人乳脂肪球是母乳中一种天然而复杂的乳液体系，为婴儿提供能量、必须脂肪酸和脂溶性营养素。近年来的研究表明，脂肪球这种特殊的物理结构影响婴儿胃肠道中的乳脂消化，进而调控脂肪的体内代谢，但是其消化过程及消化机理尚不明确。本项目拟选取新鲜的健康母亲的母乳，利用散射技术、谱学技术和显微技术等现代分析手段，分析脂肪球的物理结构、化学组成和其随分泌时间的变化趋势；采用体外模拟婴儿胃肠道脂解模型，研究婴儿胃肠道的人乳脂肪球的消化过程；通过将包含脂滴的人工脂质体固定在玻璃表面上，构筑一种新型的体外人工乳脂肪球，研究胃脂酶、

随着能源革新及电网智能化战略的快速推进，配电系统变被动为主动将成为推动智能配电技术发展的核心，在未来电网的发—输—配—用电环节中发挥重要作用。然而，间歇性新能源的不确定性、逆变器参与调控的需求、负荷多样化发展的趋势、及用户对高品质供电的要求，均给主动配电系统的运行控制带来极大挑战。本项目致力于从分区牵制控制和群一致趋同的角度寻求解决方案，构建分区分布式群控架构，提出牵制趋同信息交互方法和分区分布式牵制群控策略，从全新的角度以微电网/虚拟电厂分区牵制群控的概念简化实现主动配电系统的全局协调、就地自治、可靠运

Project Summary G protein coupled receptors (GPCRs) are the largest family of receptors for hormones and neurotransmitters and therefore the largest group of targets for new therapeutics for a very broad spectrum of diseases including neuropsychiatric, ca

Project Summary The studies and career development/training activities in this K99/R00 proposal are designed to equip the PI, Dr. Rachel Perry, with the technical and scientific expertise and the experience to become an independent investigator exploring

nnotation:The project is aimed at solving the actual problem of cutting materials at previously inaccessible speeds by expanding the technological capabilities of the advanced production technology of waterjet cutting.Waterjet cutting is one of the most

nnotation:One of the important tasks of modern materials science is the development of new metal and composite materials based on a metal matrix with improved functional properties. This project considers following scientific problems to be solved while