Effects of structural parameters on flow boiling performance of reentrant porous microchannels

National Nature Science Foundation of China [51275180]; National Nature Science Foundation of Guangdong Province [S2012030006231]Flow boiling within advanced microchannel heat sinks provides an efficient and attractive method for the cooling of microelectronics chips. In this study, a series of porous microchannels with Omega-shaped reentrant configurations were developed for application in heat sink cooling. The reentrant porous microchannels were fabricated by using a solid-state sintering method under the replication of specially designed sintering modules. Micro wire electrical discharge machining was utilized to process the graphite-based sintering modules. Two types of commonly used copper powder in heat transfer devices, i.e., spherical and irregular powder, with three fractions of particle sizes respectively, were utilized to construct the porous microchannel heat sinks. The effects of powder type and size on the flow boiling performance of reentrant porous microchannels, i.e., two-phase heat transfer, pressure drop and flow instabilities, were examined under boiling deionized water conditions. The test results show that enhanced two-phase heat transfer was achieved with the increase of particle size for the reentrant porous microchannels with spherical powder, while the reversed trend existed for the counterparts with irregular powder. The reentrant porous microchannels with irregular powder of the smallest particle size presented the best heat transfer performance and lowest pressure drop

Single-pass transformation of syngas into ethanol with high selectivity by triple tandem catalysis

乙醇既可作为替代燃料或优质汽油添加剂亦是重要基础化学品，同时也是一种理想的氢载体。乙醇需求量近年增长迅速，我国需求缺口巨大，当前合成气合成乙醇有三种方法，其中直接法因在同一催化剂上存在多种反应通道，导致产物选择性不超过60%。另一方面，多步法路线虽然较为成熟，但因反应和分离/纯化步骤多，存在成本贵、能耗高等问题。发展合成气直接制乙醇的新方法和新路线具有重大意义。王野课题组在C1化学领域率先提出以接力催化控制反应选择性的新方法，并在合成气高选择性制备液体燃料、低碳烯烃和芳烃等方面取得成功。该工作是在王野教授、张庆红教授共同指导下完成的。醇醚酯化工清洁生产国家工程实验室高工康金灿、2018级博士生何顺和2017级博士生周伟为论文共同第一作者。陈明树教授课题组在原位红外、准原位XPS等表征中给予了支持，南京大学彭路明教授课题组在固体核磁表征方面提供了帮助。Synthesis of ethanol from non-petroleum carbon resources via syngas (a mixture of H2 and CO) is an important but challenging research target. The current conversion of syngas to ethanol suffers from low selectivity or multiple processes with high energy consumption. Here, we report a high-selective conversion of syngas into ethanol by a triple tandem catalysis. An efficient trifunctional tandem system composed of potassium-modified ZnO–ZrO2, modified zeolite mordenite and Pt–Sn/SiC working compatibly in syngas stream in one reactor can afford ethanol with a selectivity of 90%. We demonstrate that the K+–ZnO–ZrO2 catalyses syngas conversion to methanol and the mordenite with eight-membered ring channels functions for methanol carbonylation to acetic acid, which is then hydrogenated to ethanol over the Pt–Sn/SiC catalyst. The present work offers an effective methodology leading to high selective conversion by decoupling a single-catalyst-based complicated and uncontrollable reaction into well-controlled multi-steps in tandem in one reactor.This work was supported by the National Key Research and Development Program of the Ministry of Science and Technology of China (No. 2017YFB0602201) and the National Natural Science Foundation of China (Nos. 91945301, 91545203, 21972116, 21433008, 21872112, 21673188 and 21690082). We acknowledge Prof. L. Peng and Y. Wen (Nanjing University, China) for performing NMR characterizations.该研究得到科技部重点研发计划(2017YFB0602201)和国家自然科学基金重大研究计划(91945301、91545203)等项目的资助

Application of Copper Electrochemical Deposition for the Metallization of Micropores

