본 연구의 목적은 컨테이너 육묘 시스템을 활용한 참외 접목 묘의 안정적인 생산 가능성을 평가하는 것이었다. 이를 위해, 컨테이너 육묘 시스템과 고온 조건의 플라스틱 온실에서 육묘 한 접수와 대목, 접목묘의 생육을 비교 분석하였다. 접목활착 후 육묘 환경에 따른 참외 접목묘의 생육과 묘소질을 0일, 4일, 7일, 11일, 14일째에 비교하였다. 컨테이너 육묘 시스템에서 는 주야간 온도를 25/20°C, 상대습도를 70%로 설정하여 재 배기간 동안 안정적으로 유지하였으며, 플라스틱 온실 내의 주야간 평균온도는 28.1/15.4°C로 주야간 온도차(DIF)가 더 크게 나타났다. 조사기간 동안 참외 접목묘의 초장은 플라스 틱 온실 육묘 처리구에서 컨테이너 육묘 시스템 처리구보다 더 길게 나타났다. 참외 접목묘 조직의 충실도는 지상부 건물 중을 초장으로 나누어 계산하였다. 육묘장에서 접목한 묘는 접목 후 7-10일 경과하여 활착이 완료되고 초장이 10cm 내 외일 때 출하하여 정식에 이용되게 된다. 본 연구에서 접목활 착 후 7일째에 컨테이너 육묘 시스템에서 재배된 묘의 충실도 는 44.9±2.64mg/cm으로 나타났으며, 플라스틱 온실 육묘 처 리구에서는 24.4±1.56mg/cm로 나타났다. SPAD 평균은 플 라스틱 온실 육묘에서 30.5, 컨테이너 육묘 시스템에서 41.1 로 측정되었다. 이러한 결과는 컨테이너 육묘 시스템의 활용 이 고온기 또는 저일조 시기와 같은 육묘 환경에서도 고품질 모종을 안정적으로 생산할 수 있는 것을 확인하였고, 인공광 을 이용한 육묘 시스템의 활용 범위가 앞으로 더 확대될 것으 로 기대된다.
Amorphous In-Ga-Zn-O (a-IGZO) thin film transistors (TFTs) with a coplanar structure were fabricated to investigate the feasibility of their potential application in large size organic light emitting diodes (OLEDs). Drain currents, used as functions of the gate voltages for the TFTs, showed the output currents had slight differences in the saturation region, just as the output currents of the etch stopper TFTs did. The maximum difference in the threshold voltages of the In-Ga-Zn-O (a-IGZO) TFTs was as small as approximately 0.57 V. After the application of a positive bias voltage stress for 50,000 s, the values of the threshold voltage of the coplanar structure TFTs were only slightly shifted, by 0.18 V, indicative of their stability. The coplanar structure TFTs were embedded in OLEDs and exhibited a maximum luminance as large as 500 nits, and their color gamut satisfied 99 % of the digital cinema initiatives, confirming their suitability for large size and high resolution OLEDs. Further, the image density of large-size OLEDs embedded with the coplanar structure TFTs was significantly enhanced compared with OLEDs embedded with conventional TFTs.
Currently, yellow phosphor of Y3Al5O12:Ce3+ (YAG:Ce) fluorescent material is applied to a 450~480nm blue LED light source to implement a white LED device and it has a simple structure, can obtain sufficient luminance, and is economical. However, in this method, in terms of spectrum analysis, it is difficult to mass-produce white LEDs having the same color coordinates due to color separation cause by the wide wavelength gap between blue and yellow band. There is a disadvantage that it is difficult to control optical properties such as color stability and color rendering. In addition, this method does not emit purple light in the range of 380 to 420nm, so it is white without purple color that can not implement the spectrum of the entire visible light spectrum as like sunlight. Because of this, it is difficult to implement a color rendering index(CRI) of 90 or higher, and natural light characteristics such as sunlight can not be expected. For this, need for a method of implementing sunlight with one LED by using a method of combining phosphors with one light source, rather than a method of combining red, blue, and yellow LEDs. Using this method, the characteristics of an artificial sunlight LED device with a spectrum similar to that of sunlight were demonstrated by implementing LED devices of various color temperatures with high color rendering by injecting phosphors into a 405nm deep blue LED light source. In order to find the spectrum closest to sunlight, different combinations of phosphors were repeatedly fabricated and tested. In addition, reliability and mass productivity were verified through temperature and humidity tests and ink penetration tests.
