CN1396801A - Process for integrating metal electrodes to diamond stock - Google Patents
Process for integrating metal electrodes to diamond stock Download PDFInfo
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- CN1396801A CN1396801A CN 02132456 CN02132456A CN1396801A CN 1396801 A CN1396801 A CN 1396801A CN 02132456 CN02132456 CN 02132456 CN 02132456 A CN02132456 A CN 02132456A CN 1396801 A CN1396801 A CN 1396801A
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- photoresist
- metal
- photoetching
- diamond
- opposed anvils
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Abstract
A process for integrating metal electrode to diamond opposite anvil includes such steps as washing, sputtering metal electrode material an substrate at 240-400 deg.C, coating photoresist, photoetching, corroding metal, removing the photoresist and preparing W or Ni or Ti metal electrode by the feedthrough technological process. Its advantages are high adhesion on anvil face, thin thickness of electrode and long service life.
Description
Technical field
The invention belongs to the method for integrating metal electrodes on the High-Voltage Experimentation device.
Background technology
Diamond opposed anvils (DAC) is a breakthrough of High-Voltage Experimentation technology, also is the ultra-high pressure apparatus that generally uses in the world at present.It is fit to and the supporting in site measurement of carrying out physical quantity under the HTHP of various test, and the development of DAC technology makes people to the exploration of high pressure property breakthrough progress arranged with application.At present, people utilize DAC to realize the measurement of multiple physical quantity, as structure, spectrum, light emission, light scattering etc.And utilizing DAC to carry out making slow progress of electrical properties measurement, relevant report is also seldom.But, on DAC, carry out electrical measurement the research high pressure property had significant values.Its meaning is: 1, can provide under high pressure the metallize the most direct information of phase transformation of material.2, can observe the electron phase transition of material under the high pressure.3, can observe the structural phase transition of material under the high pressure.4, carry out the photoelectric property research of material under the high pressure.Just because of the high pressure electricity method of measurement on the diamond opposed anvils so we are integrated in metal electrode on the diamond opposed anvils, has been set up in its significance place.
The technology the most close with the present invention is the article that is published in " Appl.Phys.Lett.77 (21); 20 November2000 ", and its exercise question is " Epitaxial diamond encapsulation of metal microprobesfor high pressure experiments ".This article just partly discloses the technical process of integrating metal electrodes on the diamond opposed anvils, and metal electrode material is tungsten (W).Specific embodiment comprises cleaning, and---------------growing diamond mask---polishing---goes between colloidal sol the sputtering electrode material gluing in photoetching.Gluing is to be coated with the thick photoresist of about 2 μ m on the diamond opposed anvils.Photoetching process is behind exposure imaging, will need the photoresist at the position of Integrated electrode to remove, and remaining place is still covered by photoresist.Sputtering electrode is the tungsten that sputter thickness is about 7000 on the good diamond opposed anvils of photoetching.Colloidal sol promptly dissolves away photoresist, and simultaneously, the tungsten on it also is removed thereupon, has just only stayed the tungsten electrode figure that designs like this on anvil face.At last the diamond opposed anvils is put into microwave plasma CVD (CVD) equipment growing diamond mask, again through exposing electrode after the polishing.
This technology has realized metal electrode integrated on the diamond opposed anvils.But because the integrated employing of electrode is the technological process of sputtering electrode after the first photoetching, so before splash-proofing sputtering metal, the surface of diamond opposed anvils has been subjected to the pollution from photoresist and developer solution, is unfavorable for forming on anvil face the metal electrode with high adhesion force.Therefore, the method for having to adopt high temperature (more than 800 ℃) to be handled in the later stage of technology makes tungsten and diamond Cheng Jian seeking high adhesion force, and too high temperature has damage to diamond.Because metal film is blocked up, under the effect of internal stress, electrode at the boundary of anvil face, very easily bursts apart on the anvil face of diamond opposed anvils especially, will reduce the success rate of experiment.
Summary of the invention
The present invention has optimized the integrated technical process of electrode again for overcoming the deficiencies in the prior art, the metal electrode that successfully integratedly on the diamond opposed anvils gone out the film quality height, be difficult for bursting apart, adhesive force is good.Set up the electrical measurement method on the diamond opposed anvils.
