the nature of chemical bond-化学键的本质
the author wei ju .琚 伟 原创
all kondS of chemical bond , include the covelant bond or ionic bonds and weakbonds such as dipole-dipole interactions are essencially the system of mass-density homogenization , in which the two bonded atoms or more than two atoms that are bonded together are exchanging their mass/energy with each other in two-way style to reach the equilibrium of even-mass-density,and at the sametime,the two atom composed molecule system or the many atoms composed molecule system are exchanging their mass/energy with other atomic system or molecule system of outside environment , so, the chemical bond system can be essencially taken as the double-hole structured system in which the system running the asymmetric-dynamic equivalent matter/energy exchanging through the two-way flow of the entangled quantum streams ,so the chmeical bond can be taken as the universal unified double-hole matter/energy exchang system expressed in chemical reaction process and in chemical bond status. for example, the molecule of iron-oxide is essencially a mass-density homogenization system existed between the iron element and the oxygen element and in this mass-density homogenization system the high density iron atom and the low density oxygen atom is exchanging their matter/energy with each other in two-way style. a high density iron and the low density oxygen composed mass-density homogenization system in which the mass-density of the iron atom is in matter dissociation evolving process with mass-density decreasing while the oxygen atom is in matter polymerization evolving process with mass-density increasing, another example , the gaseous molecule of methane, the carbon-13 isotope is in matter dissociation process dominated by "the white-hole net openning and the photothermal energy promoted matter-dissociation process with mass-density decreasing while the four hydrogen atoms are in matter-polymerization process dominated by the black-hole net closing effect and the cold-dark energy promoted matter-polymerization process with mass-density increasing, even the diatomic gas like oxygen molecule,there is still a tiny mass-density differential level and the covelant bond that connect two oxygen atoms is still essentially the system of mass-density homogenization to make two oxygen atoms to evolve in mass-density even level with the least mass-density difference.
所有化学键,无论是共价键还是离子键,本质上均为一种物质密度均质化演化系统,是一种宇宙中无处不存在的双洞等价质能转交换系统在微观原子之间,或分子之间运行的表现形式而已,本质上与地球和太阳之间,以及太阳系内所有的行星与太阳之间存在的一对一式双洞等价质能交换系统是一样的,本质上都是物质团之间的物质密度均质化演化系统,而地球环境下的原子之间或者分子之间以化学键形式而存在双洞等价质能转交换系统又是地球与太阳之间存在的“天体质能级”双洞质能转交换系统中的亚出层次系统,比如,氧化铁作为一个分子水平上双洞系统每时每刻都在通过铁原子和氧原子之间的离子键系统进行双向性质能转交换,这个质能转换过程中,高密度的铁原子和低密度的氧原子之间的物质密度区域无限趋近相等的趋平衡态,根据《琚氏双洞一网新理论模型》提出的全新科学观点,大到宏观物质世界里的天体质量级的恒星和行星之间的双洞等价质能转交换系统,小到原子粒子之间双洞等价质能转交换系统本质上均为物质密度的均质化演化系统,恒星和行星之间的物质能量的交换是双向性的,一个分子系统中的原子与原子之间的物质能量交换也是双向性的。二者具有高度的统一性。譬如,在一个三氧化二铁的分子中,高密度的铁原子和低密度的氧原子之间每时每刻均在通过二者之间的化学键系统进行着双向性物质能量交换,二者之间每时每刻都在进行着物质密度的均值化演化过程,高密度铁原子向低密度氧原子方向进行物质离解的演化,在此过程中,在三氧化二铁分子中处于结合铁状态下的铁离子的物质密度逐渐降低,而在三氧化二铁分子中处于结合氧状态下的低密度氧原子又同时向高密度的铁原子方向进行物质聚合的演化,在此过程中,氧元素的物质密度逐渐增加,但是由于分子系统中物质密度均质化系统受到地球和太阳之间物质密度均质化系统的支配,最终,地球上一切高密度金属元素均会向低密度气态元素方向进行物质离解演化,而地球上所有的低密度气态元素也会向更低密度的氢质子方向进行物质离解演化,而在三氧化二铁分子中处于结和氧状态下的氧原子的物质密度增加也是暂时性的,阶段性的。因此,化学键所表达的原子之间的双向性物质能量交换过程是非对称性的和相对等价的质能交换。三氧化二铁分子中的铁元素物质密度不断下降,氧元素的物质密度不断增加,但是最终整个三氧化二铁分子团的物质密度是呈慢慢的下降趋势。这就是化学键的本质。这就是琚氏双洞一网模型中提出的“统一性双洞等价质能转交换系统”对化学键本质的最深层次和最高水平核心诠释。
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DR. WEI JU