A SNIFTIRS STUDY OF THE BENZOQUINONE-BENZOHYDROQUINONE REDOX SYSTEM IN AQUEOUS SOLUTION

The in-situ FTIR spectroscopic results show that a hemi-ketal in- termediate may be produced in the electroreduction of benzoquinone or electro- oxidation of benzohydroquinone,which provides a valuable insight into the me- chanism of the redox process.

吸附态和溶液相CO在Pt(110)电极上氧化过程的CV和in situ FTIRS 研究

应用电化学原位傅里叶变换红外反射光谱(in situ FTIRS)研究了酸性介质中Pt(110)单晶电极上吸附态CO(COad)和溶液相CO(COsol)的氧化过程.循环伏安测试表明,COsol氧化的峰电位比COad氧化的正移了168mV,其峰电流密度为后者的6.7倍.电化学原位红外光谱检测到CO主要生成线型的吸附态物种(COL),均匀分布在Pt(110)表面上.当溶液中不存在CO时,COL仅在电位高于0.15V才发生氧化.而且,该谱峰在其稳定吸附的电位区间内随电位增加蓝移,Stark系数为30cm-1·V-1;在COL发生氧化的电位区间,其谱峰强度随电位增加减小、峰位红移,线性变化率为-56cm-1·V-1.溶液中饱和CO时,原位红外光谱在-0.05V即可检测到CO2的存在,显示COL起始氧化的电位提前了200mV;电位高于-0.05V,该谱峰即发生红移,对应的线性变化率为-26.5cm-1·V-1.

淀粉及其改性产品对东鞍山细粒赤铁矿聚团——磁选的影响

针对东鞍山强磁选抛尾存在粒度小于20μm的微细粒铁矿物流失的问题,研究了不同种类淀粉及其改性产品对微细粒赤铁矿的选择性聚团效果,通过团聚—磁选试验确定了适宜的团聚药剂和用量,借助偏光显微镜和红外光谱等手段检测了药剂与赤铁矿和石英作用前后的形貌特征,最后通过研究高分子药剂的作用机理,论述了药剂的选择性和团聚效果。结果表明:在药剂用量为200 g/t时,交联玉米淀粉的选矿指标优于其他几种药剂,团聚药剂的加入能实现微细粒赤铁矿的选择性聚团,使铁精矿回收率提高2.13~3.94个百分点,选矿效率提高2.77~3.46个百分点,但由于赤铁矿被团聚后呈不规则絮状,在较大的聚团中会夹杂少量石英,导致磁选精矿铁品位略微降低。

Pt(100)电极上乙二醇吸附和氧化的原位时间分辨FTIRS研究

运用原位时间分辨FTIR反射光谱在分子水平研究乙二醇(EG)在Pt(100)单晶电极上吸附和氧化的动力学过程.在0.10V的时间分辨光谱中,当t>5s于2050cm?1附近出现的红外谱峰归因于EG解离吸附产物线性吸附态CO(COL)的红外吸收.红外光谱特征及其变化还证实,吸附态CO在Pt(100)表面呈均匀分布;当t>70s于2342cm?1附近出现CO2的不对称伸缩振动谱峰,指认为EG的直接氧化.研究发现随着电位升高,直接氧化逐渐成为主要反应途径,使解离吸附反应削弱.当电位高于0.40V以后,EG的氧化主要通过活性中间产物(–COOH)的途径进行.

乙二醛法脱水加固饱水榉木的机制研究和温度对性能的影响

乙二醛法是我国目前应用最广的脱水加固木质文物保护方法。采用傅里叶红外光谱(FTIR)、扫描电镜(SEM)和X射线衍射(XRD)等方法研究了乙二醛法脱水加固饱水榉木的试验过程,分析了脱水填充机制以及温度对脱水加固饱水榉木性能的影响规律。结果表明:乙二醛进入饱水榉木内部后交联聚合形成乙二醛聚合物直接作用于细胞内部,与细胞壁结合,支撑细胞加固细胞壁;试样的增重率升高,收缩率降低,色差明显增加。乙二醛法处理的温度升高(40℃相对于20℃)能提高乙二醛在榉木试样内部的扩散和浸入量,增加乙二醛聚合物在榉木内部的含量,提高试样增重率和弯曲强度,降低收缩率,有利于木材细胞形状的恢复和保持,缩短脱水加固工艺处理的时间,对表面活性剂的效果影响较轻。

