氢气分子的有利生物学效应可以根据这些报道确定。
Based on this cumulative knowledge, the beneficial biological effects of hydrogen have been confirmed.
本文利用分子模拟的方法模拟了氢气分子在平板状碳纳米纤维中的吸附。
Hydrogen adsorption in carbon nanofibres termed platelet has been simulated with molecule simulation method in the paper.
那么,既然氢气和氧气分子很难结合,那么我们现在的水是怎么产生的?
So, if hydrogen and oxygen molecules are not simply mating up, just what has been the origin of our water?
原子能专家说,核反应堆堆芯的放射线能够把水分子一分为二从而产生氢气。
Nuclear experts say that radiation from the core of a reactor can split water molecules in two, releasing hydrogen.
首先,这是氢气中的两个s轨道,1s与1s轨道重叠,产生sigma分子轨道。
First of all, this is the two s orbitals in hydrogen, 1s plus 1s smearing to give us this sigma molecular orbital.
氢气由于它大量的存在于水分子之中并且在燃烧时没有二氧化碳的产生而最有希望替代汽油的燃料。
HYDROGEN holds out hope as an alternative fuel to petrol for transport because there is plenty of it about in the form of water and no greenhouse gases are produced when it is burned.
之后我们知道,氢气是H2,是一个分子。
Later on, we'll learn that hydrogen as we typically encounter it is H2, the molecule.
所有的这些都是来自于第一主族和第二组主族,到第五主族和第六组主族的悬殊,那么元素呢,比如氢气,氮气或氧气那样的分子呢?
All of these from the group one and two through the group five and six elements, but what about elements, what about molecules like hydrogen, or nitrogen, or maybe oxygen?
地球现在正在将注意力转移到创造一种物质和能量运动来分解水域中的水分子,以便产生氢气和氧气的过程当中。
Earth now turns her attention to creating a substance and energetic movement to break water molecules a part within her waterways and into the components of hydrogen and oxygen.
胶体或分子催化剂催化重油之间的原料和氢气反应和消除提高或降低焦炭前体和沉积物的形成。
The colloidal or molecular catalyst catalyzes upgrading reactions between the heavy oil feedstock and hydrogen and eliminates or reduces formation of coke precursors and sediment.
氢气的分子式为H2,它是一种无色、无溴和无味的气体。
Hydrogen is referred to as H2. It is a colourless, odourless and tasteless gas.
氢气的深度干燥常采用分子筛吸附干燥。
Adsorption drying is often used in the deeply drying of hydrogen in industry.
自从发现氢分子医学效应以后,目前认为电解水效应的本质也是氢气效应。
However, recent medical development and discovery of Hydrogen function allow people to recognize the effects of water from electrolysis are actually from Hydrogen effect.
年日本率先突破氢分子难溶于水的技术难题,生产出饱和氢气水,也称富氢水。
In 2009, Japan out-breaks the technical problem of low-dissolving property of hydrogen in water and produce saturated hydrogen water that we called Hydrogen Rich Water.
年日本率先突破氢分子难溶于水的技术难题,生产出饱和氢气水,也称富氢水。
In 2009, Japan out-breaks the technical problem of low-dissolving property of hydrogen in water and produce saturated hydrogen water that we called Hydrogen Rich Water.
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