Uniform signal enhancement in MAS NMR of half-integer quadrupolar nuclei using quadruple-frequency sweeps

Qiang Wang; Julien Trébosc; Yixuan Li; Oliver Lafon; Shaohui Xin; Jun Xu; Bingwen Hu; Ningdong Feng; Jean Paul Amoureux; Feng Deng

doi:10.1016/j.jmr.2018.06.005

Uniform signal enhancement in MAS NMR of half-integer quadrupolar nuclei using quadruple-frequency sweeps

Qiang Wang
, Julien Trébosc
, Yixuan Li
, Oliver Lafon
, Shaohui Xin
, Jun Xu
, Bingwen Hu
, Ningdong Feng
, Jean Paul Amoureux^*
, Feng Deng

^*此作品的通讯作者

物理与电子科学学院

CAS - Innovation Academy for Precision Measurement Science and Technology
Université de Lille
East China Normal University
Institut universitaire de France
Bruker Corporation

科研成果: 期刊稿件 › 文章 › 同行评审

12 引用（Scopus）

摘要

We introduce two MAS schemes that allow manipulating the satellite-transition (ST) populations of half-integer quadrupolar nuclei, and which both exhibit improved robustness to the quadrupolar coupling constant (C_Q). These schemes, called quadruple frequency sweep (QFS) or quadruple WURST (QWURST) are the sums of two DFS or four WURST to efficiently invert the ST populations of nuclei subject to large or small quadrupole interactions, simultaneously. These quadruple sweeps methods only require 6% more rf-power than the double sweeps ones. We demonstrate, both numerically and experimentally, that the QFS and QWURST schemes benefit from robustness to C_Q and rf amplitude and offset and hence achieve uniform enhancement of the CT signal for ²⁷Al nuclei subject to different quadrupole interactions. Although the version of QFS with repetitive accumulation can achieve higher enhancement in the S/N of the ²⁷Al MAS spectrum, the final sensitivity gains mainly depend on the longitudinal relaxation time of different ²⁷Al sites. We also confirm that these schemes provide an improved acceleration of the ³¹P-{²⁷Al} coherence transfer in PT-J-HMQC experiments.

源语言	英语
页（从-至）	92-103
页数	12
期刊	Journal of Magnetic Resonance
卷	293
DOI	https://doi.org/10.1016/j.jmr.2018.06.005
出版状态	已出版 - 8月 2018

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@article{9f83588a21604b279005d26f4bef9176,

title = "Uniform signal enhancement in MAS NMR of half-integer quadrupolar nuclei using quadruple-frequency sweeps",

abstract = "We introduce two MAS schemes that allow manipulating the satellite-transition (ST) populations of half-integer quadrupolar nuclei, and which both exhibit improved robustness to the quadrupolar coupling constant (CQ). These schemes, called quadruple frequency sweep (QFS) or quadruple WURST (QWURST) are the sums of two DFS or four WURST to efficiently invert the ST populations of nuclei subject to large or small quadrupole interactions, simultaneously. These quadruple sweeps methods only require 6\% more rf-power than the double sweeps ones. We demonstrate, both numerically and experimentally, that the QFS and QWURST schemes benefit from robustness to CQ and rf amplitude and offset and hence achieve uniform enhancement of the CT signal for 27Al nuclei subject to different quadrupole interactions. Although the version of QFS with repetitive accumulation can achieve higher enhancement in the S/N of the 27Al MAS spectrum, the final sensitivity gains mainly depend on the longitudinal relaxation time of different 27Al sites. We also confirm that these schemes provide an improved acceleration of the 31P-\{27Al\} coherence transfer in PT-J-HMQC experiments.",

keywords = "Central transition, Half-integer quadrupolar nuclei, Quadruple-frequency sweeps, Satellite transitions, Signal enhancement",

author = "Qiang Wang and Julien Tr{\'e}bosc and Yixuan Li and Oliver Lafon and Shaohui Xin and Jun Xu and Bingwen Hu and Ningdong Feng and Amoureux, \{Jean Paul\} and Feng Deng",

note = "Publisher Copyright: {\textcopyright} 2018",

year = "2018",

month = aug,

doi = "10.1016/j.jmr.2018.06.005",

language = "英语",

volume = "293",

pages = "92--103",

journal = "Journal of Magnetic Resonance",

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T1 - Uniform signal enhancement in MAS NMR of half-integer quadrupolar nuclei using quadruple-frequency sweeps

AU - Wang, Qiang

AU - Trébosc, Julien

AU - Li, Yixuan

AU - Lafon, Oliver

AU - Xin, Shaohui

AU - Xu, Jun

AU - Hu, Bingwen

AU - Feng, Ningdong

AU - Amoureux, Jean Paul

AU - Deng, Feng

PY - 2018/8

Y1 - 2018/8

N2 - We introduce two MAS schemes that allow manipulating the satellite-transition (ST) populations of half-integer quadrupolar nuclei, and which both exhibit improved robustness to the quadrupolar coupling constant (CQ). These schemes, called quadruple frequency sweep (QFS) or quadruple WURST (QWURST) are the sums of two DFS or four WURST to efficiently invert the ST populations of nuclei subject to large or small quadrupole interactions, simultaneously. These quadruple sweeps methods only require 6% more rf-power than the double sweeps ones. We demonstrate, both numerically and experimentally, that the QFS and QWURST schemes benefit from robustness to CQ and rf amplitude and offset and hence achieve uniform enhancement of the CT signal for 27Al nuclei subject to different quadrupole interactions. Although the version of QFS with repetitive accumulation can achieve higher enhancement in the S/N of the 27Al MAS spectrum, the final sensitivity gains mainly depend on the longitudinal relaxation time of different 27Al sites. We also confirm that these schemes provide an improved acceleration of the 31P-{27Al} coherence transfer in PT-J-HMQC experiments.

AB - We introduce two MAS schemes that allow manipulating the satellite-transition (ST) populations of half-integer quadrupolar nuclei, and which both exhibit improved robustness to the quadrupolar coupling constant (CQ). These schemes, called quadruple frequency sweep (QFS) or quadruple WURST (QWURST) are the sums of two DFS or four WURST to efficiently invert the ST populations of nuclei subject to large or small quadrupole interactions, simultaneously. These quadruple sweeps methods only require 6% more rf-power than the double sweeps ones. We demonstrate, both numerically and experimentally, that the QFS and QWURST schemes benefit from robustness to CQ and rf amplitude and offset and hence achieve uniform enhancement of the CT signal for 27Al nuclei subject to different quadrupole interactions. Although the version of QFS with repetitive accumulation can achieve higher enhancement in the S/N of the 27Al MAS spectrum, the final sensitivity gains mainly depend on the longitudinal relaxation time of different 27Al sites. We also confirm that these schemes provide an improved acceleration of the 31P-{27Al} coherence transfer in PT-J-HMQC experiments.

KW - Central transition

KW - Half-integer quadrupolar nuclei

KW - Quadruple-frequency sweeps

KW - Satellite transitions

KW - Signal enhancement

UR - https://www.scopus.com/pages/publications/85048780247

U2 - 10.1016/j.jmr.2018.06.005

DO - 10.1016/j.jmr.2018.06.005

M3 - 文章

C2 - 29909082

AN - SCOPUS:85048780247

SN - 1090-7807

VL - 293

SP - 92

EP - 103

JO - Journal of Magnetic Resonance

JF - Journal of Magnetic Resonance

ER -

Uniform signal enhancement in MAS NMR of half-integer quadrupolar nuclei using quadruple-frequency sweeps

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