基于Zeta电位和FTIR的中高阶煤与天然焦表面电性研究

通过对中高阶煤与天然焦表面电性的研究,可为揭示煤与天然焦电磁辐射机理,判断矿物可浮性和实现不同矿物分离提供基础。为深入了解中高阶煤与天然焦表面电性的差异,分析煤与天然焦表面官能团组成的差异,采用Zeta电位与FTIR分析方法对样品的表面特性进行综合分析,研究其表面电性与主要官能团的耦合关系。结果表明:①煤样的Zeta电位总体为负,天然焦样品的Zeta电位为正,同时随着变质程度的升高,样品表面负电官能团减少,Zeta电位增大;②脱灰后,样品表面负电官能团被破坏,煤与天然焦的Zeta电位均为正,且随着煤变质程度的增加,Zeta电位值减小;③羟基、COOH、C=O是影响Zeta电位的主要官能团,其中,C=O对Zeta电位的影响大于COOH;羟基-π是羟基结构中影响Zeta电位的主要官能团。研究成果为进一步探究煤与天然焦电磁辐射机理与浮选性提供基础。

废口罩纤维改性沥青的微观机理及老化性能分析

为有效高值再利用废弃口罩,本研究将废口罩纤维用作改性沥青的改性剂,利用红外光谱法分析废口罩纤维改性沥青的改性机理;运用原子力显微镜分析废口罩纤维改性沥青的微观形貌和老化机理。研究发现废口罩纤维与基质沥青具有很好的相容性,两者属于物理混合;废口罩纤维改性沥青比原基质沥青,“蜂窝结构”的数量和面积明显减少,粗糙度大幅降低,老化程度深的“蜂窝结构”变化幅度小,具有更好的抗老化性能。

低品位胶磷矿重选中矿浮选试验研究及重浮联合分选工艺

低品位胶磷矿经强化离心重选抛尾后得到了部分合格精矿,但其重选中矿的量仍然较大、品位仍然较高。为更充分地回收磷矿,基于对重选中矿的元素组成、矿物组成和嵌布情况分析,进行了浮选试验,并通过FTIR分析了反浮选的机理,最后将强化离心重选与浮选研究结果加以整合,确定采用重浮联合工艺。研究结果表明:重选中矿的P_(2)O_(5)品位为17.12%,主要矿物为磷灰石、白云石和石英,其细粒级解离相对较充分,但粗粒级(>0.074mm)仍有部分未解离。对重选中矿进行磨矿后浮选,正浮选中随着碳酸钠用量的增加,精矿品位逐渐上升、产率逐渐下降,随着捕收剂ZF-1用量的增加,精矿产率不断上升、品位不断下降,两者最佳用量分别为3.0,1.5kg/t,此时精矿产率和品位分别为67.81%和21.41%;反浮选中随着硫酸用量的增加,精矿产率不断下降,品位则先升高而后趋于稳定,随着捕收剂ZF-2用量的增加,精矿产率不断下降,但下降速度逐渐减小,精矿品位则先升高而后趋于平稳,两者最佳用量分别为5,0.9kg/t,此时精矿产率和品位分别为60.49%和26.97%。FTIR测试发现,最佳试验条件下ZF-2与胶磷矿未发生CO_(3)^(2-)明显吸附,而在白云石表面则发生了化学吸附,并对白云石本身的起到了良好的遮蔽效果,因而起到了反浮选脱除碳酸盐类矿物的目的。将重选与浮选整合,得到重浮联合的最终精矿和最终尾矿,产率和品位分别为39.06%和25.12%,60.94%和8.51%,整体效果良好。

运行复合绝缘子伞裙的力学特性及分子动力学模拟研究

为更精细化评估伞裙的微观结构和材料组成等因素对绝缘子宏观性能的影响,本文结合分子动力学模拟方法对不同运行年限的交流复合绝缘子进行力学性能、热失重、傅里叶红外光谱等测试。结果表明:随着运行年限的增加,绝缘子从低压端到高压端的伞裙抗撕裂强度、拉伸强度、断裂伸长率整体呈下降的趋势;伞裙外层有机硅和SiO2的含量大幅下降,可造成宏观力学性能下降;在电-热环境下,伞裙的体积模量、杨氏模量和泊松比随温度的升高整体呈下降的趋势,随电场强度的升高整体呈波动性;绝缘子高压端的电场畸变最严重,力学性能最差。本文建立的复合绝缘子伞裙老化的多尺度模型,可为评估绝缘子老化状态提供参考。

