绾ょ淮鏉愭枡鍖呮嫭澶╃劧绾ょ淮鍜屽悎鎴愮氦缁淬€傜氦缁存潗鏂欏彲鐢ㄤ簬鍚勭澶嶅悎鏉愭枡涓鍔犲鍚堟潗鏂欑殑寮哄害锛岃€屽己搴︾殑澶у皬鍙堜笌琛ㄩ潰鑳介噺鎭伅鐩稿叧銆傚洜姝よ〃闈㈣兘鐨勮〃寰佷笉瀹瑰拷瑙嗐€傝〃闈㈣兘甯镐娇鐢ㄧ殑琛ㄥ緛鏂规硶鏄弽姘旂浉鑹茶氨娉曘€傝嫳鍥键/span>SMS浠櫒鍏徃寮€鍙戠殑鍙嶆皵鐩歌壊璋辨硶琛ㄩ潰鑳藉垎鏋愪华(IGC-sea)鏄涓変唬鍏堣繘浠櫒銆傛槸鍖哄埆浜庡弽姘旂浉鑹茶氨浠紝涓撻棬鐢ㄤ簬琛ㄩ潰鑳借〃寰佺殑浠櫒銆傚畠涓嶄粎鍙互缁欏埌琛ㄩ潰鑳借壊鏁e垎閲忥紝鏋佹€у垎閲忓拰鎬昏兘閲忥紝杩樿兘缁欏埌琛ㄩ潰鑳介殢瑕嗙洊搴︾殑鍙樺寲瓒嬪娍锛屽绾ょ淮琛ㄩ潰鑳戒綔鍏呭垎鐨勮〃寰併€侟/span>
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[1]Physicochemical surface properties of bacterial cellulose/polymethacrylate nanocomposites: an approach by inverse gas chromatography锛圏/span>2019锛堻/span>
[2]Investigation of surface properties of physico-chemically modified natural fibres using inverse gas chromatography (2011锛堻/span>
[3]Inverse gas chromatography for natural fibre characterisation: dispersive and acid-base distribution profiles of the surface energy.(2017)
[4]Inverse gas chromatography for natural fibre characterisation: dispersive and acid-base distribution profiles of the surface energy(2017)
[5]Surface Properties and Reactivity of Phosphate-based Glasses by Inverse Gas Chromatography and Dynamic Vapour Sorption(2018)
[6]Surface Properties and Reactivity of Phosphate-based Glasses by Inverse Gas Chromatography and Dynamic Vapour Sorption (2015)
[7]Surface properties of xylan and xylan derivatives measured by inverse gas chromatography (2016)
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