This study was performed to evaluate the separation of Sr, Cs, Ba, La, Ce, and Nd using gas pressurized extraction chromatography (GPEC) with anion exchange resin for the quantitation of Neodymium. GPEC is a micro-scaled column chromatography system that provides a constant flow rate by utilizing nitrogen gas. It is overcome the disadvantages of conventional column chromatography by reducing the volume of elution solvent and shortening the analysis time. Here, we compared the conventional column chromatography and the GPEC method. The whole analysis time was decreased by nine times and radioactive wastes were reduced by five times using the GPEC system. Anion exchange resin 1-X4 (200~400 mesh size) was used. The sample was prepared at a 0.8 M nitric acid in methanol solution. The elution solvent was used at a 0.01 M nitric acid in methanol solution. Finally the eluate was analyzed by ICP-MS to determine the identification and recovery. In this case, we applied the natural isotopes of LREEs (139La, 140Ce, and 144Nd) and high activity nuclides (88Sr, 133Cs, and 138Ba) instead of radioactive isotopes for the preliminary test; as a result, unnecessary radioactive waste was not produced. The recoveries were 93.9%, 105.9%, 91.9%, 47.6%, 35.9%, and 79.9% of Sr, Cs, Ba, La, Ce, and Nd, respectively. The reproducibility of recoveries by GPEC were in the range 2.8%–10.9%.
‘Tracers’ are bullets that emit light at the backside so that the shooter can see the trajectory of their flight. These light-emitting bullets allow snipers to hit targets faster and more accurately. Conventional tracers are all combustion type which use the heat generated upon ignition. However, the conventional tracer has a fire risk at the impact site due to the residual flame and has a by-product that can contaminate the inside of the gun and lead to firearm failure. To resolve these problems, it is necessary to develop non-combustion-type tracers that can convert heat to luminance, so-called ‘thermoluminescence (TL)’. Here, we highly improve the thermoluminescence properties of MgB4O7 through co-doping of Dy3++Ce3+ and Dy3++Na+. The presence of doping materials (Dy3+, Ce3+, Na+) was confirmed by XPS (X-ray photoelectron spectroscopy). The as-synthesized co-doped MgB4O7 was irradiated with a specific radiation dose and heated to 500 °C under dark conditions. Different thermoluminescence characteristics were exhibited depending on the type or amounts of doping elements, and the highest luminance of 370 cd/m2 was obtained when Dy 10 % and Na 5 % were co-doped.
국립원예특작과학원에서 2016년 거베라 신품종 ‘샤이핑크 (Shy Pink)’를 육성하였다. ‘Shy Pink’는 2008년 10월부터 2008년 11월까지 녹색 화심의 분홍색 반겹꽃 ‘프리존’과 갈 색 화심의 살구색 반겹꽃 ‘아틸리아’를 교배하여 획득한 실생 72개체 중에서 2009년부터 2016년까지 생육 및 개화특성검 정을 거쳐 선발한 절화용 대륜 거베라 품종이다. ‘샤이핑크 (Shy Pink)’는 화형이 안정적인 갈색 화심의 연분홍색(RHS R49A) 반겹꽃 대륜계 품종이다. 꽃은 평균 직경이 12.4cm이 고, 내부설상화와 화반의 직경은 각각 7.2cm와 2.3cm이다. 외부설상화의 길이와 폭은 각각 6.0cm와 1.2cm로 꽃잎이 좁은 도란형이다. 꽃대 직경은 상부 6.1mm, 중부 7.0mm 정 도로 강건하며, 꽃대의 길이는 48.9cm이다. 절화수명은 12.1 일로 대조구인 ‘하모니(Harmony)’ 12.0일로 유사하였지만 절 화수명이 길며, 연간 채화량은 52.8본/주로 다수성 품종이다.
본 연구는 고온과 연속광 조건 하의 복합 스트레스 환경에서 실내 관엽식물이 어떤 엽록소 형광 반응을 나타내는지에 대해 조사 및 분석했다. 대부분의 실내 관엽식물은 이와 같은 스트레스 조건에서 광도가 높아질수록 Fo, Fj 단계에서 형광 밀도가 증가하고 Fi, Fm 단계에서 형광 밀도가 감소한 것으로 나타나 광계II의 반응중심에 있는 전자수용체 퀴논의 상당량이 환원상태에 놓여있음을 암시했다. 뿐만 아니라 최대 양자효율과 최대 양자수율을 나타내는 Fv/Fm와 ΦPo는 광도가 높아질수록 낮게 나타났고 반대로 에너지 소산을 나타내는 DIo/RC 값은 광도가 높아지는 것에 비례하여 높게 나타났다. 이를 미루어보아 고광도 수준에서는 대부분의 광자가 제대로 활용되지 못했음을 알 수 있었다. 특히나 아이비와 테이블야자 는 고온 및 연속광 조건에서 현저한 스트레스를 받는 것으로 분석되었는데 이와 같은 스트레스 조건의 실내에서 재배할 경우 60 μmol m-2 s-1의 저광도 수준에서 재배하는 것이 바람직한 것으로 보인다. 반대로 무늬스킨답서스와 관음죽은 스트레스를 비교적 적게 받는 것으로 나타나 고온과 연속광 조건하에서도 광도의 세기와는 무관하게 양호한 생육이 가능할 것으로 판단된다.
