Organic thermochromic materials (e.g. hydrogels, conjugated polymers) are promising candidates for applications, such as energy-saving windows, temperature indicators and decoration items. Compared with the traditional thermochromic materials, liquid crystals (LC)/polymer composites are more advantageous in large-area manufacturing and facile processing. However, the effects of polymer micro-structures on the thermal-optical properties of these LC based thermochromic materials, which is crucial for both high mechanical strength and excellent optical performance, still remain unclear. To this end, herein a systematic investigation on the relationships between the polymer micro-frameworks and the thermal-optical properties is conducted for the first time based on a soft-matter composite of polymer/temperature-responsive liquid crystals, and finally the mechanical strength of the composite material is enhanced to be as high as similar to 110 N/cm(2), without compromising the modulation contrast, which enlightens new insights in regulating the optical-properties of novel soft-matter composite materials towards practical applications. (C) 2018 Elsevier Ltd. All rights reserved.