波谱学杂志
波譜學雜誌
파보학잡지
CHINESE JOURNAL OF MAGNETIC RESONANCE
2015年
3期
470-480
,共11页
仲氢诱导极化(PHIP)%PASADENA%ALTADENA%液体磁共振%加氢反应
仲氫誘導極化(PHIP)%PASADENA%ALTADENA%液體磁共振%加氫反應
중경유도겁화(PHIP)%PASADENA%ALTADENA%액체자공진%가경반응
parahydrogen induced polarization (PHIP)%PASADENA%ALTADENA%solution NMR%hydrogenation reaction
仲氢诱导极化(Parahydrogen Induced Polarization, PHIP)技术能够极大地增强核磁共振信号,在化学、生物、医学等多方面具有广阔的应用前景。但在实际应用中,通过PHIP技术获得的核磁共振(NMR)信号增强倍数往往受到实际反应条件的影响。该文中以己炔的加氢反应为例,考察了氢气通入方式、反应温度和反应压强对PHIP实验中核磁共振信号增强倍数的影响。
仲氫誘導極化(Parahydrogen Induced Polarization, PHIP)技術能夠極大地增彊覈磁共振信號,在化學、生物、醫學等多方麵具有廣闊的應用前景。但在實際應用中,通過PHIP技術穫得的覈磁共振(NMR)信號增彊倍數往往受到實際反應條件的影響。該文中以己炔的加氫反應為例,攷察瞭氫氣通入方式、反應溫度和反應壓彊對PHIP實驗中覈磁共振信號增彊倍數的影響。
중경유도겁화(Parahydrogen Induced Polarization, PHIP)기술능구겁대지증강핵자공진신호,재화학、생물、의학등다방면구유엄활적응용전경。단재실제응용중,통과PHIP기술획득적핵자공진(NMR)신호증강배수왕왕수도실제반응조건적영향。해문중이기결적가경반응위례,고찰료경기통입방식、반응온도화반응압강대PHIP실험중핵자공진신호증강배수적영향。
Parahydrogen-induced polarization (PHIP) can enhance NMR signals significantly, and thus has shown great prospects in chemistry, biology, medical science and so on. In practice, the amplitude of NMR signal enhancement by PHIP, however, is often limited by experiment setup. In this work, it was demonstrated the signal enhancement in PHIP experiments can be optimized by choosing appropriate experimental conditions, including temperature, pressure and the way to introduce parahydrogen into the PHIP experiment. The reaction system of 1-hexyne and [Rh(COD)(dppb)]BF4 was chosen as the example to illustrate how to optimize experimental conditions in PHIP experiments.
