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RISS 인기검색어
- 검색키워드
- 저자 : Yao Leng (검색결과 3 건)
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Effect of light quality on regeneration and naphthoquinones accumulation of Arnebia euchroma
Jia Hu,Yao Leng,Yuanyuan Jiang,Su Ni,Li Zhang 한국식물생명공학회 2019 Plant biotechnology reports Vol.13 No.4
The influence of light quality on the regeneration (i.e., formation, proliferation, growth, development, and rooting) and naphthoquinones’ accumulation of Arnebia euchroma was investigated in vitro. The cotyledons of sterile seedings were placed on modified LS medium supplemented with 0.8 mg/L thidiazuron to obtain callus, which was incubated on the corresponding medium at different culture stages under varying light conditions, including dark, fluorescent lamp (Fl), white light-emitting diodes (LEDs), blue LEDs, red LEDs, and a combination of 25% red, 25% blue, and 50% white LEDs [RBW (1:1:2)]. During the establishment of the A. euchroma regeneration system, we obtained the maximum fresh weight, dry weight, germination rate, shoot number, and proliferation rate under RBW (1:1:2) LEDs in the formation and multiplication phases; the growth index, shoot height, leaf number, and photosynthetic pigment concentration were promoted under red LEDs in the growth and development phase; and the maximum rooting rate (89.29% ± 2.06%) was observed under red LEDs in the rooting phase. To study the effect of light quality on naphthoquinones’ accumulation of A. euchroma, we used the euphylla to achieve adventitious roots, and the highest shikonin (121.77 ± 6.68 μg/g DW) and β′β-dimethylacrylalkannin (619.18 ± 15.71 μg/g DW) contents were detected in the dark culture. The lowest naphthoquinone contents were recorded under Fl in the adventitious roots. Overall, RBW (1:1:2) LEDs enhanced A. enchroma formation and proliferation, while red LEDs promoted the plant’s growth, development, and rooting. The dark condition was beneficial to naphthoquinones’ accumulation, whereas the light condition inhibited the naphthoquinones production of A. enchroma adventitious roots. Determining the suitable light quality for the regeneration and accumulation of naphthoquinones that is conducive to the protection and promotes resource utilization is essential.
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Amorphous Bimetallic Nanowires with High-Performance Microwave Absorption: A Case for FeCo Nanowires
Junyao Shen,Yongtao Yao,Yanju Liu,Jinsong Leng 성균관대학교(자연과학캠퍼스) 성균나노과학기술원 2019 NANO Vol.14 No.4
Amorphous FeCo nanowires (NWs) with the average diameter of 120 nm were successfully prepared with a magnetic-field-assisted (MFA) hydrothermal method. Rapid reaction time was adopted to obtain amorphous FeCo NWs, being checked by XRD and TEM. Tuning the stoichiometric ratio of Fe/Co content meets the optimal impedance matching under different absorption frequency, making both improved intensities and frequency ranges of microwave absorption. For example, under 3mm coating thickness, the reflection loss (RL) peaks of Fe3Co7, Fe5Co5 and Fe7Co3 NWs are -25.88 dB at 4 GHz, -19.06 dB at 4.24 GHz and -21.98 dB at 5.44 GHz. The related efficient absorption bandwidths (fE < -10 dB) of Fe3Co7 NWs, Fe5Co5 NWs and Fe7Co3 NWs are 5.40 GHz, 3.52 GHz and 4.91GHz, respectively. It is ascribed to integrating enhanced dielectric/conductive losses, negligible damages from eddy current effect and good impedance matching for high-performance FeCo NWs absorbers. This work paves a new path on synthesizing bimetallic wire-like nanostructures for microwave absorption demands.
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Liu, Chi-Jen,Wang, Chang-Hai,Chien, Chia-Chi,Yang, Tsung-Yeh,Chen, Shin-Tai,Leng, Wei-Hua,Lee, Cheng-Feng,Lee, Kuen-Ho,Hwu, Y,Lee, Yao-Chang,Cheng, Chia-Liang,Yang, Chung-Shi,Chen, Y J,Je, J H,Margari IOP Pub 2008 Nanotechnology Vol.19 No.29
<P>We explored a very interesting gold nanoparticle system—pegylated gold in colloidal solution—and analyzed its uptake by mice colorectal adenocarcinoma CT26 tumor cells and the impact on the cell’s response to x-ray irradiation. We found that exposure to polyethylene glycol (PEG) modified (‘pegylated’) 4.7 ± 2.6 nm gold nanoparticles synthesized by a novel synchrotron-based method enhances the response of CT26 cells to x-ray irradiation. Transmission electron microscopy (TEM) and confocal microscopy revealed that substantial amounts of such nanoparticles are taken up and absorbed by the cells and this conclusion is supported by quantitative induced coupled plasma (ICP) results. Standard tests indicated that the internalized particles are highly biocompatible but strongly enhance the cell damage induced by x-ray irradiation. Synchrotron radiation Fourier transform infrared (SR-FTIR) spectromicroscopy analyzed the chemical aspects of this phenomenon: the appearance of C = O stretching bond spectral features could be used as a marker for cell damage and confirmed the enhancement of the radiation-induced toxicity for cells.</P>
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