乌梢蛇醇溶蛋白质提取工艺优化及其指纹图谱表征

目的优化乌梢蛇醇溶蛋白质提取工艺,并对其进行指纹图谱表征。方法在单因素试验基础上,以料液比、乙醇体积分数、提取温度、提取时间为影响因素,提取率为评价指标,响应面法优化提取工艺,再进行FTIR、SDS-PAGE分析。结果最佳条件为料液比1∶43.15,乙醇体积分数46.35%,提取温度37.53℃,提取时间250min,提取率为0.4072%。醇溶蛋白质在4000~400cm-1波数范围内有10个吸收峰,并且其种类丰富,分子量在11.19~158.10kDa范围内,其中26.48、19.67kDa为指纹图谱主峰。结论本实验可为乌梢蛇开发利用及分析鉴定提供依据。

巯基改性蒙脱石对中国北方中碱性农田土壤镉钝化效果研究

农田土壤重金属污染是影响中国农产品环境质量安全的主要因素。钝化材料是修复农田重金属污染土壤的关键材料,研究开发出高效土壤重金属钝化材料,对于修复重金属污染农田和保障农产品食用安全非常重要。本文以蒙脱石为原材料,将巯基基团负载在其表面或层间制备巯基改性蒙脱石,借助X射线衍射(XRD)、扫描电镜(SEM)、透射电镜(TEM)和傅里叶红外光谱(FTIR)等技术表征巯基改性蒙脱石的特性,并开展室内土培试验,采用二乙三胺五乙酸浸提-火焰原子吸收分光光度法分析土壤镉的有效态,通过Tessier修正顺序七步提取法分析土壤镉的赋存形态。结果表明:蒙脱石经巯基改性后不仅新增了C-H、S-H共价键,而且增强了-OH和C=O化学键的活性,能与Cd2+发生巯基及羟基配位吸附。供试土壤添加巯基改性蒙脱石后,由于巯基配位吸附作用使土壤离子交换态镉转化为铁锰氧化物结合态,而增强的羟基配位吸附作用使其转化为碳酸盐结合态,结果使土壤中镉的赋存形态发生显著改变,离子交换态大幅减少,作物根系可吸收的土壤有效镉显著降低。添加1%、3%、5%巯基改性蒙脱石后,土壤有效镉分别降低21.92%、69.11%、82.90%;而作为对照组添加1%、3%、5%蒙脱石仅分别降低3.37%、1.80%、6.71%。蒙脱石经巯基改性后对土壤镉的钝化效果得到显著提升,土壤有效镉的降低幅度有随巯基改性蒙脱石添加量增加而提高的趋势。巯基改性蒙脱石对中国北方中碱性农田土壤镉的钝化效果显著,具有一定的参考应用价值。

环保绝缘介质C_(6)F_(12)O混合气体FTIR检测技术研究

环保绝缘介质C_(6)F_(12)O混合气体具有应用于中低压设备的潜力,因此C_(6)F_(12)O混合气体检测技术的研究具有非常重要的现实意义。文中基于红外吸收光谱提出了C_(6)F_(12)O混合气体定性定量检测技术。基于密度泛函理论,对C_(6)F_(12)O分子进行结构优化,仿真计算其振动频谱,与实验检测红外光谱进行对比。对体积分数标定模型的波段和特征量的选取进行了详细的研究,提出C_(6)F_(12)O混合气体相关绝缘设备的混合比和微量体积分数检测方案。结果表明,红外光谱的仿真结果与实验结果具有较好的一致性;不同体积分数的吸收峰有很好的线性关系,利用峰值作为特征值比峰面积建立的体积分数标定模型准确性和稳定性强。混合比检测时,以3 500~3 567 cm^(-1)波段的峰值作特征量建立模型的拟合度为0.999 57,检测误差在2%以内;微量检测时,以1 750~1 820 cm^(-1)波段的峰值作特征量建立模型的拟合度高达0.999 97,检测误差小于3.8%,建立的体积分数标定模型的稳定性、准确性较好。文中研究结果提供实验和仿真的C_(6)F_(12)O红外光谱信息,为C_(6)F_(12)O型气体绝缘设备提供FTIR检测技术,为C_(6)F_(12)O混合气体绝缘设备的混合比和微量体积分数检测提供了重要的理论支撑。