Plant growth and morphology are affected by light environments. The morphogenesis and growth of the plants growing in plant factories are different from those grown under sunlight due to the effect of far-red light included in sunlight. The objective of this study was to compare the morphogenesis and growth of cucumber plants grown under artificial sunlight, high pressure sodium lamp (HPS), and HPS with additional far-red light (HPS+FR). The artificial solar (AS) with a spectrum similar to sunlight was manufactured using sulfur plasma lamp, incandescent lamp, and green-reducing optical film. HPS was used as a conventional electrical light source and far-red LEDs were added for HPS+FR. The optical properties of each light source was analyzed. The morphogenesis, growth, and photosynthetic rate were compared in each light source. The ratio of red to far-red lights and phytochrome photostationary state were similar in AS and HPS+FR. There were significant differences in morphology and growth between HPS and HPS+FR, but there were no significant differences between AS and HPS+FR. SPAD was highest in HPS, while photosynthetic rate was higher at AS and HPS. Although the photosynthetic rate in HPS+FR was lower than HPS, the growth was similar in AS. It was because canopy light interception was increased by longer petioles and larger leaf areas induced by FR. It is confirmed that the electrical light with additional far-red light induces similar photomorphogenesis and growth in sunlight spectrum. From the results, we expect that similar results will be obtained by adding far-red light to electrical light sources in plant factories.
팽이버섯 신품종‘여름향1호’는 ‘갈뫼’와 ‘건국1호’로부터 분리한 단포자를 교배함으로써 육성된 품종으로, 갓색이 연한 갈색을 나타내며, 고온성이면서 재배기간이 짧은 장점이 있다. 16℃ 고온에서 병재배 시 배양 기간은 22일, 초발이 소요일수는 6일, 생육일수는 10일로 총재배 기간이 38일이 소요되어 대조품종 '금향'에 비해 3일, ‘갈뫼’에 비해 7일이 단축되었다. 특히 버섯 발생이 빠르면서도 균일성이 우수하였으며, 갓 색은 진한 미색인 ‘금향’과 중간 갈색인 ‘갈뫼’의 중간 수준인 연한 갈색을 띠었다. 수량은 850 ml(Φ59) 병 당 138 g으로 '금향' 대비 10% 증수되었다.
In this study, the extrusion process of 6xxx series aluminum cast alloy for high speed train interior or exterior parts are developed. For casting, selection of optimum alloying elements, dissolution technology, de-gassing process, production of molds conforming to the conditions of use, development of casting process control technology for various shapes and materials are performed for the development of high-quality, high strength aluminum alloys. The development of more high farmable extruded aluminum casting alloys for interior or exterior materials has been the scope of this study. The extruded die design was performed for the 6063, 6061 and 6N01 alloy profiles and extrusion test was executed. From these results, the extrusion conditions such as extrusion pressure following as billet temperature and materials were carefully examined.
In this study, the whole process of 6xxx series aluminum cast alloy for high speed train interior or exterior parts are characterized. For casting, selection of optimum alloying elements, dissolution technology, de-gassing process, production of molds conforming to the conditions of use, development of casting process control technology for various shapes and materials are performed for the development of high-quality, high strength aluminum alloys. The development of more reliable lightweight aluminum and aluminum alloy for interior or exterior materials has been the scope of this study. The mechanical properties, and chemical composition of the case materials were evaluated for the 6063, 6061 and 6N01 alloy profiles and compared to the commercial materials and the evaluation results satisfied the standard.
