Difference between revisions of "Template:Article of the month"
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'''"[[Journal:Simultaneous quantification of 17 cannabinoids in cannabis inflorescence by liquid chromatography–mass spectrometry|Simultaneous quantification of 17 cannabinoids in cannabis inflorescence by liquid chromatography–mass spectrometry]]"''' | '''"[[Journal:Simultaneous quantification of 17 cannabinoids in cannabis inflorescence by liquid chromatography–mass spectrometry|Simultaneous quantification of 17 cannabinoids in cannabis inflorescence by liquid chromatography–mass spectrometry]]"''' | ||
With an increasing appreciation for the unique pharmacological properties associated with distinct, individual [[cannabinoid]]s of ''[[Cannabis sativa]]'', there is demand for accurate and reliable quantification for a growing number of them. Although recent methods are based on highly selective [[chromatography]]–[[mass spectrometry]] technology, most are limited to a few cannabinoids, while relying on unnecessarily sophisticated and expensive [[High-performance liquid chromatography|ultra-high-performance liquid chromatography]] and [[tandem mass spectrometry]]. Here we report an optimized, simple extraction method followed by a reliable and simple high-performance liquid chromatography (HPLC) method for separation. The detection is performed using a [[Time-of-flight mass spectrometry|time-of-flight mass spectrometer]] that is available in most natural products research laboratories | With an increasing appreciation for the unique pharmacological properties associated with distinct, individual [[cannabinoid]]s of ''[[Cannabis sativa]]'', there is demand for accurate and reliable quantification for a growing number of them. Although recent methods are based on highly selective [[chromatography]]–[[mass spectrometry]] technology, most are limited to a few cannabinoids, while relying on unnecessarily sophisticated and expensive [[High-performance liquid chromatography|ultra-high-performance liquid chromatography]] and [[tandem mass spectrometry]]. Here we report an optimized, simple extraction method followed by a reliable and simple high-performance liquid chromatography (HPLC) method for separation. The detection is performed using a [[Time-of-flight mass spectrometry|time-of-flight mass spectrometer]] that is available in most natural products research laboratories ... ('''[[Journal:Simultaneous quantification of 17 cannabinoids in cannabis inflorescence by liquid chromatography–mass spectrometry|Full article...]]''')<br /> | ||
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''Recently featured'': | ''Recently featured'': | ||
: ▪ [[Journal:Potential of NIRS technology for the determination of cannabinoid content in industrial hemp (Cannabis sativa L.)|Potential of NIRS technology for the determination of cannabinoid content in industrial hemp ( | : ▪ [[Journal:Potential of NIRS technology for the determination of cannabinoid content in industrial hemp (Cannabis sativa L.)|Potential of NIRS technology for the determination of cannabinoid content in industrial hemp (Cannabis sativa L.)]] | ||
: ▪ [[Journal:Cannabis sativa research trends, challenges, and new-age perspectives| | : ▪ [[Journal:Cannabis sativa research trends, challenges, and new-age perspectives|Cannabis sativa research trends, challenges, and new-age perspectives]] | ||
: ▪ [[Journal:Does cannabis extract obtained from cannabis flowers with maximum allowed residual level of aflatoxins and ochratoxin A have an impact on human safety and health?|Does cannabis extract obtained from cannabis flowers with maximum allowed residual level of aflatoxins and ochratoxin A have an impact on human safety and health?]] | : ▪ [[Journal:Does cannabis extract obtained from cannabis flowers with maximum allowed residual level of aflatoxins and ochratoxin A have an impact on human safety and health?|Does cannabis extract obtained from cannabis flowers with maximum allowed residual level of aflatoxins and ochratoxin A have an impact on human safety and health?]] |
Revision as of 18:53, 28 June 2022
With an increasing appreciation for the unique pharmacological properties associated with distinct, individual cannabinoids of Cannabis sativa, there is demand for accurate and reliable quantification for a growing number of them. Although recent methods are based on highly selective chromatography–mass spectrometry technology, most are limited to a few cannabinoids, while relying on unnecessarily sophisticated and expensive ultra-high-performance liquid chromatography and tandem mass spectrometry. Here we report an optimized, simple extraction method followed by a reliable and simple high-performance liquid chromatography (HPLC) method for separation. The detection is performed using a time-of-flight mass spectrometer that is available in most natural products research laboratories ... (Full article...)
Recently featured:
- ▪ Potential of NIRS technology for the determination of cannabinoid content in industrial hemp (Cannabis sativa L.)
- ▪ Cannabis sativa research trends, challenges, and new-age perspectives
- ▪ Does cannabis extract obtained from cannabis flowers with maximum allowed residual level of aflatoxins and ochratoxin A have an impact on human safety and health?