In situ time-resolved FTIRS study of adsorption and oxidation of ethylene glycol on Pt(100) electrode

Adsorption and oxidation of ethylene glyco(EG) on Pt(100) electrode were studied by in situ timeresolved FTIRS (TRFTIRS). The TRFTIR spectra recordedat 0.10 V illustrate that an IR band appears near 2050 cm?at t > 5 s, corresponding to linearly bonded CO formed indissociative adsorption of EG. The TRFTIR results haveconfirmed also that CO species are distributed uniformly onPt(100) surface. Another band appears near 2342 cm?1 at > 70 s, associating with IR absorption of CO2 produced inthe direct oxidation of EG. With the increase of electrodepotential, the direct oxidation of EG becomes gradually themain reaction. When the potential is above 0.40 V, the oxidation of EG occurs mainly via the reactive intermediates, i.especies containing –COOH determined by in situ TRFTIRS.

橡胶硫化促进剂PZ的合成工艺及微观结构表征

本研究采用改进后的一步法制备二甲基二硫代氨基甲酸锌(PZ),按照化学计量比m((二甲胺)):m((二硫化碳)):m((非离子表面活性剂)):m((氧化锌)):m((乙醇))=1.0:1.13:0.014:0.53:5.40,滴加氧化锌后搅拌时间20min,反应温度为20℃。非离子表面活性剂化学计量比m(吐温-20):m(辛基酚聚氧乙烯醚):m(脂肪酸聚氧乙烯酯):m(失水山梨醇酯)=4.0:2.0:1.0:1.0,搅拌时间为140min,得到粗品二甲基二硫代氨基甲酸锌(PZ)。经过精制后为白色粉末,对样品的熔点、灰分、加热减量、锌含量、筛余物及收率进行检测,均达到化工行业标准。利用现代仪器对样品进行检测分析,经过对红外图谱的分析,可以初步确定PZ含有C-H键、C-N键、C=S键、C-S键、S-Zn键。使用UV-vis确定紫外最大吸收峰在300 nm处,利用HPLC以甲醇和水为流动相在300nm处对0.001g/mL的样品溶液进行检测,结果显示2个明显吸收峰,分析为杂质和PZ,PZ纯度为96.3%。XRD图谱分析表明PZ的晶胞参数。通过GC-MS测定3.38min、8.11min出现明显的色谱峰,分别由溶剂甲醇和PZ产生。通过^(1)H-NMR确定促进剂PZ中氢原子的数目为12,和PZ分子式C_(6)H_(12)N_(2)S_(4)Zn相吻合,这为确定其结构和开拓应用范围提供了实验依据和基础实验数据。

复合热稳定剂研制及不溶性硫磺规模化生产的应用

不溶性硫磺(IS90)是一种高效橡胶硫化促进剂,主要用于制子午线轮胎,其具有的性质能够使钢丝和橡胶更好地黏合在一起,防止胶料喷霜。普通硫磺形成不溶性硫磺主要是通过硫磺遇到高温时,受热激发,S8环双端链打开,形成双端带有自由基的长链,长链经过聚合生成长链聚合硫,再经过淬冷得到不溶性的硫磺。本研究探究了气化一步法制备不溶性硫磺IS90的工艺技术,将液态硫磺电加热升温到500℃,添加5%复合热稳定剂,聚合形成线型不溶性硫磺,进行分离、过滤、干燥、研磨得到粉末不溶性硫磺,再充油,得到充油型不溶性硫磺。本文对复合热稳定剂和不溶性硫磺样品进行FTIR、DSC、XRD、TEM检测,解释复合热稳定剂的作用机理,不溶性硫磺改性热稳定性得到明显改善,可以替代进口。

Semi-quantitative analysis of the structural evolution of mesophase pitch-based carbon foams by Raman and FTIR spectroscopy

