排序方式: 共有19条查询结果,搜索用时 0 毫秒
1.
2.
《Composite Interfaces》2013,20(8-9):539-566
This review focuses on some aspects of organic-inorganic hybrid materials prepared by the sol-gel method. This field has been studied worldwide as one of the nanotechnologies, and is now of current interest for both organic and inorganic scientists. The elaboration of organic–inorganic polymer hybrid materials using the sol-gel process can be accomplished by various approaches. The simplest method is increasing the compatibility by using physical interactions, covalent bonding and compatibilizer between organic polymer and silica gel. Other novel approaches, such as an in-situ method, NHSG (Non- Hydrolysis Sol-Gel) process, and use of reactive polymer hybrids resulted in the preparation of novel transparent organic–inorganic polymer hybrid materials. Stimulus responsive polymer hybrids are also mentioned. Furthermore, nano-structured organic–inorganic polymer hybrids are created by using supermolecular and self-assembly of organic molecules or polymers recently. The obtained nano-structured hybrid materials showed unique properties that could not be found in amorphous hybrid materials. The possibilities and applications of organic–inorganic polymer hybrid materials are also described in this review. 相似文献
3.
Baohuai Sheng 《分析论及其应用》2006,22(4):319-328
In the present paper,we provide a way of constructing translation network operators by Bernstein-Durrmeyer operators. 相似文献
4.
5.
具有三维网络的新型配位聚合物[Nd(C7H6NO2)3.H2O]n的合成、结构和性质 总被引:6,自引:0,他引:6
以Nd(NO3).6H2O和NH2C6H4COOH为原料,经[Nd(C7H6NO2)3.H2O]的自组装,得到了具有三维网络结构的配位聚合物[Nd(C7H6NO2)3.H2O]n。该聚合物晶体属单斜晶系,空间群P2(1)/n,a=0.98069(5)nm,b=2.2736(2)nm,c=0.98254(8)nm,β=100.053(5)°,V=2.1571(3)nm^3,Z=4。最后的一致性因子R=0.038。磁性研究表明,该化合物在低温下表现出反铁磁性质。测定了化合物的UV-vis-NIR和IR光谱,进行了分析和指认。 相似文献
6.
7.
报道了四齿配位的六次甲基四胺(hmt)与Ag(Ⅰ)形成的三维非穿插网状结构配合物[Ag2(μ4-hmt)(μ3-oga)]·3H2O(1)和[Ag2(μ4-hmt)(μ3-mpa)]·3H2O(2)(oga=2,2'-氧合二乙酸根,mpa=1,3-苯二甲酸根)的合成与结构,标题配合物都是具有六边形框架的蜂窝状三维非穿插网状结构,而包含在其中的二羧酸根均以单齿-双齿的配位形式出现,配合物1(C10H22Ag2N4O8)属单斜晶系,空间群P21/c,a=0.6366(3)nm,b=1.1736(7)nm,c=2.1998(12)nm,β=97.60(6)°,V=1.629(2)nm^3,Z=4,R1=0.0491,ωR2=0.1231。配合物2(C14H22Ag2N4O7)属单斜晶系,空间群P21/c,a=1.2944(4)nm,b=1.1998(7)nm,c=2.3491(14)nm,β=95.49(4)°,V=3.631(3)nm^3,Z=8,R1=0.0664,ωR2=0.1526. 相似文献
8.
9.
《Composite Interfaces》2013,20(3):213-221
The formation of higher order aggregates in aqueous media from naturally occurring surfactants (biosurfactants) and its mechanism have been studied. A liposome (vesicle), as a kind of artificial cell, is prepared according to a newly developed microencapsulation technique from phospholipids by mimicking the molecular structure of biomembranes. Secondly, the surface active properties of alkaline salts of spiculisporic acid depend on the kinds of alkali as its gegen ions; these have been studied for the purpose of a detailed understanding of vesicle formation of the alkylamine salts of spiculisporic acid in the binary system consisting of spiculisporates and water. Thirdly, the solution behavior of the ternary system of spiculisporates-oil-water is examined. Divalent cationic salts of spiculisporic acid formed oil-in-water (O/W) emulsion gels due to ionic-bonding network formation of spiculisporates around emulsified oil droplets and these are important for their gelling properties. These gelling systems may have potential to be O/W emulsion-type paints and safe fuels. 相似文献
10.
《Composite Interfaces》2013,20(4-6):433-446
Novel double network (DN) hydrogels were prepared via atom transfer radical polymerization (ATRP) of the first network using two different initiators, and followed by ultraviolet (UV) photo-initiated polymerization for the second network. The first networks of DN hydrogels were prepared by using two different initiators; one is a one-side initiator, and the other is a double-side initiator. The mechanical properties of various DN gels, such as water content and compressive strength, were studied. The network structure of the DN hydrogels was also characterized by dynamic light scattering. Thus, we demonstrated that the ATRP method is useful to control the network structure of the first network for DN gels. Extensive inhomogeneous structure of the first network was obtained by ATRP method and increased both the swelling degree and softness of DN gels. 相似文献