나노실리카가 코팅된 유리 표면은 나노실리카 표면에 존재하는 친수성 수산기로 인해 방담성 이 매우 증가하나, 실외에 설치된 유리에 코팅된 경우는 비에 의해 씻겨 나가 방담 특성의 내구성이 급 격히 감소한다. 또한 나노실리카가 코팅된 유리 표면의 토폴로지는 광투과율 또는 반사방지 특성을 좌우 하는 매우 중요한 인자이다. 이러한 나노실리카 코팅의 특성에 관한 내구성을 향상시키기 위하여 가교제 로 테트라에틸오르소실리케이트 (TEOS)를 사용하여 나노실리카 (Ludox) 현탁액으로 친수성 나노실리카 피막을 제조하였다. 산성 또는 염기성 수용액 중에서의 TEOS의 가수 분해 최적 조건도 물에 대한 접촉 각 측정을 통하여 조사하였다.산성 또는 염기성 수용액 중에서의 TEOS의 가수 분해 최적 조건도 물에 대한 접촉 각 측정을 통하여 조사하였다. pH=4의 산성 조건에서 1.5 wt% 나노실리카-TEOS 코팅액으로 얻은 최종 투명한 친수성 코팅층은 매우 향상된 친수성에 대한 내구성뿐만 아니라, 코팅하지 않은 유리에 비해 약 2 % 포인트 정도 높은 가시광투과율을 나타내었다.
농촌진흥청 국립원예특작과학원에서는 2013년 신나팔나리(Lilium×formolongi)와 아시아틱 나리 간의 교잡종(FA종간잡종 나리) ‘Lime Glow’를 개발하였다. 2002년 연한 노란색 FA종간잡종 나리 ‘FA97-1’과 노란색의 아시아틱 나리 ‘Carthago’를 각각 모본과 부본으로 화주 절단 수분법으로 20화를 인공교배하였고, 교배 후 미숙한2개의 꼬투리를 수확하여 배가 형성된 배주를 기내에서배양하여 잡종을 획득한 후 재배하였다. 육묘한 배양묘로부터 2006년 상향개화형이며 밝은 노란색의 FA종간잡종 나리 ‘FA06-200’ 계통을 개체 선발하였다. 2007년부터 2012년까지 선발된 계통은 자구와 인편번식, 조직배양을 이용하여 번식 및 양구한 후 1, 2차 생육특성검정을 실시하였다. 2013년 3차 생육특성검정 및 소비자 기호도 평가를 수행한 결과 화색 및 화형에 대한 기호도가높은 밝은 노란색(RHS, Y3C)의 절화용 FA종간잡종 나리‘Lime Glow’를 육성하였다. 3배체의 FA종간잡종 나리로초장은 113.6cm로 초장신장성이 우수하였다. ‘Lime Glow’의 화폭은 16.0cm이며 소화수는 본당 5.3개였다.‘LimeGlow’의 자연개화기는 6월 17일로 중생종이었으며 통계적 유의 차는 없었으나 대조품종 ‘Royal Fantasy’의 6월22일에 비교하여 빨랐다. ‘Lime Glow’의 경우 아구수가1개로 분구가 일어나지 않는 특성을 가졌으며 개화구의구근 둘레는 14.8cm로 일반적인 나리에 비하여 소구개화성의 특성을 가지며 대조품종 ‘Royal Fantasy’ 16.5cm에 비하여 작은 구근에서 개화한다. 인편번식 처리 후 인편 생성 능력을 살펴보면 ‘Lime Glow’의 경우 19.5개로대조품종 5.5개에 비하여 높았으며 생성된 자구의 총 무게도 역시 높았다.
This study suggested comprehensive structural characterization methods for the commercial blue light emitting diodes(LEDs). By using the Z-contrast intensity profile of Cs-corrected high-angle annular dark field scanning transmission electron microscope(HAADF-STEM) images from a commercial lateral GaN-based blue light emitting diode, we obtained important structural information on the epilayer structure of the LED, which would have beendifficult to obtain by conventional analysis. This method was simple but very powerful to obtain structural and chemical information on epi-structures in a nanometer-scale resolution. One of the examples was that we could determine whether the barrier in the multi-quantum well(MQW) was GaN or InGaN. Plan-view TEM observations were performed from the commercial blue LED to characterize the threading dislocations(TDs) and the related V-pit defects. Each TD observed in the region with the total LED epilayer structure including the MQW showed V-pit defects for almost of TDs independent of the TD types: edge-, screw-, mixed TDs. The total TD density from the region with the total LED epilayer structure including the MQW was about 3.6 × 108 cm−2 with a relative ratio of Edge- : Screw- :Mixed-TD portion as 80%: 7%: 13%. However, in the mesa etched region without the MQW total TD density was about 2.5 × 108 cm−2 with a relative ratio of Edge- : Screw- :Mixed TD portion of 86%: 5%: 9 %. The higher TD density in the total LED epilayer structure implied new generation of TDs mostly from the MQW region.
