Zeidler scite author profile

Zeidler

5Publications

2Citation Statements Received

13Citation Statements Given

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Affiliations

University of California, Los Angeles, RWTH Aachen University, NRU Präzisionstechnologie (Germany)

Publications

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Oxygen-17-induced proton relaxation rates for alcohols and alcohol solutions

Farrar

Wendt

Zeidler

1999

J. Braz. Chem. Soc.

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O uso de amostras de álcoois enriquecidas com 17 O, para medir o tempo de correlação do vetor internuclear OH funciona bem quando o próton da hidroxila sofre uma troca rápida. Para álcoois tais como metanol e etanol, a taxa de troca da hidroxila para amostras puras é relativamente lenta, mesmo à temperatura ambiente, podendo resultar em erros sistemáticos significativos se efeitos de troca lenta não forem considerados. Para trocas lentas do próton da hidroxila, 17 OH, o sinal é uma função relativamente complexa da razão de troca química do próton da hidroxila, do acoplamento de spin OH (cerca de 80 Hz para álcoois e água) e do tempo de relaxação para o oxigênio. A largura de linha do OH pode tornar-se tão grande, devido à relaxação escalar com o núcleo de oxigênio, que o sinal torna-se muito difícil de detectar. Para etanol puro enriquecido com 17 O, à temperatura ambiente, o tempo de relaxação do oxigênio é de aproximadamente 3,0 ms e a largura de linha do próton da hidroxila é maior do que 1000 Hz.The use of 17 O enriched samples of alcohols to measure the correlation time of the OH internuclear vector works well when the hydroxyl proton exchanges rapidly. For alcohols such as methanol and ethanol the hydroxyl exchange rate for neat samples is relatively slow even at room temperature and significant systematic errors result if slow exchange effects are not considered. For slow exchange the hydroxyl proton, 17 OH, signal is a relatively complex function of the chemical exchange rate of the hydroxyl proton, the OH spin coupling (about 80 Hz for alcohols and water) and the relaxation time for the oxygen. The OH linewidth can become so large due to scalar relaxation with the rapidly relaxing oxygen nucleus that the signal becomes very difficult to detect. For neat 17 O enriched ethanol at room temperature the oxygen relaxation time is about 3.0 ms and the hydroxyl proton linewidth is over 1000 Hz.

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Correlations between Air Trapping on HRCT and Asthma Symptoms in Mild Asthmatics.

Zeidler¹,

Kleerup

Kim

et al. 2009

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Monitoring and Control of the Smelt‐Condition of Materials with High Melting Temperature

Zeidler

Zimmermann

Saxby

et al. 2000

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0667 Wrist Actigraphy in the Assessment of Hypersomnia

Zeidler¹,

Oldenkamp

Cruz

et al. 2017

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1233 Recurrent Atrial Fibrillation Responsive to CPAP

Padilla

Bindra

Zeidler

et al. 2017

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Zeidler

Oxygen-17-induced proton relaxation rates for alcohols and alcohol solutions

Correlations between Air Trapping on HRCT and Asthma Symptoms in Mild Asthmatics.

Monitoring and Control of the Smelt‐Condition of Materials with High Melting Temperature

0667 Wrist Actigraphy in the Assessment of Hypersomnia

1233 Recurrent Atrial Fibrillation Responsive to CPAP

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