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使用纵横比捕获和界面失配生长方法在 (001) Si 衬底上 MOCVD 生长 GaSb 的比较 Billy Lai、Qiang Li、Kei May
GaSb 在长波长器件中有许多应用,例如带间级联激光器和红外光电探测器 [1-2]。将 GaSb 相关材料单片集成到硅上对于扩展长波长器件的功能和硅平台上的光子集成具有很高的吸引力 [3]。此外,考虑到现代智能手机中红外设备(包括传感器和投影仪)的日益普及,集成到硅上是降低制造成本、减小尺寸和提高产量的有效解决方案。然而,与 GaAs/Si 和 InP/Si 材料系统相比,GaSb/Si 异质外延还远未成熟。在本研究中,以在 GaAs 衬底上生长的 GaSb 为参考,我们研究了两种不同的集成方案:在 GaAs-on-Si 模板上进行 GaSb 的界面失配 (IMF) 生长和使用长宽比捕获技术直接在 V 型槽 Si 上生长 GaSb。
更致命的皇家海军:锐化英国的海军力量
Butanumberofhostilestatesandcompetitorshavegrown strongeratseaoverthepastdecade,countrieswhichhavesoughtto subverttheinternationalorder.Tomeetthischallenge,itiswidely acknowledgedthatBritainneedsalargerandevenmorecapablefleet. ThisReportprovidesanumberofideasastohowastrongernavycould berealised.Morethanthat,itidentifiesareaswhereHisMajesty's(HM) GovernmentandtheRoyalNavycaninducestrategicadvantageby takingspecificmeasurestoenhancethelethalityandsurvivabilityof Britishsubmarines,warshipsandauxiliaries,therebystrengthening theirabilitytodeliverstrategiceffect.Wehopeyoufinditsconclusions andRecondationsInsightfulanduse。
电动驱动技术团队路线图
Electric traction drive systems (ETDS) needs have grown significantly since the last Roadmap in 2017.电池电动汽车(BEV)应用程序已随着储能成本的下降以及对车队运营商可以实现的强大所有权成本的认可而不断增长。There are vehicles available today with equivalent or better performance than comparable internal combustion engine (ICE) vehicles.在家中的电动汽车充电(加油)已成为消费者高度重视的功能,快速充电能力带来了与冰车相当的加油时间的希望。在过去的四年中,这种车辆电气化的急剧改善与车辆市场的彻底转变相吻合。What we have seen, especially in the last few years, is a radical shift that is driving electrification.The changes we have seen are as follows:
Ori Bionature(M)SDN BHD 201401002514(1078588-D)Ori Bionature(M)SDN BHD 201401002514(1078588-D)
An ancient plant grown in the Tibetan Plateau Contains a unique combination of polyphenols, proanthocyanidins, and bioflavonoids, that provide extensive health benefits It offers a dual mechanism to help slow down the aging process by protect and repair mechanism The proanthocyanidins from sea buckthorn protect cells from oxidative damages that causes aging It triggers stem cell release and increases the number of circulating stem cells in the blood circulation These stem cells have the potential to transform into other more specialized cells, helping to repair damaged tissues and organs in our body Enhances collagen production, promotes collagen cross-linking and protects the skin from sunburn and photoaging Provides cardiovascular benefits lowers LDL, serum Triglyceride, increases HDL and promotes vascular repairing 5 times在保护眼睛免受可见光引起的视网膜变性
Selective Growth of GaP Crystals on CMOS-Compatible Si Nanotip Wafers by Gas Source Molecular Beam Epitaxy
