Agricultural Science and Engineering School, Liaocheng University, Liaocheng 252000, China.
Agricultural Science and Engineering School, Liaocheng University, Liaocheng 252000, China.
Int J Biol Macromol. 2024 Apr;264(Pt 2):130707. doi: 10.1016/j.ijbiomac.2024.130707. Epub 2024 Mar 7.
The aim of the study was to develop soybean polysaccharide (SSPS) -carboxylated nanocellulose (CNC) blending films with enhanced mechanical and barrier properties to be used as a tear-free and edible packaging materials. The films were formed by casting method, with CNC as the strengthening unit and glycerol as the plasticizer. The effect of CNC on structural and physical performances of the SSPS-CNC films were studied. SEM indicated that the film will stratify with excess CNC (10 %), but the film remains intact and compact. Incorporation of CNC into SSPS films did not change peak position in the XRD pattern significantly. Hydrogen bonds among SSPS, glycerol and CNC were indicated by the FTIR spectra. The compounding of CNC greatly lessened the light transmittance and hydrophilicity (CA increased from 55.42° to 70.67°), but perfected the barrier (WVP decreased from 3.595 × 10 to 2.593 × 10 g m s Pa) and mechanical properties (TS improved from 0.806 to 1.317 MPa). The results of packaging dehydrated vegetable indicated that the SSPS-8CNC film can effectively inhibit the packaged cabbage absorption water vapor. As a consequence, SSPS film perfected by CNC is hopeful to pack dehydrated vegetables in instant foods.
本研究旨在开发具有增强的机械和阻隔性能的大豆多糖(SSPS)-羧基纳米纤维素(CNC)共混膜,用作无泪和可食用的包装材料。通过浇铸法形成膜,其中 CNC 用作增强单元,甘油用作增塑剂。研究了 CNC 对 SSPS-CNC 膜的结构和物理性能的影响。SEM 表明,当 CNC 过量(10%)时,膜会分层,但膜仍然完整且致密。CNC 的加入并未使 XRD 图谱中的峰位发生明显变化。FTIR 光谱表明 SSPS、甘油和 CNC 之间存在氢键。CNC 的复合极大地降低了透光率和亲水性(CA 从 55.42°增加到 70.67°),但完善了阻隔性能(WVP 从 3.595×10 减少到 2.593×10 g m s Pa)和机械性能(TS 从 0.806 增加到 1.317 MPa)。包装脱水蔬菜的结果表明,SSPS-8CNC 膜可有效抑制包装白菜吸收水蒸气。因此,通过 CNC 完善的 SSPS 膜有望包装速食中的脱水蔬菜。
