Chia-Ying Chen scite author profile

Chia-Ying Chen

2Publications

26Citation Statements Received

78Citation Statements Given

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National Tsing Hua University

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Intrinsic Metastability of the α′ Phase and Its Partial Transformation into α Crystals during Isothermal Cold-Crystallization of Poly(l-lactide)

et al. 2014

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Structural evolution of poly(L-lactide) during cold-crystallization at 80°C was examined via simultaneous small/wide-angle X-ray scattering (SAXS/WAXS), Fourier-transform infrared spectroscopy (FTIR), and differential scanning calorimetry (DSC). The incipient α′ crystals of loosely packed 10 7 helices, formed at t c = 200 s as detected via both WAXS and FTIR, were hardly identifiable via SAXS or DSC due to its low values of density contrast or latent heat (initially ΔH α′ ≈ 12 J/g, gradually reaching 74 J/g near the end of crystallization, in contrast to ΔH α ≈ 140 J/g), was already large in lateral size (with coherence length Λ 200/110 ≈ 35 nm, increasing to 50 nm during t c = 200− 400 s and remained little changed afterward). Once formed, the α′ crystals underwent continuous and persistent perfection for decreasing lattice spacing and partially transformed to smaller α crystals (t c ≈ 800−1800 s, up to a saturated population ratio of 1:4 between α and α′ phases), followed by slower yet steady increases in SAXS invariant without significant changes in the α and α′ contents for t c > 1800 s. It is concluded that the α′ form is a transient structure of continuously increasing packing density and latent heat toward the α form, reminiscent of the mesomorphic phase as precursors to stable crystals in other polymers. Nevertheless, transformation to α crystals occurred when the lattice parameters of the α′ phase were closer but still finitely different from those of the α phase and that the conversion between the two phases was limited in this isothermal case. Both observations suggest that, in spite of the transient nature of the α′ phase, the final transformation step to the stable α form is still achieved via a first-order route. ■ INTRODUCTIONMelt-crystallization of poly(L-lactide) (PLLA) is generally known to give α crystals consisting of two left-handed 10 7 helices in an orthorhombic unit cell with lattice parameters a = 10.8 Å, b = 6.2 Å, and c = 28.8 Å (space group P2 1 2 1 2 1 ) as the thermodynamically favored form. 1 However, there emerges a kinetically competitive α′ form at crystallization temperatures (T c ) below 120°C. 2 The α′ form comprises the same 10 7 helices yet with delicate differences in lateral packing. Compared to the α form with intense (200) α /(110) α reflection at scattering vector q = 1.18 Å −1 (d 200/110 = 5.31 Å), and (203) reflection at q = 1.35 Å −1 (d 203 = 4.65 Å) in room-temperature wide-angle X-ray scattering (WAXS) profiles, the corresponding reflections of the α′ form are shifted to q = 1.16 Å −1 (d 200/110 = 5.41 Å) and 1.32 Å −1 (d 203 = 4.75 Å) while the weaker (210) and (103)/(004) reflections become extinct. 1,2These observations indicate expanded unit cell dimension (by ca. 2.4% in volume) and higher symmetry (i.e., presence of conformational disorder and interchain slippage) for the α′ phase. 1 It is then interesting to note the peculiar discontinuity of crystallization kinetics of PLLA around 110°C. 3−5 The maximum of spherulitic growth rate is located at ca. 130°C, bu...

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A Novel Emergency Vehicle Dispatching System

Chen

2013

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Abstract-When accidents or disasters happen, emergency response time is always crucial. Most procedures in the existing emergency vehicle dispatching systems rely heavily on manual assignments. In this paper, we propose a novel emergency vehicle dispatching system to reduce emergency response time, which includes automatic emergency resource assignment and driving path planning to reduce unnecessary time delay caused by human misjudgment or the delay caused by traffic jam. As the traffic condition varies from time to time, the traffic information employed in the proposed method needs to trace back to several weeks prior to the dispatching time. Furthermore, we also propose a lane reservation scheme for emergency vehicles to minimize the crash risks. Before an emergency vehicle arrives at each road segment, Road Side Units start to disseminate the warning message at suitable time, so that other drivers could have enough time to take proper actions such as speed acceleration or switching lanes. Simulation results show that the proposed approach can largely reduce the traveling time of emergency vehicles comparing to the shortest path approach with sirens and lights to alert other drivers. With the traveling time as well as emergency resource assignment time being reduced, the emergency rescue teams would gain edges in rescuing lives and property.

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Chia-Ying Chen

Intrinsic Metastability of the α′ Phase and Its Partial Transformation into α Crystals during Isothermal Cold-Crystallization of Poly(l-lactide)

A Novel Emergency Vehicle Dispatching System

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