Graphitized carbon foams(GFms)were prepared using mesophase pitch(MP)as a raw material by foaming(450℃),pre-oxidation(320℃),carbonization(1000℃)and graphitization(2800℃).The differences in structure and properties of GFms prepared from different MP precursors pretreated by ball milling or liquid phase extraction were investigated and compared,and semi-quantitative calculations were conducted on the Raman and FTIR spectra of samples at each preparation stage.Semi-quantitat-ive spectroscopic analysis provided detailed information on the structure and chemical composition changes of the MP and GFm de-rived from it.Combined with microscopic observations,the change from precursor to GFm was analyzed.The results showed that ball milling concentrated the distribution of aromatic molecules in the pitch,which contributed to uniform foaming to give a GFm with a uniform pore distribution and good properties.Liquid phase extraction helped remove light components while retaining large aromatics to form graphitic planes with the largest average size during post-treatment to produce a GFm with the highest degree of graphitization and the fewest open pores,giving the best compression resistance(2.47 MPa),the highest thermal conductivity(64.47 W/(m·K))and the lowest electrical resistance(13.02μΩ·m).Characterization combining semi-quantitative spectroscopic ana-lysis with microscopic observations allowed us to control the preparation of the MP-derived GFms.

Surface activation of viscose textiles via air,argon,and oxygen dielectric barrier discharge plasma:influence of peak voltage

This paper discusses the use of atmospheric pressure dielectric barrier discharge(DBD)plasma treatment to enhance the surface qualities of viscose fabrics.The study explores the effects of different plasma gases,discharge voltages,and exposure times on the treated fabrics.The findings emphasize the importance of optimizing the plasma's peak voltage to achieve the desired surface treatment outcomes.The document also presents data on colour strength,wettability,colour fastness,and tensile strength of the treated fabrics,as well as scanning electron microscopy(SEM)analysis of surface morphology and chemical analysis using fouriertransition infrared spectroscopy(FTIR)and energy dispersive X-ray(EDX).The results show that treatment at a peak voltage of 11.83 k V is more efficient,except for the tensile strength which is enhanced at a peak voltage of 8.92 k V.The oxygen plasma treatment significantly improves the colour strength,which exhibits an increase from 11 to 18.The intensified colour was attributed to the significant influence of electrostatic interactions between the charged hydroxyl groups of the oxygen plasma treated viscose textiles and the dye molecules,which enhance the printability.The oxygen DBD plasma exhibits a higher ability to enhance the properties of textiles when compared to air and argon plasmas.This study presents a sustainable,economical,secure,and ecologically friendly approach to explore new fabrics for specific uses.

Efficient and stable PtFe alloy catalyst for electrocatalytic methanol oxidation with high resistance to CO

Direct methanol fuel cells(DMFC) are widely considered to be an ideal green energy conversion device but their widespread applications are limited by the high price of the Pt-based catalysts and the instability in terms of surface CO toxicity in long-term operation.Herein,the PtFe alloy nanoparticles(NPs) with small particle size(~4.12 nm) supported on carbon black catalysts with different Pt/Fe atomic ratios(Pt_(1)Fe_(2)/C,Pt_(3)Fe_(4)/C,Pt_(1)Fe_(1)/C,and Pt_(2)Fe_(1)/C) are successfully prepared for enhanced anti-CO poisoning during methanol oxidation reaction(MOR).The optimal atomic ratio of Pt/Fe for the MOR is 1:2,and the mass activity of Pt_(1)Fe_(2)/C(5.40 A mg_(Pt)^(-1)) is 13.5 times higher than that of conventional commercial Pt/C(Pt/C-JM)(0.40 A mg_(Pt)^(-1)).The introduction of Fe into the Pt lattice forms the PtFe alloy phase,and the electron density of Pt is reduced after forming the PtFe alloy.In-situ Fourier transform infrared results indicate that the addition of oxyphilic metal Fe has reduced the adsorption of reactant molecules on Pt during the MOR.The doping of Fe atoms helps to desorb toxic intermediates and regenerate Pt active sites,promoting the cleavage of C-O bonds with good selectivity of CO_(2)(58.1%).Moreover,the Pt_(1)Fe_(2)/C catalyst exhibits higher CO tolerance,methanol electrooxidation activity,and long-term stability than other Pt_(x)Fe_(y)/C catalysts.

