1. An ionization method using electrospray, comprising:
oscillating a metal probe along the longitudinal direction thereof, with enough amplitude to bring the tip of the probe into contact with a sample, at an origin position where the tip of said probe is spaced away from the sample;
capturing the sample at the tip of said probe without applying a voltage to said probe at a position where the tip of said probe contacts the sample; and
subsequently applying a pulsed voltage, which is for producing electrospray, to said probe to thereby ionize the sample in a period of time during which the tip of said probe is in the vicinity of said origin position.
2. An ionization method according to claim 1, wherein the vicinity of the tip of said probe at said origin position is irradiated with a laser beam.
3. An ionization method according to claim 1, wherein a solvent is sprayed toward the vicinity of the tip of said probe at said origin position.
4. An ionization method according to claim 1, wherein the sample is supplied by placing it on a sample table.
5. An ionization method capable of imaging according to claim 1, further comprising moving said probe in a direction substantially along the sample surface while holding constant the distance between said probe tip and sample surface; obtaining an image of the sample surface conforming to the position of said probe; specifying a search area on this image; bringing said probe to the origin position within the search area; and oscillating said probe along the longitudinal direction thereof.
6. An ionization method according to claim 1, wherein a liquid sample is supplied from the tip of a capillary.
7. An ionization method according to claim 6, wherein a liquid sample is supplied to said capillary from liquid chromatography.
8. An analytical method for mass spectrometry of ions obtained by the ionization method set forth in claim 1.
9. An ionization method using electrospray, comprising:
holding a probe so as to be capable of reciprocating between a bottom end point at which a tip of the probe contacts a sample and a top end point at which the tip of the probe is spaced away from the sample;
arranging an ion guide introducing sample ions to a mass spectrometry apparatus such that the tip of the ion guide is positioned in the vicinity of the tip of the probe in the vicinity of the top end point;
moving the probe toward the bottom end point and bring the tip of the probe into contact with the sample to capture the sample;
causing the probe and the sample to be at the same potential at least during the probe contacts the sample; and
subsequently, moving the probe toward the top end point, and applying a high voltage for electrospray between the probe and the ion guide, at least at a time when the probe is separated from the sample, to thereby ionize the sample captured at the tip of the probe.
10. An ionization method according to claim 9, wherein the vicinity of the tip of the probe at the top end point is irradiated with a laser beam.
11. An ionization method according to claim 9, wherein a solvent is sprayed toward the vicinity of the tip of the probe at the top end point.
12. An ionization analytical method for mass spectrometry of ions generated by the ionization method set forth in claim 9 by introducing the generated sample ions to the mass spectrometry apparatus via the ion guide.
13. An ionization method using electrospray, comprising:
oscillating a probe along the longitudinal direction thereof, with enough amplitude to bring the tip of the probe into contact with a sample, at an origin position where the tip of said probe is spaced away from the sample, and capturing the sample at the tip of said probe without applying a voltage to said probe at a position where the tip of said probe contacts the sample; and
spraying a charged droplet from an electrospray apparatus toward the sample, which has been captured at the tip of said probe, in the vicinity of said origin position, thereby ionizing the sample.
14. An analytical method for mass spectrometry of ions obtained by the ionization method set forth in claim 13.
15. An ionization apparatus using electrospray, comprising:
sample holding means for holding a sample;
an oscillating device for oscillating a metal probe along the longitudinal direction thereof between an origin position where the tip of the probe is spaced away from the sample and a position where the tip of the probe contacts the sample; and
a power supply unit for generating a pulsed voltage for electrospray in synch with oscillation of said probe;
wherein no voltage is applied to said probe in a period of time during which the tip of said probe contacts the sample, and the pulsed voltage generated by said power supply unit is applied to said probe in a period of time during which the tip of said probe is in the vicinity of the origin position after the tip of said probe has contacted the sample and captured the sample.
16. An ionization apparatus according to claim 15, wherein said power supply unit generates a pulsed voltage applied to said probe, the pulsed voltage being such that at least one among amplitude, pulse width and pulse waveform can be varied.
17. An ionization apparatus using electrospray according to claim 15, further comprising a three-dimensional-displacement driving unit for moving at least one of the sample table and probe relatively toward and away from each other and translating the same, said apparatus being capable of imaging.
18. A mass spectrometry apparatus having the ionization apparatus set forth in claim 15.
19. An ionization apparatus comprising:
holding means for holding a probe so as to be capable of reciprocating between a bottom end point at which a tip of the probe contacts a sample and a top end point at which the tip of the probe is spaced away from the sample;
an ion guide, arranged such that the tip of the ion guide is positioned in the vicinity of the tip of the probe in the vicinity of the top end point, for introducing sample ions from the tip thereof to a mass spectrometry apparatus; and
a high voltage generating apparatus applying a high voltage for electrospray between the probe and the ion guide, at least at a time when the probe is separated from the sample.
20. An ionization apparatus comprising:
sample holding means for holding a sample;
specimen capture means for oscillating a probe along the longitudinal direction thereof between an origin position where the tip of the probe is spaced away from the sample and a position where the tip of the probe contacts the sample, and capturing the sample without applying a voltage to said probe at a position where the tip of said probe contacts the sample; and
an electrospray unit for forming an electrospray field at a position in the vicinity of the tip of the probe in the vicinity of said origin position, after the tip of said probe has contacted the sample and captured the sample.
The claims below are in addition to those above.
All refrences to claim(s) which appear below refer to the numbering after this setence.
1. A method of using an oral composition for removing dental plaque andor inhibiting deposition of dental plaque within an oral cavity, the oral composition comprising: a Camellia extract in an amount from about 1% to about 10% by weight, wherein said Camellia extract is obtained from a semi-oxidized tea from tissue which is oxidized about 60% or less; propylene glycol in an amount sufficient to dissolve the Camellia extract; an enhancing agent, wherein the enhancing agent is a vinylmethylethermaleic anhydride copolymer; and an orally acceptable vehicle.
2. The method according to claim 1, wherein the semi-oxidized tea is an Oolong tea.
3. The method according to claim 1, wherein the semi-oxidized tea is oxidized about 20% to about 60%.
4. The method according to claim 1, additionally comprising a solubilizing agent.
5. The method according to claim 1, wherein said semi-oxidized tea is from Camellia tissue that has been oxidized from 5%-60%.
6. The method according to claim 5, wherein said semi-oxidized tea is selected from the group consisting of: an oolong tea; a pouchong tea; a white tea; a yellow tea; a blue or blue-green tea; and a red tea.
7. A method for at least one of removing dental plaque and inhibiting deposition of dental plaque within an oral cavity of a human or other animal subject comprising topically contacting teeth of the subject with an oral composition containing: a Camellia extract in an amount from about 1% to about 10% by weight, wherein said Camellia extract is obtained from a semi-oxidized tea from tissue which is oxidized about 60% or less; propylene glycol in an amount sufficient to dissolve the Camellia extract; and an enhancing agent, wherein the enhancing agent is a vinylmethylethermaleic anhydride copolymer; and an orally acceptable vehicle.
8. The method according to claim 7, wherein the semi-oxidized tea is oxidized about 20% to about 60%.
9. The method according to claim 7, further comprising a solubilizing agent.
10. The method according to claim 7, wherein said semi-oxidized tea is from Camellia tissue that has been oxidized from 5%-60%.
11. The method according to claim 10, wherein said semi-oxidized tea is selected from the group consisting of: an oolong tea; a pouchong tea; a white tea; a yellow tea; a blue or blue-green tea; and a red tea.