功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2012年
6期
760-763
,共4页
沈强%柳金花%庄琳%王正岭%曹国荣%邱凤仙
瀋彊%柳金花%莊琳%王正嶺%曹國榮%邱鳳仙
침강%류금화%장림%왕정령%조국영%구봉선
偶氮聚氨酯%热光系数%色散%双折射
偶氮聚氨酯%熱光繫數%色散%雙摺射
우담취안지%열광계수%색산%쌍절사
azo polyurethane%thermo-optic coefficient%dispersion%birefringence
以对硝基苯胺、亚硝酸钠和S(-)-a-甲基苄胺等为原料,通过重氮、偶合反应制备了新型含手性碳原子偶氮聚氨酯材料,利用紫外一可见光谱(UV—Vis)对该材料进行了吸收谱表征。测定了材料在不同溶剂中的溶解性;同时测定材料的熔点,其值为165℃,结果表明该材料具有较高的热稳定性;研究了手性碳原子偶氮聚氨酯膜材料的机械性能(如抗拉强度、硬度等),采用衰减全反射法(ATR)测得不同温度、不同波长及不同模式(TE,TM)下的折射率和不同模式下的热光系数,结果表明该材料的折射率随着温度的升高而下降,相对于一般无机材料具有较大的热光系数;同时该材料具有明显的双折射现象。由Sellmeyer方程得到了该材料的Sellmeyer系数及色散曲线。这对进一步研究新型数字热光和全光开关等光电子器件具有重要意义。
以對硝基苯胺、亞硝痠鈉和S(-)-a-甲基芐胺等為原料,通過重氮、偶閤反應製備瞭新型含手性碳原子偶氮聚氨酯材料,利用紫外一可見光譜(UV—Vis)對該材料進行瞭吸收譜錶徵。測定瞭材料在不同溶劑中的溶解性;同時測定材料的鎔點,其值為165℃,結果錶明該材料具有較高的熱穩定性;研究瞭手性碳原子偶氮聚氨酯膜材料的機械性能(如抗拉彊度、硬度等),採用衰減全反射法(ATR)測得不同溫度、不同波長及不同模式(TE,TM)下的摺射率和不同模式下的熱光繫數,結果錶明該材料的摺射率隨著溫度的升高而下降,相對于一般無機材料具有較大的熱光繫數;同時該材料具有明顯的雙摺射現象。由Sellmeyer方程得到瞭該材料的Sellmeyer繫數及色散麯線。這對進一步研究新型數字熱光和全光開關等光電子器件具有重要意義。
이대초기분알、아초산납화S(-)-a-갑기변알등위원료,통과중담、우합반응제비료신형함수성탄원자우담취안지재료,이용자외일가견광보(UV—Vis)대해재료진행료흡수보표정。측정료재료재불동용제중적용해성;동시측정재료적용점,기치위165℃,결과표명해재료구유교고적열은정성;연구료수성탄원자우담취안지막재료적궤계성능(여항랍강도、경도등),채용쇠감전반사법(ATR)측득불동온도、불동파장급불동모식(TE,TM)하적절사솔화불동모식하적열광계수,결과표명해재료적절사솔수착온도적승고이하강,상대우일반무궤재료구유교대적열광계수;동시해재료구유명현적쌍절사현상。유Sellmeyer방정득도료해재료적Sellmeyer계수급색산곡선。저대진일보연구신형수자열광화전광개관등광전자기건구유중요의의。
A new azo polyurethane with chiral atoms was synthesized with 4-nitroaniline, sodium nitrite and S (-)-a-methylbenzylamine by diazo coupling reaction. The absorption spectrum of this novel azo polyurethane with chiral atoms was characterized by UV-Vis spectroscopy. The solubility was measured with different kinds of organic solution. And the thermal property was characterized by X-5 micro melting point apparatus, by which the melting point is 165℃. This result show that the new azo polyurethane had excellent thermal stabili- ty. Mechanical properties of the novel polyurethane with chiral atoms, such as tensile strength and hardness, were also studied. The refractive index of the polymer waveguide thin film was detected by attenuated total reflection (ATR) method at different temperature, wavelength and mode of the incident light. The results show that the refractive index of the material decreases with the temperature rising. Compared with inorganic materi- als, the new material has a bigger thermo-optic coefficient. At the same time, the dispersion coefficient was cal- culated by the Sellmeyer equation. The thermo-optical coefficients of the material for TM (transversal magnet- ic) and TE (transversal electric) modes were also studied and they are obviously different, which can be used to design and develop the novel thermo-optic switch and even all-optical switch in the future.