Maillard反应前体物质参与木质素微生物转化产物的FTIR光谱特性

腐殖质(HS)是由各类前体物质缩聚而成,前体物质是调控HS形成的关键。Maillard反应前体物质能否对木质素转化、HS形成有促进作用有待验证。鉴于此,采用液体摇瓶培养法,以木质素培养液为研究对象,通过添加邻苯二酚、葡萄糖和甘氨酸的单一及组合溶液,启动120 d的液体摇瓶培养,采用离心法收集上清液(细胞代谢产物)和沉淀(菌体残留物),分析两者性质并深入研究菌体残留物FTIR的光谱特性,系统评价各前体物质对木质素向HS转化的贡献。结果表明:(1)在木质素培养液中添加甘氨酸,历经液体摇瓶培养更有利于细胞代谢产物有机分子的缩合,使其结构趋于复杂,而邻苯二酚参与的4个处理及单独添加葡萄糖更易促进细胞代谢产物的降解,使其分子结构更加简单。与作为空白对照(CK)的无菌去离子水相比,外源添加Maillard反应前体物质能够促进细胞代谢产物矿化,使总有机碳(total organic carbon,TOC)含量下降,单一添加邻苯二酚能够使细胞代谢产物TOC含量始终高于其他处理;(2)添加Maillard反应前体物质可显著提升木质素微生物转化形成菌体残留物的回收率,单一添加邻苯二酚的菌体残留物回收率提升幅度最大,而邻苯二酚、葡萄糖和甘氨酸三者组合溶液对菌体残留物回收率的提升幅度最小,葡萄糖和甘氨酸的组合溶液使菌体残留物回收率在整个培养期间始终处于最高水平。添加Maillard反应前体物质使菌体残留物TOC含量的增加幅度小于CK,尽管如此,培养结束时,邻苯二酚参与的4个处理、葡萄糖和甘氨酸组合溶液的添加使菌体残留物TOC含量显著高于CK;(3)木质素经微生物转化形成的菌体残留物拥有羟基O—H、不对称脂族—CH_(3)、对称脂族—CH_(2)—、芳香碳C C及多糖类物质,与土壤胡敏酸有着相似的FTIR特征,但其分子缩合度尚无法达到土壤胡敏酸的复杂程度。各处理在完成培养后,菌体残留物中的羟基含量有着不同程度增加,而多糖含量有所下降,单一甘氨酸以及葡萄糖和甘氨酸组合溶液的添加使菌体残留物的脂族化程度提高,而邻苯二酚参与的4个处理及单独添加葡萄糖可使菌体残留物中的芳香碳比例进一步提高。综上,添加Maillard反应前体物质可促进细胞代谢产物矿化,使TOC含量下降、提高菌体残留物回收率,同时使其羟基含量增加、多糖含量降低,不同前体物质对菌体残留物脂族化和芳香化的影响规律不同,邻苯二酚参与的4个处理及单一添加葡萄糖可使菌体残留物中的芳香碳比例提高。

A Comprehensive Analysis of the Thermo-Chemical Properties of Sudanese Biomass for Sustainable Applications

The chemical composition and thermal properties of natural fibers are the most critical variables that determine the overall properties of the fibers and influence their processing and use in different sustainable applications,such as their conversion into bioenergy and biocomposites.Their thermal and mechanical properties can be estimated by evaluating the content of cellulose,lignin,and other extractives in the fibers.In this research work,the chemical composition and thermal properties of three fibers,namely bagasse,kenaf bast fibers,and cotton stalks,were evaluated to assess their potential utilization in producing biocomposites and bioenergy materials.The chemical composition analysis followed the Technical Association of the Pulp and Paper Industry Standards(TAPPI)methods.The total phenol content was quantified using the Folin-Ciocalteu method,while Fourier Transform Infrared Spectroscopy(FTIR)was employed to assess the light absorption by the bonds.To evaluate thermal stability and higher heating values,Thermogravimetric Analysis(TGA),Differential Scanning Calorimetry(DSC),and bomb calorimetry were performed.The chemical analysis revealed that bagasse contained 50.6%cellulose and 21.6%lignin,kenaf bast fibers had 58.5%cellulose and 10%lignin,and cotton stalks exhibited 40.3%cellulose and 21.3%lignin.The FTIR curves demonstrated a notable similarity among the fibers.The TGA analysis showed degradation temperatures of 321°C for bagasse,354°C for kenaf bast fibers,and 289°C for cotton stalks.The DSC analysis revealed glass transition temperatures of 81°C for bagasse,66.3°C for cotton stalks,and 64.5°C for kenaf bast fibers.The higher heating values were measured as 17.3,16.6 and 17.1 MJ/kg for bagasse,kenaf bast fibers,and cotton stalks,respectively.The three fibers have a high potential for biocomposites and bioenergy material manufacturing.