The air brake chamber is needed higher sealing performance and durability for the safety and confidential operation, especially, in brake systems of commercial vehicle. For higher sealing, we applied new clamping technique differentiated methods of other global manufacturers. And we developed the power spring and spring guide made from light engineering plastic with high durability in repeated condition. We also have achieved the basic performance test like sealing test in compressed air and various environment tests in dust and salty water for new manufactured air brake chambers. As a result, the air brake chamber applied light weight and high durable power spring is satisfied all demand specification conditions for commercial vehicle
대표적인 2종의 미생물(E. coli, B. subtilis)을 이용하여 초기 미생물 농도에 대한 광 펄스의 영향을 살펴본 결과, 미생물의 사멸율이 초기 농도에 영향을 받지 않았고 25 kV에서 1500 μs 처리 시 최소 5 log 이상의 미생물 감소를 보인다는 것을 확인할 수 있었다. 그리고 4종의 유해미생물(B. subtilis, E. coli, S. aureus, S. typhimurium)의 광 펄스 처리시간에 따른 미생물 사멸효과는 모든 미생물이 처리시간에 증가함에 따라 효과가 상승하였고 1500 μs 처리 시 모든 미생물이 6 log 이상의 감소를 보였다. 또한 광 펄스 처리시간에 따른 미생물 사멸속도는 1차 반응속도와 상응함을 알 수 있었다. 그리고 4종 유해미생물의 배지 두께에 따라 미생물 불활성화 효과에 대한 민감 정도를 알아본 결과 E. coli의 두께 민감 상수가 4.9로 가장 높게 나타났으며 이는 시료의 두께가 증가함에 따라 미생물 사멸효과가 감소하는 것을 알 수 있었다. 마지막으로 여러 가지 색(노랑, 빨강, 파랑, 녹색, 흑색)에 따른 E. coli의 사멸 효과는 유의적인 차이가 없는 것으로 나타났다. 결과적으로 초기 균체농도, 광 펄스 처리 시간, 두께에 따른 미생물 사멸효과의 민감도 등이 실제 식품 적용하기 위한 기초 자료로 활용할 수 있을 것으로 사료된다.
The behavioral responses of Plutella xylostella (Lepidoptera: Plutellidae) to four high power light emmitting diodes (HPLEDs) were tested at various illuminance intensity and light exposure time using a HPLED-equipped Y-maze chamber. Preference tests were conducted using the high power light emmitting diodes (HPLEDs) in the dark room at 27±0.5℃ and 60±0.5% relative humidity. Evaluated specific wavelengths were blue, green, yellow and red HPLEDs. The illuminance intensity was tested at 20, 40, 60, 80, and 100 lx and fixed at 30 min. As a result, the attraction rate of the green HPLED at 60 lx was the best effective (98.3%) to P. xylostella, followed by red HPLED of 60 lx (86.5%), yellow HPLED of 60 lx (83.6%), and blue HPLED of 40 lx (72.0%), respectively. Depending on the change of light exposure time (5, 10, 15, 20, and 25 min), green HPLED showed the potential attraction under the 15 min. These results may be used as information for developing an eco-friendly insect pest control system. Further research needs to be performed to evaluate the behavioral responses to single and multiple HPLED sources in the field.
To evaluate potential attractive activity of high power light emitting diodes (HPLEDs) against Plutella xylostella (Lepidoptera: Plutellidae), the specific wavelengths, illuminance intensities (20, 40, 60, 80, 100 lux), and light exposure times were investigated at 5 minute intervals. The evaluated specific wavelengths were blue (450±10 nm), green (520±5 nm), yellow (590±5 nm), red (660±10 nm), and white (450-630 nm). Based on the highest attraction rate, the HPLEDs treated to 60 lux intensity against P. xylostella were significantly more attractive than other illuminance intensities when light exposure time was 10 min. Attraction rate under optimal conditions showed that the green HPLED had the highest attraction rate (98.3%), followed by red HPLED (89.3%), blue HPLED (86.7%), yellow HPLED (76.7%), and white HPLED (70.0%), respectively. These results indicated that phototatic effect of the green HPLED against P. xylostella showed the greatest attraction at 60 lux intensity and 10 min light exposure time. Further research needs to be performed to evaluate the phototatic behavioral responses to single and multiple HPLED sources in the field.