidies lower innovation costs, high-capability firms may reduce their innovation. This finding implies that the demand curve for innovation investments of certain firms in equilibrium can be locally upward-sloping. We show that at the industry level, both average innovation input and output demonstrate inverted-U shaped responses to increasing subsidies but with differing turning points. Notably, an increase in average innovation input may be accompanied by a decrease in average innovation output. These findings cast doubts on the interpretation of existing empirical evidences on firm and industry responses to innovation subsidies, most of which assume away treatment effect heterogeneity and equilibrium feedbacks.
Wang X, Yan P, Liu C. Responsibility toward society: A review and prospect of Savolainen’severyday information practice. Data and Information Management [Internet]. 2024. 访问链接
Wu C-Y. Review: Barbara Zając, Between Roman culture and local tradition: Roman provincial coinage of Bithynia and Pontus during the reign of Trajan (98-117 AD). Archaeopress Roman archaeology, 100. Oxford: Archaeopress, 2023. Pp. 280. ISBN 9781803274652. BMCR 2. Bryn Mawr Classical Review [Internet]. 2024. 访问链接
Rigid covalent organic frameworks with thiazole linkage to boost oxygen activation for photocatalytic water purification
Hou Y, Zhou P, Liu F, Tong K, Lu Y, Li Z, Liang J, Tong M. Rigid covalent organic frameworks with thiazole linkage to boost oxygen activation for photocatalytic water purification. Nature Communications [Internet]. 2024;15:7350. 访问链接Abstract
Owing to their capability to produce reactive oxygen species (ROS) under solar irradiation, covalent organic frameworks (COFs) with pre-designable structure and unique architectures show great potentials for water purification. However, the sluggish charge separation, inefficient oxygen activation and poor structure stability in COFs restrict their practical applications to decontaminate water. Herein, via a facile one-pot synthetic strategy, we show the direct conversion of reversible imine linkage into rigid thiazole linkage can adjust the $π$-conjugation and local charge polarization of skeleton to boost the exciton dissociation on COFs. The rigid linkage can also improve the robustness of skeleton and the stability of COFs during the consecutive utilization process. More importantly, the thiazole linkage in COFs with optimal C 2p states (COF-S) effectively increases the activities of neighboring benzene unit to directly modulate the O2-adsorption energy barrier and improve the ROS production efficiency, resulting in the excellent photocatalytic degradation efficiency of seven toxic emerging contaminants (e.g. degrading \textasciitilde99% of 5þinspace}mgþinspace}L−1 paracetamol in only 7þinspace}min) and effective bacterial/algal inactivation performance. Besides, COF-S can be immobilized in continuous-flow reactor and in enlarged reactor to efficiently eliminate pollutants under natural sunlight irradiation, demonstrating the feasibility for practical application.
Ye F, Li J, Gao Y, Wang H, An J, Huang C, Guo S, Lu K, Gong K, Zhang H, et al. The role of naphthalene and its derivatives in the formation of secondary organic aerosol in the Yangtze River Delta region, China. Atmospheric Chemistry and Physics. 2024;24(12).
Zhu W, Yu K, Shi J, Chen J, Guo S, Lou S. The role of seasonal characteristics in addressing scattering species for improved visibility in Shanghai, China. Science of the Total Environment. 2024;952.
Wang C, Wang K, Xu F-W, Sanhueza P, Liu HB, Zhang Q, Lu X, Fontani F, Caselli P, Busquet G, et al. The role of turbulence in high-mass star formation: Subsonic and transonic turbulence are ubiquitously found at early stages. \aap. 2024;681:A51.
Li D*, Liu X-Y*, Pan Z-C, Wang A-Q, Zhang J, Yu P, Liao Z-M†. Room-temperature van der Waals magnetoresistive memories with data writing by orbital current in the Weyl semimetal TaIrT⁢e4. Phys. Rev. B [Internet]. 2024;110(035423). 访问链接
Wu M, Ren W, Chen P, Zhao W, Jing Y, Ru J, Wang Z, Ma Y, HUANG R, Jia T, et al. S2D-CIM: A 22nm 128Kb systolic digital compute-in-memory macro with domino data path for flexible vector operation and 2-D weight update in edge AI applications, in IEEE Custom Integrated Circuit Conference (CICC).; 2024.
Wu M, Ren W, Chen P, Zhao W, Jing Y, Ru J, Wang Z, Ma Y, HUANG R, Jia* T, et al. S2D-CIM: A 22nm 128Kb Systolic Digital Compute-in-Memory Macro with Domino Data Path for Flexible Vector Operation and 2-D Weight Update in Edge AI Applications. IEEE Custom Integrated Circuits Conference (CICC) [Internet]. 2024. Links
Shao J, You L, Kang Y, Zhang K. Salt Dissolution and Pore Structure Changes Induced by Fracturing Fluid in Shale Reservoirs. Energy & Fuels [Internet]. 2024. 访问链接

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