According to established routes for the microporous metallization of printed circuit boards (PCB), electroless copper plating using glyoxylic acid as a reducing agent and copper electroplating in a citrate bath were used for microporous metallization with PCB distributing micropores as a template. The results show that electroless copper plating using glyoxylic acid as a reducing agent and copper electroplating in a citrate bath can be successfully applied to the microporous metallization of PCB. After an electric conducting treatment of the micropores by electroless copper plating the copper deposited as fine grains and attached to the inner walls of the micropores. The copper deposit was also found in the loose grain arrangement and the leak plating area. Immediately after thickening treatment by copper electroplating, the resistance toward the copper coating of the inner wall decreased notably. The ratio of the copper electroplating rates at the inner and outer micropores was found to be 0.8:1.0. The copper electrodeposit fully covered the surface of the inner wall including the leak plating area, which means that the electroplated copper grains have a certain sideway growing ability. The copper coating on the inner wall was continuous, compact, and adhesive. This coating highly enhanced the conductivity of the interconnected PCB.National Natural Science Foundation of China[20873114, 20833005, 21021002]; National Key Basic Research Program of China[2009CB930703

Progress in the studies of vivipary in mangrove plants

【中文摘要】植物胎生是指有性繁殖产生的后代在母体上直接萌发的现象, 在红树植物中最为常见。红树植物生长在热带亚热带海岸潮间带, 耐受高盐、高温、淹水缺氧和海浪冲击等复杂环境。胎生被认为是红树植物对这种特殊生境的重要适应方式。 该文从形态发育、生理生化、分子水平、生态适应4个层次讨论红树植物胎生现象对复杂生境的适应性, 并指出现有研究存 在的不足, 对将来的研究方向进行了展望。与非胎生胚胎发育相比, 红树植物胎生是一个遗传的程序, 在进化过程中形成了 一些特殊的结构。植物激素对胎生发育起关键的调控作用, 繁殖体发育过程中, 其盐离子的种类与浓度的动态变化则是对海 岸潮间带生境的重要适应特征。这种胎生繁殖体依靠在母体上完善的一系列功能性特征能更有效地适应落地后的滩涂环境。 然而, 红树植物胎生发育过程的分子机理及调控机制还有待研究。理解胎生这一特殊适应性现象的本质及其进化过程将为红 树林保护繁育、适应气候变化提供理论依据。 【Abstract】Vivipary in plants refers to a phenomenon that sexually reproduced offsprings germinate while still attached to the maternal bodies. This is mostly manifested in mangrove plants, which occur in tropical and subtropical intertidal zones and encounter harsh environmental conditions such as high salinity, high temperatures, waterlogging, hypoxia and tidal waves. Vivipary has long been recognized as one of the most important adaptive features under such a complex environment. Here we discuss four aspects of vivipary: morphological anatomy, physiology and biochemistry, molecular biology and ecological adaptation. We also discuss shortcomings in current studies and prospect of future directions. Differing from regular seed development, viviparous seeds in mangroves are evolved with many special structures, indicating a genetically based process. Hormones play an important role in regulating the process, whilst the dynamics of salt ion concentration during embryo and propagule development seems to be an adaptive feature. The ecological significance of vivipary is fully exhibited in the propagules that can effectively establish themselves on muddy tidal zones. Such a success heavily relies on sound functional features developed on the mother plants. However, the molecular mechanism and the regulation of viviparous seed development in mangroves remain elusive. Systematic studies of vivipary in mangroves not only help to understand the nature and evolutionary process of this distinct adaptive phenomenon, but also provide the foundation for mangrove forest restoration and protection in many parts of the world.福建省对外合作项目(2016I0013

Effect of temperature on sensing performance of optical fiber relative humidity sensor based on nafion-crystal violet film

