Yu Lin scite author profile

This study investigated the effects of students' prior science knowledge and online learning approaches (social and individual) on their learning with regard to three topics: science concepts, inquiry, and argumentation. Two science teachers and 118 students from 4 eighthgrade science classes were invited to participate in this research. Students in each class were divided into three groups according to their level of prior science knowledge; they then took either our social-or individual-based online science learning program. The results show that students in the social online argumentation group performed better in argumentation and online argumentation learning. Qualitative analysis indicated that the students' social interactions benefited the co-construction of sound arguments and the accurate understanding of science concepts. In constructing arguments, students in the individual online argumentation group were limited to knowledge recall and self-reflection. High priorknowledge students significantly outperformed low prior-knowledge students in all three aspects of science learning. However, the difference in inquiry and argumentation performance between low and high prior-knowledge students decreased with the progression of online learning topics.

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Salivary Electrochemical Cortisol Biosensor Based on Tin Disulfide Nanoflakes

Liu

Hsu

Liu

et al. 2019

Nanoscale Res Lett

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Cortisol, a steroid hormone, is secreted by the hypothalamic-pituitary-adrenal system. It is a well-known biomarker of psychological stress and is hence known as the “stress hormone.” If cortisol overexpression is prolonged and repeated, dysfunction in the regulation of cortisol eventually occurs. Therefore, a rapid point-of-care assay to detect cortisol is needed. Salivary cortisol electrochemical analysis is a non-invasive method that is potentially useful in enabling rapid measurement of cortisol levels. In this study, multilayer films containing two-dimensional tin disulfide nanoflakes, cortisol antibody (C-M ab ), and bovine serum albumin (BSA) were prepared on glassy carbon electrodes (GCE) as BSA/C-M ab /SnS 2 /GCE, and characterized using electrochemical impedance spectroscopy and cyclic voltammetry. Electrochemical responses of the biosensor as a function of cortisol concentrations were determined using cyclic voltammetry and differential pulse voltammetry. This cortisol biosensor exhibited a detection range from 100 pM to 100 μM, a detection limit of 100 pM, and a sensitivity of 0.0103 mA/Mcm 2 ( R 2 = 0.9979). Finally, cortisol concentrations in authentic saliva samples obtained using the developed electrochemical system correlated well with results obtained using enzyme-linked immunosorbent assays. This biosensor was successfully prepared and used for the electrochemical detection of salivary cortisol over physiological ranges, based on the specificity of antibody-antigen interactions.

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Optimal caching scheme in D2D networks with multiple robot helpers

Lin

Song

Feng

et al. 2022

Computer Communications

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Ecomorphology, differentiated habitat use, and nocturnal activities of Rhinolophus and Hipposideros species in East Asian tropical forests

Lee

Kuo

Chu

et al. 2012

Zoology

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Polyelectrolyte multilayer coatings for short/long-term release of antibacterial agents

Liu

et al. 2020

Surface and Coatings Technology

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Low-Complexity High-Resolution Parameter Estimation for Automotive MIMO Radars

et al. 2020

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In this paper, we propose a parameter estimation method for multiple-input-multipleoutput (MIMO) automotive radars that consists of two stages. The first stage is a low-complexity threedimensional (3D) constant false alarm rate (CFAR) detection technique that exploits spatial filtering to extend radar coverage, and it performs low-complexity peak detection. The second stage is an ESPRIT-based direction-of-arrival (DOA) estimation technique that adopts time-frequency resource division to generate high-quality snapshots and it performs DOA estimation of targets without the knowledge of the target number. Computer simulations reveal that the proposed method achieves the performance of the two-dimensional ordered statistic CFAR (2D OS-CFAR) while having much lower computational complexity, and it offers the higher resolution DOA estimation compared to the conventional MIMO radars.

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Perch use by flycatching Rhinolophus formosae in relation to vegetation structure

Lee

Kuo

Chu

et al. 2020

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Flycatching is relatively uncommon in insectivorous bats, yet members of the family Rhinolophidae constitute over one-half of the documented flycatching species. The Formosan woolly horseshoe bat, Rhinolophus formosae, is among the largest in size and relies primarily on flycatching for foraging. We assessed perch use of flycatching R. formosae in relation to vegetation structure in tropical monsoon forests in southern Taiwan. We located bats using acoustic detectors in forest interior and edge-open forest sites, and measured perch features, dispersion of the nearest trees, and vegetation structure within a 5-m radius of each perch. The same measurements were applied to randomly selected perches in both habitats where bats were not detected. We found no seasonal effects or differences between used and random perches in perch features, dispersion of neighboring trees, or vegetation structure surrounding the perches. Perches used at edge-open forest sites were farther from the perch tree trunk and neighboring trees, and surrounded by larger trees than in forest interiors. In contrast, perches in forest interiors were surrounded by higher shrub and reef layers and greater canopy, shrub, and reef layer cover, than those at edge-open forests. Overall, perches in forest interiors were in more cluttered settings, containing higher vegetation obstacles than edge-open habitats. In both habitats, vegetation obstacles generally increased in a curvilinear manner when moving horizontally and downward from the perch. However, in forest interiors perches used by bats had significantly lower vegetation obstacles horizontally and downwardly and were less cluttered than randomly selected perches. Overall, our results indicate that R. formosae in forest interiors selectively used perches associated with more open space that allows for more maneuverable sally flights and a longer detection range suitable for its exceptionally low constant frequency calls to explore less cluttered environments.

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Chiropteran Diversity in Different Settings of the Uplifted Coral Reef Tropical Forest of Taiwan

Lee

Kuo

Chu

et al. 2007

Journal of Mammalogy

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Yu Lin

The Effects of Prior-knowledge and Online Learning Approaches on Students’ Inquiry and Argumentation Abilities

Salivary Electrochemical Cortisol Biosensor Based on Tin Disulfide Nanoflakes

Optimal caching scheme in D2D networks with multiple robot helpers

Ecomorphology, differentiated habitat use, and nocturnal activities of Rhinolophus and Hipposideros species in East Asian tropical forests

Polyelectrolyte multilayer coatings for short/long-term release of antibacterial agents

Low-Complexity High-Resolution Parameter Estimation for Automotive MIMO Radars

Perch use by flycatching Rhinolophus formosae in relation to vegetation structure

Chiropteran Diversity in Different Settings of the Uplifted Coral Reef Tropical Forest of Taiwan

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