科研成果

2021
Wei R, Chen H, Guo Y, Han H, Zhang D, Zhu Y, He F*, Zhao D*. Thiophene-Fused Perylenediimide-Based Polymer Acceptors for High-Performance All-Polymer Solar Cells. Macromolecules [Internet]. 2021;54:1499-1506. [Read Online]Abstract
Over the past years, perylenediimide (PDI)-based polymers have emerged as one of the widely studied polymer acceptors applicable to all-polymer solar cells (PSCs) due to their outstanding photovoltaic properties. Covalently fused PDI units, such as naphthodiperylenetetraimide (NDP), are proven beneficial to increasing the regularity of polymer backbones and enhancing the molecular packing in blend films, thus optimizing the active-layer morphology and improving the device performance. However, most investigated PDI polymers commonly demonstrated low open-circuit voltage (V-oc) in solar cells due to their low-lying lowest unoccupied molecular orbital (LUMO), which greatly limited the power-conversion efficiencies (PCEs) of their devices. Herein, we design and synthesize two new polymer acceptors (PTP-TT and PTP-Th) using thiophene-fused dimeric PDI (i.e., PTP) as the key building block. Both polymers exhibit much elevated LUMO levels at ca. -3.8 eV and achieve higher V-oc in devices compared with NDP-derived polymers. In particular, PTP-TT exhibits stronger light-absorption ability than PTP-Th and a presumably more planar backbone conformation, which are favorable for molecular packing and charge carrier transport in the active layer. Using PTB7-Th as the donor, PTP-TT-based devices achieve the best PCE of 7.04%, with a V-oc of 0.86 V, a short-circuit current density of 14.96 mA/cm(2), and a fill factor of 54%. The current results demonstrate that fusing PDIs with a proper electron-rich moiety can synergistically elevate the LUMO level and optimize the backbone regularity of polymer acceptors to obtain desirable efficiencies of PSCs.
Cantat S, Déserti J, Xie J. Three chapters on Cremona groups. Indiana Univ. Math. J. [Internet]. 2021;70(5):2011-2064. pdf
Bu Y, Li M, Gu W, Huang W-bin. Topic diversity: A discipline scheme-free diversity measurement for journals. Journal of the Association for Information Science and Technology. 2021;72(5):523-539.
Fan J, Huang H. Topological states in quasicrystals. Frontiers of Physics [Internet]. 2021;17. 访问链接
Peng S, Liu Y, Lyu T, Zhang X, Li Y, Wang Z. Towards an understanding of the latitudinal patterns in thermal tolerance and vulnerability of woody plants under climate warming. EcographyEcography. 2021:DOI: 10.1111/ecog.05582.Abstract
Predicting spatial patterns in thermal tolerance and vulnerability of species under climate warming remains a challenge. Current knowledge is mainly from experiment-based thermal physiology of limited numbers of ectotherms, yet large-scale evaluations on plants remain elusive. Here, using distribution maps with spatial resolutions of 20 × 20 km for 5628 woody species in China, we propose a novel approach, i.e. thermal distribution curves, to describe species' realized thermal niches and then estimate their thermal tolerance and warming risks under projected climate warming in 2050s and 2070s. We find that species' vulnerability and potential local extinction risks within grid cells decrease with latitude and increase with aridity due to narrow thermal tolerance of species located at low latitudes and arid regions. Over 90% of species could still tolerate future warming in most areas, indicating relatively optimistic expectation of potential local extinctions. Our study presents a new framework to quantify climate warming impacts on a large number of species without sufficient physiological information and provides fundamental references for conservation planning under climate change.
Dong T, Qiu H, Lu J, Qiu M, Fan C. Towards Fast Network Intrusion Detection based on Efficiency-preserving Federated Learning, in 2021 IEEE Intl Conf on Parallel & Distributed Processing with Applications, Big Data & Cloud Computing, Sustainable Computing & Communications, Social Computing & Networking (ISPA/BDCloud/SocialCom/SustainCom). IEEE; 2021:468–475.