The optical fiber relative humidity sensor based on Nafion-crystal violet film was developed. The effect of sample's temperature in the range from 299.15 K to 324.15 K on the sensing performance of the sensor was investigated. The mathematical function between temperature and the sensitivity of the sensor was established according to the reactive theory of sensor to the relative humidity, which was validated with the experiment. With the research, the application range of the sensor was extended, which made the sensor keep a good veracity when it was used in situ

Near-atomic cryo-electron microscopy structures of varicella-zoster virus capsids

VZV是一种广泛存在并且具有高度传染性的人类α-疱疹病毒。初次感染VZV可导致水痘，人群普遍易感（感染率约为61%～100%）。该病毒可在背根神经节潜伏感染，持续终生。夏宁邵教授团队长期开展VZV相关基础与新型疫苗研究，通过系统和精细探索建立了高效的VZV规模化培养和病毒颗粒纯化技术体系，成功获得高质量的VZV颗粒样品。首次揭示了疱疹病毒α家族的水痘-带状疱疹病毒（VZV）不同类型核衣壳的近原子分辨率结构，阐明了VZV核衣壳不同组成蛋白的相互作用网络与衣壳装配机制，可为进一步开展新型载体疫苗设计及抗病毒药物等研究提供重要支持。 我校博士后王玮、高级工程师郑清炳、博士生潘德全和俞海副教授为该论文共同第一作者，我校夏宁邵教授、程通副教授、李少伟教授以及美国罗格斯大学朱桦（Hua Zhu）教授、加利福尼亚大学洛杉矶分校周正洪（Z. Hong Zhou）教授为该论文的共同通讯作者。【Abstract】Varicella-zoster virus (VZV) is a medically important human herpesvirus that causes chickenpox and shingles, but its cell-associated nature has hindered structure studies. Here we report the cryo-electron microscopy structures of purified VZV A-capsid and C-capsid, as well as of the DNA-containing capsid inside the virion. Atomic models derived from these structures show that, despite enclosing a genome that is substantially smaller than those of other human herpesviruses, VZV has a similarly sized capsid, consisting of 955 major capsid protein (MCP), 900 small capsid protein (SCP), 640 triplex dimer (Tri2) and 320 triplex monomer (Tri1) subunits. The VZV capsid has high thermal stability, although with relatively fewer intra- and inter-capsid protein interactions and less stably associated tegument proteins compared with other human herpesviruses. Analysis with antibodies targeting the N and C termini of the VZV SCP indicates that the hexon-capping SCP—the largest among human herpesviruses—uses its N-terminal half to bridge hexon MCP subunits and possesses a C-terminal flexible half emanating from the inner rim of the upper hexon channel into the tegument layer. Correlation of these structural features and functional observations provide insights into VZV assembly and pathogenesis and should help efforts to engineer gene delivery and anticancer vectors based on the currently available VZV vaccine.This research was supported by grants from the National Science and Technology Major Projects for Major New Drugs Innovation and Development (no. 2018ZX09711003-005-003), the National Science and Technology Major Project of Infectious Diseases (no. 2017ZX10304402), the National Natural Science Foundation of China (no. 81871648, 81601762), the Research Unit of Frontier Technology of Structural Vaccinology of Chinese Academy of Medical Sciences (no. 2019RU022) and the US National Institutes of Health (DE025567/028583). 该研究获得了国家自然科学基金、新药创制国家科技重大专项和传染病防治国家科技重大专项等资助

Atomic structures of Coxsackievirus A6 and its complex with a neutralizing antibody

