公开了新型小孔(金属)铝磷酸盐分子筛。
A novel small pore (metallo) aluminophosphate molecular sieve is disclosed.
但到目前为止,对红树植物的耐盐分子机制还知之甚少。
Up to now, little is known about the genetic mechanisms of mangroves for salt tolerance.
结果:丹参酚酸B苦参碱复盐分子中含一分子丹参酚酸B和一分子苦参碱。
Results:The salt containing one molecular Salvianolic acid B and one molecular alkaloids.
他说这种细菌是“抓紧每一个磷酸盐分子不放,真的是生活在‘水深火热’之中”。
He described it as "clinging to every last phosphate molecule, and really living on the edge."
在这里,溶液里包含了所有这些溶剂分子,盐分子酸分子和其它东西,可以用来缓冲。
In here, in solution you have all these molecules of solvent, molecules of salt, molecules of acid, or whatever, pH that are going to be around to buffer the pH.
尽管还不完全清楚其中的原理,但是这好象跟水分子和盐分子遇到声波时的震动方式相关。
Although the process isn't fully understood, it seems to be related to the way water and salt molecules vibrate when encountering sound waves.
这种超导缺口存在于最小只有四个镓盐分子的纳米金属线上有所体现,但只有三个镓盐的纳米金属线却没有这种特性。
This superconducting gap exists in the smallest molecules of only four nano-metal gallium reflected online but only three gallium salt nanowires without this feature.
这种超导缺口存在于最小只有四个镓盐分子的纳米金属线上有所体现,但只有三个镓盐的纳米金属线却没有这种特性。
This superconducting gap exists in the smallest molecules of only four nano-metal gallium reflected online, but only three gallium salt nanowires without this feature.
这种超导缺口存在于最小只有四个镓盐分子的纳米金属线上有所体现,但只有三个镓盐的纳米金属线却没有这种特性。
This superconducting gap was found in nanowires with as few as four salt molecules, but not in nanowires that were only three molecules long.
除了消耗二氧化碳外,浮游植物可以影响海洋吸收热量多少,有些种类浮游植物还可以释放能够促进云形成的硫酸盐分子。
In addition to consuming CO2, phytoplankton can influence how much heat is absorbed by the world's oceans, and some species emit sulfate molecules that promote cloud formation.
土壤中高浓度的盐分会使离子失衡、氧化伤害、水分亏缺、营养缺乏,并导致生物大分子被破坏、生长迟缓、甚至植株死亡。
High concentration of salt in soil causes ion imbalance, oxidative damage, water deficit and nutrient deficiency, which lead to molecular damage, growth retarded, and even death of plant.
结果,调控肠道水盐分泌的调节分子未获得充分活化。
Consequently, the molecular mediators regulating the secretion of salt and fluid in the gut do not get fully activated.
结果,调控肠道水盐分泌的调节分子未获得充分活化。
Consequently, the molecular mediators regulating the secretion of salt and fluid in the gut do not get fully activated.
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