Gao R, Zhang M, Zhang J, Li Y, Wu D, Wang L, Zhang D. Towards Position-Independent Sensing for Gesture Recognition with Wi-Fi. Proceedings of the ACM on Interactive, Mobile, Wearable and Ubiquitous Technologies [Internet]. 2021;5(2). 访问链接Abstract
Past decades have witnessed the extension of the Wi-Fi signals as a useful tool sensing human activities. One common assumption behind it is that there is a one-to-one mapping between human activities and Wi-Fi received signal patterns. However, this assumption does not hold when the user conducts activities in different locations and orientations. Actually, the received signal patterns of the same activity would become inconsistent when the relative location and orientation of the user with respect to transceivers change, leading to unstable sensing performance. This problem is known as the position-dependent problem, hindering the actual deployment of Wi-Fi-based sensing applications. In this paper, to tackle this fundamental problem, we develop a new position-independent sensing strategy and use gesture recognition as an application example to demonstrate its effectiveness. The key idea is to shift our observation from the traditional transceiver view to the hand-oriented view, and extract features that are irrespective of position-specific factors. Following the strategy, we design a position-independent feature, denoted as Motion Navigation Primitive(MNP). MNP captures the pattern of moving direction changes of the hand, which shares consistent patterns when the user performs the same gesture with different position-specific factors. By analyzing the pattern of MNP, we convert gestures into sequences of strokes (e.g, line, arc and corner) which makes them easy to be recognized. We build a prototype WiFi gesture recognition system, i.e., WiGesture to validate the effectiveness of the proposed strategy. Experiments show that our system can outperform the start-of-arts significantly in different settings. Given its novelty and superiority, we believe the proposed method symbolizes a major step towards gesture recognition and would inspire other solutions to position-independent activity recognition in the future.
Mou N, Ren H, Zheng Y, Chen J, Niu J, Yang T, Zhang L, Liu F. Traffic Inequality and Relations in Maritime Silk Road: A Network Flow Analysis. ISPRS International Journal of Geo-Information. 2021;10:40.
Li S-Q, Du* C-H, Han F-Y, Wang Y-D, Gao Z-C, Tan Y-H, Liu P-K. Transverse magnetic modes of localized spoof surface plasmons. Journal of Applied Physics. 2021;130(20):203104.
吴靖远. Travelling to the Koinon Assembly – Provincial Level Elite Mobilization during the Principate., in 15th TACMRS International Conference. National Taiwan Normal University, Taipei, China; 2021.Abstract
Koinon assemblies during the Principate were occasions when member communities dispatch delegations to gather at specifically designated cities, where they elect koinon officers and deliberate a range of affairs –– chiefly among which were festivities and sacrifices that honored the Roman emperors and the local cultic and civic traditions, but also revenues and expenditures, administrative tasks delegated by the imperial government, among others (Deininger 1965: 137-147; Edelmann-Singer 2015: 193-248, 309-310). Much has been discussed regarding the institutional aspects of the koinon assemblies; what could benefit from more discussion is the act of traveling to koinon assemblies. This paper assembles a small number of literary and epigraphic references that provide circumstantial references to koinon assembly-related travel anecdotes. Of particular importance among these are Strabo's description of the gathering of delegates from Lycian cities to the koinon meeting each year (Strab. 13.3.3), Aelius Aristides' account of the city of Smyrna's manipulative nomination of him as a candidate for the high priest of Asia (Ael. Arist. Hieroi Logoi 4.99-104), and the inscription honoring Quintus Popilius Python's gift to attendees of the koinon assembly while serving as the high priest of the Macedonian koinon (EKM 117). By assembling these and other evidence, this paper wishes to suggest that koinon assemblies were compulsory events that each member community would have to participate in, often at their own expense. Wealthy koinon-officeholders may opt to offset the burdens that communities (or their designated representatives) would have to shoulder in dispatching delegation, and such benefaction may be viewed from the perspective of a soft mobilization of the provincial elites in order to facilitate the orderly execution of business in the interest of the public weal.
Gan L, Li J, Zhang T, Li X, Meng Y, Wu F, Guo S, Fan C. Triggerless Backdoor Attack for NLP Tasks with Clean Labels. NAACL 2022. 2021.
Lin Y, Lin H, Xiao L, Chen Y, Meng X, Zeng X, Chang C, Brigden G. Tuberculosis recurrence over a 7-year follow-up period in successfully treated patients in a routine program setting in China: a prospective longitudinal study. INTERNATIONAL JOURNAL OF INFECTIOUS DISEASES. 2021;110:403-409.
Wang JW, Zhao ZZ, Zeng XW, Liu XY, Hu* YF. A Tubular Flexible Triboelectric Nanogenerator with a Superhydrophobic Surface for Human Motion Detecting. Sensors. 2021;21:3634.
Wang JW, Zhao ZZ, Zeng XW, Liu XY, Hu* YF. A Tubular Flexible Triboelectric Nanogenerator with a Superhydrophobic Surface for Human Motion Detecting. Sensors. 2021;21:3634.