手足口病是一种由人肠道病毒引起的全球性传染病，主要发生于5岁以下的婴幼儿，严重危害公众健康。根据获得的手足口病流行病学和病原学调查数据，目前认为CVA6与EV71和CVA16一样应作为优先的手足口病疫苗预防对象，亟需研制有效的预防和治疗方法。然而令人遗憾的是，目前对于CVA6的基础病毒学特别是结构生物学知识均缺乏足够了解，严重制约了相关研究的有效开展。 夏宁邵教授团队研究首次揭示了手足口病重要病原体柯萨奇病毒A组6型（CVA6）的病毒颗粒及其与中和抗体复合物的精确三维结构，为新型疫苗和治疗药物的研制提供了重要的理论基础。这项研究发现并精确描绘了CVA6的病毒颗粒及其与优势中和抗体的结构特征，首次完成了对CVA6的高精度“成像”，为新型疫苗和治疗药物研制提供了关键基础。 该研究工作在厦门大学分子疫苗学和分子诊断学国家重点实验室、国家传染病诊断试剂与疫苗工程技术研究中心科研平台完成。夏宁邵教授、颜晓东博士、程通副教授为该研究论文的共同通讯作者。颜晓东博士来自美国加州大学圣地亚哥分校，同时受聘为我校双聘教授。共同第一作者为徐龙发博士生、郑清炳工程师和李少伟教授。【Abstract】Coxsackievirus A6 (CVA6) has recently emerged as a major cause of hand, foot and mouth disease in children worldwide but no vaccine is available against CVA6 infections. Here, we demonstrate the isolation of two forms of stable CVA6 particles-procapsid and A-particle-with excellent biochemical stability and natural antigenicity to serve as vaccine candidates. Despite the presence (in A-particle) or absence (in procapsid) of capsid-RNA interactions, the two CVA6 particles have essentially identical atomic capsid structures resembling the uncoating intermediates of other enteroviruses. Our near-atomic resolution structure of CVA6 A-particle complexed with a neutralizing antibody maps an immune-dominant neutralizing epitope to the surface loops of VP1. The structure-guided cell-based inhibition studies further demonstrate that these loops could serve as excellent targets for designing anti-CVA6 vaccines.This work was supported by a grant from the National Natural Science Foundation of China (No. 31670933 and 81401669), the National Science and Technology Major Projects for Major New Drugs Innovation and Development (No. 2017ZX09101005-005-003), the National Science and Technology Major Project of Infectious Diseases (No. 2017ZX10304402-002-003) and the Natural Science Foundation of Fujian Province (No. 2015J05073). This work was also supported in part by funding to T.S.B. from the National Institutes of Health (Grant R37-GM33050). 研究工作也得到了国际病毒结构生物学权威专家美国加州大学洛杉矶分校周正洪教授的大力支持和帮助，获得了国家自然科学基金、新药创制国家科技重大专项、传染病防治国家科技重大专项和福建省自然科学基金的资助

Tax Policies of How to Promote the development of Low-carbon Economy

Conference Name:1st International Conference on Energy and Environmental Protection (ICEEP 2012). Conference Address: Hohhot, PEOPLES R CHINA. Time:JUN 23-24, 2012.This article points out that it must rely on tax policy to create a low-carbon economy in China. To improve China's tax system to promote optimal allocation of resources is a priority means, but also is needed to promote economic and social development, and the harmonious development between man and nature

Three-dimensional reconstruction and morphologic characteristics of porous metal fiber sintered sheet

Nature Science Foundation of China [51275177, 51105144, 51105387]; Nature Science Foundation of Guangdong Province [S2012010008626]This paper presents an approach to achieve morphological characterizing for complex porous materials based on micro X-ray tomography images, with an example of a novel porous metal fiber sheet produced through solid-state sintering method. The geometrical reconstruction was performed after selection of volume of interest and image processing of anisotropic diffusion smooth. The reconstructed gray level images were then transferred into binary images by adjusting binarization threshold according to the actual porosity. Taking into account the tubular structural feature of the fibers, skeleton extraction algorithm based on the distance transform function was applied and further improved by the scale axis transform method. The skeleton was later pruned and segmented according to the contact points to perform morphological characterizing. Compared with actual manufacturing parameters, the style, length, radius, orientation and tortuosity of fiber segments were discussed. The results show that our proposed method can well describe the actual geometrical and morphological characteristics, which will provide a promising method for the structural description of fibrous networks. (C) 2013 Elsevier Inc. All rights reserved