| 1. |
- Deng, Bin, et al.
(författare)
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Modelling asymmetric deformation along a curved strike-slip basement-fault system
- 2021
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Ingår i: International journal of earth sciences. - : Springer. - 1437-3254 .- 1437-3262. ; 110, s. 165-182
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Tidskriftsartikel (refereegranskat)abstract
- Large-scale curved strike-slip fault systems along which significant amounts of displacement have taken place are common in nature. Scaled analogue experiments were used in this study to investigate strike-slip deformation in cover units above a curved basement-fault system simulated by a rigid plate with an in-built curvature depicting a half-circular fault. The model results show that en-echelon, right-stepping Riedel shears and low-angle synthetic shears (Y-shears) always form at the beginning of deformation, and grow outwards with splay faults, most of which evolve into thrusts at later stages of deformation. Digital image correlation (DIC) analyses of the surface displacement vectors show that a diffuse zone of deformation progressively changes into en-echelon shears, which gradually develop into throughgoing shear zones with further deformation. The geometries of Riedel shears along two sides of the basement fault (i.e. concave and convex sides) show significant differences in fault shape and intersection angles between the faults and the curved basement fault, indicating an asymmetry in deformation with a much wider deformation zone occurring on the concave side. As a result, en-echelon and/or overlapping flower structures develop along the curved basement strike-slip fault system. In particular, Riedel shears with a upward-convex geometry are localised in both sides of the curved basement fault and a continuous reverse oblique-slip fault forms at the concave side. When compared with the geometry of curved strike-slip faults in nature (e.g. the Daliangshan shear zone in Xichang basin and the Red River shear zone in the Yinggehai basin, China) the model results depict the asymmetric evolution pattern of the faults on either side of curved basement faults.
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| 2. |
- Fan, Qunping, 1989, et al.
(författare)
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Weak Makes It Powerful: The Role of Cognate Small Molecules as an Alloy Donor in 2D/1A Ternary Fullerene Solar Cells for Finely Tuned Hierarchical Morphology in Thick Active Layers
- 2020
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Ingår i: Small Methods. - : Wiley. - 2366-9608. ; 4:3
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Tidskriftsartikel (refereegranskat)abstract
- Herein, a novel small molecule donor is first developed, FSM6, which is a cognate molecule to BTR possessing similar molecular structure with comparable optical absorption but different crystallinity. The efficient fullerene-type ternary small molecular solar cells (SMSCs) based on an alloy donor of BTR and FSM6 in a thick film of 250 nm reveal the improved hierarchical phase separation morphology and molecular structural order of ternary active layers with improved crystallinity of the key donor component BTR. Furthermore, FSM6 as the key third component also plays a role of charge transfer accelerator in ternary SMSCs. As a result, the optimal ternary SMSCs based on BTR:FSM6:PC71BM achieve a high power conversion efficiency (PCE) up to 10.21% with the synergistically improved open-circuit voltage of 0.950 V, short-circuit current density of 13.85 mA cm(-2), and fill factor of 77.6%, in comparison with either the binary SMSCs of BTR:PC71BM (PCE = 9.37%) or FSM6:PC71BM (PCE = 8.00%). This work provides a promising methodology to optimize device morphology for high-performance ternary SMSCs by combining two cognate small molecules with similar absorption spectra but different crystallinity as an alloy donor.
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| 3. |
- Li, Xinyu, et al.
(författare)
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Biodegradable MOFilters for Effective Air Filtration and Sterilization by Coupling MOF Functionalization and Mechanical Polarization of Fibrous Poly(lactic acid)
- 2023
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Ingår i: ACS Applied Materials and Interfaces. - : American Chemical Society (ACS). - 1944-8244 .- 1944-8252. ; 15:22, s. 26812-26823
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Tidskriftsartikel (refereegranskat)abstract
- High-performance air filtration materials are importantfor addressingthe airborne pollutants. Herein, we propose an unprecedented accessto biodegradable poly-(lactic acid) (PLA)-based MOFilters with excellentfiltering performance and antibacterial activity. The fabricationinvolved a stepwise in situ growth of zeolitic imidazolate framework-8(ZIF-8) crystals at the surface of microfibrous PLA membranes, followedby mechanical polarization under high pressure and low temperature(5 MPa, 40 degrees C) to trigger the ordered alignment of dipoles inPLA chains and ZIF-8. The unique structural features allowed thesePLA-based MOFilters to achieve an exceptional combination of excellenttensile properties, high dielectric constant (up to 2.4 F/m), andenhanced surface potential as high as 4 kV. Arising from the remarkablesurface activity and electrostatic adsorption effect, a significantincrease (from over 12% to nearly 20%) in PM0.3 filtrationefficiency was observed for the PLA-based MOFilters compared to thatof pure PLA counterparts, with weak relation to the airflow velocities(10-85 L/min). Moreover, the air resistance was controlledat a considerably low level for all the MOFilters, that is, below183 Pa even at 85 L/min. It is worth noting that distinct antibacterialproperties were achieved for the MOFilters, as illustrated by theinhibitive rates of 87 and 100% against Escherichiacoli and Staphylococcus aureus, respectively. The proposed concept of PLA-based MOFilters offersunprecedented multifunction integration, which may fuel the developmentof biodegradable versatile filters with high capturing and antibacterialperformances yet desirable manufacturing feasibility.
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