功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2013年
20期
2985-2989,2995
,共6页
卢麒麟%黄彪%唐丽荣%林雯怡%陈学榕%陈燕丹
盧麒麟%黃彪%唐麗榮%林雯怡%陳學榕%陳燕丹
로기린%황표%당려영%림문이%진학용%진연단
巨菌草%纳米纤维素%响应面分析法%表征
巨菌草%納米纖維素%響應麵分析法%錶徵
거균초%납미섬유소%향응면분석법%표정
pennisetum sinese roxb%cellulose nanocrystalline%response surface methodology%characterization
以巨菌草(pennisetum sinese roxb)为原料,采用酸水解法制备了纳米纤维素(CNC),并应用响应面分析法对影响纳米纤维素得率的3个主要因素即硫酸浓度、温度、时间进行了优化。实验结果表明,利用Design-Expert的 Box-behnken 中心组合设计建立的二次多项式模型较显著,当硫酸浓度为51%,温度为60℃,时间为120min 时,纳米纤维素的得率达到最大值80%。制备的 CNC 呈棒状,直径约为20~30nm,长度100~200nm;XRD图谱表明CNC的结晶度较巨菌草显著提高;红外光谱表征显示,CNC 仍保持纤维素的基本结构。
以巨菌草(pennisetum sinese roxb)為原料,採用痠水解法製備瞭納米纖維素(CNC),併應用響應麵分析法對影響納米纖維素得率的3箇主要因素即硫痠濃度、溫度、時間進行瞭優化。實驗結果錶明,利用Design-Expert的 Box-behnken 中心組閤設計建立的二次多項式模型較顯著,噹硫痠濃度為51%,溫度為60℃,時間為120min 時,納米纖維素的得率達到最大值80%。製備的 CNC 呈棒狀,直徑約為20~30nm,長度100~200nm;XRD圖譜錶明CNC的結晶度較巨菌草顯著提高;紅外光譜錶徵顯示,CNC 仍保持纖維素的基本結構。
이거균초(pennisetum sinese roxb)위원료,채용산수해법제비료납미섬유소(CNC),병응용향응면분석법대영향납미섬유소득솔적3개주요인소즉류산농도、온도、시간진행료우화。실험결과표명,이용Design-Expert적 Box-behnken 중심조합설계건립적이차다항식모형교현저,당류산농도위51%,온도위60℃,시간위120min 시,납미섬유소적득솔체도최대치80%。제비적 CNC 정봉상,직경약위20~30nm,장도100~200nm;XRD도보표명CNC적결정도교거균초현저제고;홍외광보표정현시,CNC 잉보지섬유소적기본결구。
Cellulose nanocrystalline (CNC)was prepared from Pennisetum Sinese Roxb by hydrolysis with sul-furic acid.The effects of sulfuric acid concentration,reaction temperature and reaction time on the yield of CNC were optimized with response surface methodology.The mathematical model was established by using the De-sign-Expert software.The results showed that quadratic model was the best model to describe the relationship between the yield of CNC and the factors.With the sulfuric acid concentration of 5 1%,reaction temperature of 60℃ and the reaction time of 120min,the yield of CNC reached the highest value of 80% in the investigation. The prepared CNC was rod-like with the diameter of 20-30nm and the length of 100-200nm.The XRD spectra showed that the crystallinity of CNC was higher than pennisetum sinese roxb fiber.The infrared spectra showed that CNC had similar structure with pennisetum sinese roxb fiber.