电荷守恒--即溶液永远是电中性的,所以阳离子带的正电荷总量=阴离子带的负电荷总量
例:
NH4Cl溶液:c(NH+ 4)+c(H+)= c(Cl-)+ c(OH-)
写这个等式要注意2点:
1、要判断准确溶液中存在的所有离子,不能漏掉。
2、注意离子自身带的电荷数目。
如,
Na2CO3溶液:c(Na+)+ c(H+)= 2c(CO2- 3)+ c(HCO- 3)+ c(OH-)
NaHCO3溶液:c(Na+)+ c(H+)= 2c(CO2- 3) + c(HCO- 3)+ c(OH-)
NaOH溶液:c(Na+) + c(H+)=c(OH-)
Na3PO4溶液:c(Na+) + c(H+) = 3c(PO3- 4) + 2c(HPO2- 4) + c(H2PO- 4) + c(OH-)
物料守恒--即加入的溶质组成中存在的某些元素之间的特定比例关系,由于水溶液中一定存在水的H、O元素,所以物料守恒中的等式一定是非H、O元素的关系。
例:
NH4Cl溶液:化学式中N:Cl=1:1,即得到,c(NH+ 4)+ c(NH3?H2O) = c(Cl-)
Na2CO3溶液:Na:C=2:1,即得到,c(Na+) = 2c(CO2- 3 + HCO- 3 + H2CO3)
NaHCO3溶液:Na:C=1:1,即得到,c(Na+) = c(CO2- 3)+ c(HCO- 3) + c(H2CO3)
写这个等式要注意,把所有含这种元素的粒子都要考虑在内,可以是离子,也可以是分子。
质子守恒--即H+守恒,溶液中失去H+总数等于得到H+总数,利用物料守恒和电荷守恒推出。
实际上,有了上面2个守恒就够了,质子守恒不需要背。例如:
NH4Cl溶液:
电荷守恒:c(NH+ 4) + c(H+) = c(Cl-) + c(OH-)
物料守恒:c(NH+ 4)
+ c(NH3?H2O)
= c(Cl-)
处理一下,约去无关的Cl-,得到,c(H+) = c(OH-) + c(NH3?H2O),即是质子守恒
Na2CO3溶液:
电荷守恒:c(Na+)+ c(H+) = 2c(CO2- 3) + c(HCO- 3) + c(OH-)
物料守恒:c(Na+)= 2c(CO2- 3 + HCO- 3 + H2CO3)
处理一下,约去无关的Na+,得到,c(HCO- 3)+ 2c(H2CO3) + c(H+) = c(OH-),即是质子守恒
While studies of graphite have included those utilizing
fewer and fewer layers for some time,1 the field was delivered
a jolt in 2004, when Geim and co-workers at Manchester
University first isolated single-layer samples from graphite
(see Figure 1).2
尽管人们采用越来越少的层数对石墨进行研究已有一段时间,但直到2004年曼彻斯特大学的Geim和他的同事们首次从石墨中分离出单层的(石墨烯)样品,这一领域才取得重大突破。(见图1)2
This led to an explosion of interest, in partbecause two-dimensional crystals were thought to be thermodynamically unstable at finite temperatures.3,4 Quasi-twodimensional films grown by molecular beam epitaxy (MBE) are stabilized by a supporting substrate, which often plays a
significant role in growth and has an appreciable influence on electrical properties.5
这一成功引起了人们极大的兴趣。其中部分原因是人们曾认为二维晶体在有限(低)温度下热力学不稳定。3,4 (此前)以分子束外延生长的准二维薄膜是使用支持基片使其稳定的,基片在薄膜生长中扮演了重要角色,并显著影响薄膜的电性能。5
In contrast, the mechanical exfoliation technique used by the Manchester group isolated the
two-dimensional crystals from three-dimensional graphite. Resulting single- and few-layer flakes were pinned to the substrate by only van der Waals forces and could be made
free-standing by etching away the substrate.6-9
与此不同的是,曼彻斯特大学小组采用了机械剥离的方法从三维石墨中分离出二维晶体。分离出的单层或几层薄片仅仅通过范德华力作用固定在基片上,从而可以通过腐蚀基片使石墨层完全游离。6-9
This minimized any induced effects and allowed scientists to probe graphene’s intrinsic properties.
这样,就可以使任何外界因素引起的效应最小化,从而科学家可以研究石墨烯的自身性质。
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