This thesis concerns the organic modification for the Mg–Al layered double hydroxides (LDHs), more specifically, the intercalation profile of the clay with a series of poly(oxypropylene)-bis-amidoacids (POAs). A number of important issues are included in the thesis. (1)The intercalation of LDH by the POP-amidoacids and the spatial enlargement of the gallery up to 94 Å d spacing. (2)The critical intercalation of using the POP2000-2MA-2Na for expanding the LDH gallery. It provides a new way for manipulating nanomaterials and control of polymer conformations in the LDH confinement. (3)The amphiphilic property of POP2000-2MA-Na/LDH hybrid and their ability of lowering the toluene/water interfacial intension to 4.5 mN/m at the critical micelle concentration (CMC) of 0.01 wt%. (4)Newly discovered mechanisms that involving hydrogen-bonding and chelation. The different clays such as LDH, MMT and Mica are compared for the generality of the new mechanisms. (5)A pH dependence of the organo-LDH hybrids that particularly occurrence of layered structure collapse at low pH environment. The implication is an application of organic encapsulation and control release that could be developed for such a clay hybrid. In addition, the hybrids also possess thermal-sensitivity, that allows a fine dispersion at low temperature (5~10 oC) and aggregation at higher temperature (＞20 oC).