Liu F, Ma Z, Deng Y, Wang M, Zhou P, Liu W, Guo S, Tong M, Ma D. Tunable Covalent Organic Frameworks with Different Heterocyclic Nitrogen Locations for Efficient Cr(VI) Reduction, Escherichia coli Disinfection, and Paracetamol Degradation under Visible-Light Irradiation. Environmental Science & Technology [Internet]. 2021;55:5371-5381. 访问链接Abstract
Covalent organic frameworks (COFs) have great application potentials in photocatalytic water treatment. By using p-phenylenediamine with different numbers and locations of heterocyclic nitrogen atoms as a precursor, five types of COFs with different nitrogen positions were synthesized. We found that Cr(VI) photoreduction,Escherichia coli inactivation, and paracetamol degradation by COFs were heterocyclic nitrogen location-dependent. Particularly, the photocatalytic performance for all three tested pollutants by five types of COFs followed the order of the best performance for COF-PDZ with two ortho position heterocyclic N atoms, medium for COF-PMD with two meta position heterocyclic N atoms, and COF-PZ with two para position heterocyclic N atoms, and COF-PD with a single heterocyclic N atom, the worst performance for COF-1 without a heterocyclic N atom. Compared to the other COFs, COF-PDZ contained improved quantum efficiency and thus enhanced generation of electrons. The lower energy barriers and larger energy gaps of COF-PDZ contributed to its improved quantum efficiencies. The stronger affinity to Cr(VI) with lower adsorption energy of COF-PDZ also contributed to its excellent Cr(VI) reduction performance. By transferring into a more stable keto form, COF-PDZ showed great stability through five regeneration and reuse cycles. Overall, this study provided an insight into the synthesis of high-performance structure-dependent COF-based photocatalysts.
Liu F, Ma Z, Deng Y, Wang M, Zhou P, Liu W, Guo S, Tong M, Ma D. Tunable Covalent Organic Frameworks with Different Heterocyclic Nitrogen Locations for Efficient Cr(VI) Reduction, Escherichia coli Disinfection, and Paracetamol Degradation under Visible-Light Irradiation. Environmental Science and Technology [Internet]. 2021;55(8):5371-5381. 访问链接Abstract
Covalent organic frameworks (COFs) have great application potentials in photocatalytic water treatment. By using p-phenylenediamine with different numbers and locations of heterocyclic nitrogen atoms as a precursor, five types of COFs with different nitrogen positions were synthesized. We found that Cr(VI) photoreduction,Escherichia coli inactivation, and paracetamol degradation by COFs were heterocyclic nitrogen location-dependent. Particularly, the photocatalytic performance for all three tested pollutants by five types of COFs followed the order of the best performance for COF-PDZ with two ortho position heterocyclic N atoms, medium for COF-PMD with two meta position heterocyclic N atoms, and COF-PZ with two para position heterocyclic N atoms, and COF-PD with a single heterocyclic N atom, the worst performance for COF-1 without a heterocyclic N atom. Compared to the other COFs, COF-PDZ contained improved quantum efficiency and thus enhanced generation of electrons. The lower energy barriers and larger energy gaps of COF-PDZ contributed to its improved quantum efficiencies. The stronger affinity to Cr(VI) with lower adsorption energy of COF-PDZ also contributed to its excellent Cr(VI) reduction performance. By transferring into a more stable keto form, COF-PDZ showed great stability through five regeneration and reuse cycles. Overall, this study provided an insight into the synthesis of high-performance structure-dependent COF-based photocatalysts. © 2021 American Chemical Society.
Tunable covalent organic frameworks with different heterocyclic nitrogen locations for efficient Cr (VI) reduction, Escherichia coli disinfection, and paracetamol degradation under visible-light irradiation. Environmental Science & Technology [Internet]. 2021. 访问链接
Gao T, Li X, Han L, Wu Y. Tunable synaptic devices based on ambipolar MoTe2 transistor, in 2021 5th IEEE Electron Devices Technology & Manufacturing Conference (EDTM). IEEE; 2021:1–3.
Zou Y, Yu W, Zhang L, Wu C, Xiao L, Ding L. Tuning the bandgap of double perovskites. JOURNAL OF SEMICONDUCTORS. 2021;42.
Wu J, Ma J, Wang Y, Wang J. Understanding and predicting the burst of burnout via social media. Proceedings of the ACM on Human-Computer Interaction. 2021;4:1–27.

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