300 MHz probes
Can be shared between the two Mercury instruments
- 4nuc Varian 5 mm quadruply tuned probe H1/F19/C13/P31 alternately H1/F19/P31-N15.a z-axis gradients. Temperature range -20 to 80 °C.
- asw Varian 5 mm quadruply tuned probe H1/F19/C13/P31 alternately H1/F19/P31-N15.a z-axis gradients. Temperature range -100 to 130 °C.
- atb Varian 5 mm triply tuned probe H1/F19/P31-N15.a z-axis gradients. Temperature range -100 to 130 °C.
- id Narolac 5 mm indirect detection probe H1-F19/P31-N15. z-axis gradients. Temperature range -20 to 80 °C.
a This notation means that the high band channel is simultaneously tuned to H1 and F19, while the low band channel is tuned to a nucleus in the frequency range P31-N15.
500 MHz probes
can be sharedb between the two Inova instruments
- id3 Varian 5 mm triple resonance indirect detection probe H1/C13/P31-N15.c z-axis gradients. Temperature range -100 to 130 °C.
- fid3 Varian 5 mm triple resonance indirect detection probe H1-F19/C13/P31-N15.c z-axis gradients. Temperature range -20 to 80 °C.
- id2 Varian 5 mm indirect detection probe H1/P31-N15.d z-axis gradients. Temperature range -100 to 130 °C.
- sw2 Varian 5 mm conventional probe H1/P31-N15.d z-axis gradients. Temperature range -100 to 150 °C.
- nano Varian gHX indirect detection nanoprobe H1/P31-N15.d z-axis gradients. Temperature range 0 to 50 °C. This is a special probe with magic angle spinning and rotors with a volume of 50 ml; to be used for inhomogeneous samples such as swollen resins.
- id Varian 5 mm indirect detection probe H1/P31-N15. No gradients. Temperature range -100 to 130 °C.
b You will make full use of the triple resonance probes on i3c, which has 3 RF channels.
c This notation means that the high band channel is tuned to H1, the second channel is tuned to C13, and the third channel is tuned to a nucleus in the frequency range P31-N15 (default N15).
d This notation means that the high band channel is tuned to H and the second channel is tuned to a nucleus in the frequency range P31-N15 (default C13).