[HTML][HTML] Multi-nuclear magnetic resonance spectroscopy: State of the art and future directions
Y Wei, C Yang, H Jiang, Q Li, F Che, S Wan, S Yao… - Insights into …, 2022 - Springer
With the development of heteronuclear fluorine, sodium, phosphorus, and other probes and
imaging technologies as well as the optimization of magnetic resonance imaging (MRI) …
imaging technologies as well as the optimization of magnetic resonance imaging (MRI) …
Multi-nuclear magnetic resonance spectroscopy: state of the art and future directions
Y Wei, C Yang, H Jiang, Q Li, F Che, S Wan… - Insights into …, 2022 - search.proquest.com
With the development of heteronuclear fluorine, sodium, phosphorus, and other probes and
imaging technologies as well as the optimization of magnetic resonance imaging (MRI) …
imaging technologies as well as the optimization of magnetic resonance imaging (MRI) …
Multi-nuclear magnetic resonance spectroscopy: state of the art and future directions
Y Wei, C Yang, H Jiang, Q Li, F Che… - Insights into …, 2022 - pubmed.ncbi.nlm.nih.gov
With the development of heteronuclear fluorine, sodium, phosphorus, and other probes and
imaging technologies as well as the optimization of magnetic resonance imaging (MRI) …
imaging technologies as well as the optimization of magnetic resonance imaging (MRI) …
Multi-nuclear magnetic resonance spectroscopy: state of the art and future directions.
Y Wei, C Yang, H Jiang, Q Li, F Che, S Wan… - Insights into …, 2022 - europepmc.org
With the development of heteronuclear fluorine, sodium, phosphorus, and other probes and
imaging technologies as well as the optimization of magnetic resonance imaging (MRI) …
imaging technologies as well as the optimization of magnetic resonance imaging (MRI) …
Multi-nuclear magnetic resonance spectroscopy: state of the art and future directions.
Y Wei, C Yang, H Jiang, Q Li, F Che… - Insights into …, 2022 - search.ebscohost.com
With the development of heteronuclear fluorine, sodium, phosphorus, and other probes and
imaging technologies as well as the optimization of magnetic resonance imaging (MRI) …
imaging technologies as well as the optimization of magnetic resonance imaging (MRI) …
[HTML][HTML] Multi-nuclear magnetic resonance spectroscopy: state of the art and future directions
Y Wei, C Yang, H Jiang, Q Li… - Insights into …, 2022 - insightsimaging.springeropen.com
With the development of heteronuclear fluorine, sodium, phosphorus, and other probes and
imaging technologies as well as the optimization of magnetic resonance imaging (MRI) …
imaging technologies as well as the optimization of magnetic resonance imaging (MRI) …
[HTML][HTML] Multi-nuclear magnetic resonance spectroscopy: state of the art and future directions
Y Wei, C Yang, H Jiang, Q Li, F Che, S Wan… - Insights into …, 2022 - ncbi.nlm.nih.gov
With the development of heteronuclear fluorine, sodium, phosphorus, and other probes and
imaging technologies as well as the optimization of magnetic resonance imaging (MRI) …
imaging technologies as well as the optimization of magnetic resonance imaging (MRI) …
[PDF][PDF] Multi-nuclear magnetic resonance spectroscopy: state of the art and future directions
Y Wei, C Yang, H Jiang, Q Li, F Che, S Wan… - 2022 - insightsimaging.springeropen.com
With the development of heteronuclear fluorine, sodium, phosphorus, and other probes and
imaging technologies as well as the optimization of magnetic resonance imaging (MRI) …
imaging technologies as well as the optimization of magnetic resonance imaging (MRI) …