染料敏化太阳能电池的研究进展

综述了染料敏化太阳能电池的研究进展，总结了染料敏化太阳能电池关键材料：(1)染料(2)电极材料(3)电解质等的研究现状和发展趋势，指出了各自存在的问题，并提出了部分解决设想。     

对加入WTO后建筑业发展的思考

加入世贸组织给我国建筑业发展带来前所未有的机遇，但也对我国建筑市场机制、质量管理体制形成威胁，我们应积极面对WTO给我们带来的机遇和挑战，要正视现实，转变观念，以求加快与国际接轨。     

电流变机理研究综述Ⅲ─—材料研究的成就、问题与前景

本文全面介绍了电流变材料的发展，包括电流变液、磁流变液和电磁流变液；此外还详细讨论了固相化学性质和添加剂与电流交响应的关系；指出了电流变材料的研究方向。作为这篇评论的结语概括介绍了电流变应用研究的最新成就。     

一种用于复杂战争过程的建模方法(Ⅰ)

本文重点介绍建模理论。现代战争系统是一个复杂系统,拥有复杂系统的所有特性,即物质、能量与信息的全面开放性,作用机制非线性和不确定性。以往的战争模型着重描述的是战场硬损耗过程,而对信息和C~3I系统等软因素缺乏描述。针对现代战争的特点我们提出了一种用于现代战争的建模方法,该方法基于复杂系统理论,能够全面描述现代战争过程的各要素,从而能够分析C~3I系统等在现代战争中的作用。     

环形磁头输出再生波形的模拟分析

引用互易定律对环形磁头输出再生波形进行模拟分析，所得结果与实验一致。     

基于BDE技术实现试题库系统的开发

基于BDE技术及Access数据库,用Delph i 7设计和开发一个题库系统.BDE技术为开发数据库应用程序提供了灵活性和通用性.能对“题库”的相关信息进行添加、删除、浏览等.     

新型可见光激发解水材料的研究进展

直接利用太阳光激发光催化剂分解水得到氢气和氧气,是极具诱惑力的一个研究方向,而目前面临的难点之一是已发现的光催化剂难以在可见光激发下具有持续、稳定的性能和较高的分解水的效率,因此找到新的可见光激发光催化剂是非常必要的.本文介绍了该领域的最新研究成果,并对可见光光激发催化剂分解水的机理进行了阐述.     

Study of Treating HAPE with HBO in Situ at the Altitude of 4636 m

Study Objective ： To evaluate the treatment effect of HAPE with HBO in situ at an extreme altitude of 4636 m. To investigate the relationship between pulmonary hypertension （PH） and HAPE. To emphasize the importance of the treatment in situ. Methods： The 32 patients from the plateau of 4636 - 5130 m （the barometric pressure： 57.41 - 53.28 kPa/431.6 - 400.6 mmHg（1 mmHg = 133.3224 Pa）, the partial pressure of oxygen： 12.0 - 11.6 kPa/90.0 - 87.0 mmHg） were treated in situ of 4636 m altitude with HBO. Before and after the treatment, the clinical symptoms / signs, radiographic evidence, SaO2, and MPAP were compared. Results： The clinical symptoms/signs, and all the targets of the patients were improved dramatically （p 〈 0.001）. Conclusions： Treating HAPE with HBO is the most effective method among various therapies in situ at an extreme altitude. The pulmonary -artery pressure was significantly decreased. All eases showed improved immediately. Among the subjects, 11 eases （34.3 %） were cured at once. The therapy made it possible for patients to get further treatment at a lower altitude area with prospective good results. We suggested that treating HAPE with HBO should be the first choice in situ. There must be PH in the patients of HAPE, but the reverse is not the true. The PH is a mechanism of normal compensation of the body exposing in the hypoxie environment. It is very necessary for us to explore the threshold of PH when a HAPE happens.     

Iron metabolism in the mononuclear phagocyte system

The maintenance of body iron homeostasis requires the coordination of multiple regulatory mechanisms of iron metabolism. The mononuclear phagocyte system （MPS, composed of monocytes, macrophages, and their precursor cells） is crucial in the maintenance of iron homeostasis. Recycling of iron is carried out by specialized macrophages via engulfment of aged erythrocytes. The iron stores of macrophages depend on the levels of recovered and exported iron. However, the molecular mechanisms underlying iron homeostasis in macrophages are poorly understood. Recent studies characterizing the function and regulation of natural resistance-associated mac- rophage protein 1 （Nrampl）, divalent metal transporter 1 （DMT1）, HLA-linked hemechromatosis gene （HFE）, ferroportin 1 （FPN1）, and hepcidin are rapidly expanding our knowledge on the molecular level of MPS iron handling. These studies are deepening our under- standing about the molecular mechanism of iron homeostasis and iron-related diseases.