ABSTRACT: Gallium phosphide (GaP) is a III − V semiconductor with remarkable optoelectronic properties, and it has almost the same lattice constant as silicon (Si). However, to date, the monolithic and large-scale integration of GaP devices with silicon remains challenging. In this study, we present a nanoheteroepitaxy approach using gas-source molecular-beam epitaxy for selective growth of GaP islands on Si nanotips, which were fabricated using complementary metal − oxide semiconductor (CMOS) technology on a 200 mm n-type Si(001) wafer. Our results show that GaP islands with sizes on the order of hundreds of nanometers can be successfully grown on CMOS-compatible wafers. These islands exhibit a zinc-blende phase and possess optoelectronic properties similar to those of a high-quality epitaxial GaP layer. This result marks a notable advancement in the seamless integration of GaP- based devices with high scalability into Si nanotechnology and integrated optoelectronics. ■ INTRODUCTION
stemscale PSC悬浮媒体
图1。cts stemscale培养基提供的性能与Ruo Stemscale培养基相似。如表1所示,与在Ruo Stemscale培养基中生长的球体相比,在CTS茎层培养基中生长的球体将需要额外的生长一天才能达到相似的细胞收率。(a)通过日的球体形态。在Ruo Stemscale培养基中生长的球体通常在5天内平均直径为400 µm,而在CTS茎尺度培养基中生长的球体将需要额外的一天才能达到类似的直径。(b)通过日的累积细胞扩展。通过在第5天收集在Ruo Stemscale培养基中生长的球体,并在第6天在CTS Stemscale培养基中生长的球体,可以实现相似的总细胞产量(报道为折叠膨胀)。(c)球体直径比较。在RUO茎谱培养基中生长的球体的球体直径和CTS Stemscale培养基中生长的球体在各自的收获天数相似,两者都接近直径400 µm的上部建议。
消费者对循环经济的态度
3.1对可持续性一词的意识6 3.2理解可持续性6 3.3熟悉循环经济,温室气体排放和净零8 3.4我知道我需要做什么,以帮助北爱尔兰减少温室气体的责任减少温室气体的责任,减少更循环经济的责任,成为循环经济更加循环范围。 might have on the environment 17 3.9 Things that would encourage the adoption of a more sustainable lifestyle 17 3.10 Buying locally produced food from local businesses 19 3.11 Choosing locally grown fruit and vegetables 19 3.12 Selecting food that is in season 20 3.13 Reducing the amount of red meat eaten 21 3.14 Reducing dairy consumption 21 3.15 Switching to dairy substitutes 22 3.16 Switching to meat substitutes 23 3.17 Eating a vegetarian饮食23 3.18吃素食饮食24 3.19最有可能有助于减少环境影响的事情25
CV-MILAN-KUMAR-LAL-11-01-2024.pdf
完成年度2016-2022博士学位(植物生理学,金牌得主),印度农业研究所(IARI),新德里,印度印度,论文论文标题:马铃薯块状顾问中的血糖指数和相关属性分析¾ Physiology) , Indian Agricultural Research Institute (IARI), New Delhi, India ¾ Study emphases: Plant nutrition, Climate change, Abiotic stress ¾ Thesis title: Effect of High [CO 2 ] on Phosphorus Efficiency in Wheat Grown Under Phosphorus Stress with Different Sulphur Levels ¾ Advisor : Dr. Renu Pandey, Mineral Nutrition Lab, IARI, New Delhi ¾ Final Grade: 8.63/10或86.3%2009-2013科学学士学位(农业),奥里萨邦农业技术大学,农业学院,奥里萨邦布巴内斯瓦尔,奥里萨邦(印度)¾研究重点:农业科学:农作物生产,包括作物生产及其最终年级:8.18/10或81或81或81或81或DIV>>
“旁遮普邦银行Q4 FY-24收入电话会议” ...
我们的董事会于7月26日批准了银行的第一季度结果,您必须全部完成我们的结果和演示文稿。但是,鉴于设置当今与大家的互动的上下文,我想简要地告诉您,在2024-25财年第1季度银行绩效的一些关键亮点。银行的业务在Y-O-Y的基础上增长了7.10%,为20833.1千万卢比。Y-O-y的存款增长了5.59%,为1220593千万卢比。在Y-O-Y BSIS上增长了9.24%,为87,738千万卢比。作为修订的商业模式的一部分,我们将重点关注的零售,Agri和MSME的进步已增长到15.69%的Y-O-Y。银行的净利息收入以y-o-y增长了15.18%。Y-O-Y的运营效果增长了23.35%。该银行的净值已增长了18.95%的Y-O-Y,并在顺序的基础上增长了30.94%。连续的净利息收入增长了23.37%。由于我们部门的恢复工作,NPA总体NPA现在已减少208个基点至4.72%,截至6月30日。NET NPA降至1.59%,将36个基点Y- O-Y降低。该银行的资本充足性仍然健康,为17.30%,显示为11 bps的增长Y-O-Y。就银行业绩的其他一些显着特征而言,我们要提到该银行的CD比率已提高到72.76%。我们都知道,银行体系在存款增长方面正在面临一些挑战,即信贷增长。在我们的银行中,我们的CASA仅增长了5.36%,这也与其他银行一致。零售定期存款表现出良好的吸引力,在6月季度,我们已经看到零售定期存款增长了10.15%,这帮助该银行减少了银行的批量存款比率。