The technical issues that need to address of the present invention realize by following technical process.---sputtering electrode material---gluing---photoetching---the corroding metal processes such as lead-in wire of---removing photoresist---that adopt metal molybdenum, chromium, titanium etc. to do electrode material, its technical process comprises cleaning.The clean on diamond opposed anvils surface comprises acetone, ethanol ultrasonic cleaning, and chromic acid soaks, operations such as deionized water rinsing.Said sputtering electrode material is that sputter thickness is the tungsten of 1000~2500 or the metallic film of chromium or titanium on the diamond opposed anvils.Can allow underlayer temperature remain at 240~400 ℃ in the sputter procedure.Said photoetching process is that gluing is after exposure imaging keep the photoresist that needs the Integrated electrode position, and remaining local photoresist is removed.Photoetching process is compared with background technology, keeps the photoresist position and remove the photoresist position just in time opposite.Said corroding metal is meant with the photoetching corrosion agent for preparing and removes the electrode material of not covered by photoresist.Said removing photoresist is the photoresist that works the effect of covering in the corroding metal process of removing above the metal electrode, to expose metal electrode.Said lead-in wire is that wire is bonded on the side of diamond opposed anvils.
Because what adopt in the present invention is photoetching order after the first sputter, so guaranteed that electrode has enough adhesive force on anvil face.Simultaneously, the thickness of electrode is reduced, and less than 2000 , this has also eliminated the phenomenon because the electrode that stress produces bursts apart.And the diamond opposed anvils is not exposed under the high temperature all the time in the integrating process of whole metal electrode, so this has also been avoided high temperature to adamantine damage, has prolonged adamantine useful life.
Description of drawings
Provide Fig. 1 in order to explain technical process of the present invention visually.
Fig. 1 be of the present invention on the diamond opposed anvils process chart of integrating metal electrodes method.
Among Fig. 1,1 is that cleaning, 2 is that sputtering electrode material, 3 is that gluing, 4 is that photoetching, 5 is that corroding metal, 6 is for removing photoresist; The metallic film of 7 expression diamond anvil faces, 8 expression sputters, 9 expression photoresists.
Embodiment
Embodiment 1: (Mo) does metal electrode material with molybdenum.
Sputtering electrode material 2 is, behind diamond opposed anvils anvil face 7 cleaning, dryings, adopts dc magnetron sputtering method to sputter metallic film 8, and this metallic film 8 is metal molybdenum films that thickness is about 2000 .In order to improve the adhesive force of metal electrode, substrate remains at about 300 ℃ in the sputter procedure.
After sputter finishes, on the diamond opposed anvils, apply one deck positive photoresist 9 uniformly.
Utilize photoetching process, on opposed anvils, prepare photoresist 9 protective layers with electrode pattern.Because photoetching is contact exposure, will expose fully in the side of opposed anvils, thus before " corroding metal " process by hand mode photoresist 9 is spread upon the side.Simultaneously, be easy to take place disconnected glue phenomenon, also need by hand the mode of figure glue that it is repaired at the anvil face boundary.To positive photoresist 9, developer solution can be 0.3% NaOH solution.
Corroding metal 5 is that the diamond opposed anvils that photoetching is good is placed in the photoetching corrosion liquid of Mo, removes the metal part without photoresist 9 protections, promptly obtains the electrode wiring figure that designs.Photoetching corrosion liquid is the photoetching corrosion agent of the molybdenum for preparing, and raw material and proportioning are HNO by volume
3: H
3PO
4: CH
3COOH: H
2O=1: (0.4~0.5): (1.3~1.6): (0.6~0.9).The photoetching corrosion agent of such molybdenum can have suitable corrosion rate, to guarantee the etching precision to metal electrode.
Remove photoresist 6 after the corroding metal 5.Promptly remove the photoresist 9 that plays the protection metal function on the electrode wiring figure, expose the metal molybdenum electrode.
What outer lead adopted is copper wire, and diameter is advisable about with 100 μ m.The lead-in wire process is to utilize the silver slurry that the electrode of outer lead copper wire and diamond opposed anvils side is bonded together, and is solidifying more than 1 hour, to reach working strength under 150~170 ℃ the environment.
Embodiment 2: (Cr) does metal electrode material with chromium.
Technical process is identical with embodiment 1.
Behind diamond opposed anvils cleaning, drying, sputter the crome metal that thickness is about 2400 .Through gluing 3, photoetching 4, carry out corroding metal 5 processes.The photoetching corrosion agent of chromium is hydrochloric acid (HCl).
Embodiment 3: (Ti) does metal electrode material with titanium.
Technical process is identical with embodiment 1.
Behind diamond opposed anvils cleaning, drying, sputter the Titanium that thickness is about 1600 .Through gluing 3, photoetching 4, carry out corroding metal 5 processes.The photoetching corrosion agent of chromium is hydrofluoric acid (HF).
Because hydrofluoric acid has destruction to photoresist 9, therefore after the splash-proofing sputtering metal titanium, the molybdenum of sputter layer of metal more then carries out gluing 3, photoetching 4 and corroding metal 5 processes.Identical among the corrosive liquid of molybdenum and the embodiment 1.Because hydrofluoric acid does not corrode metal molybdenum,, become the mask of titanium so just replaced photoresist 9 through corroding good metal molybdenum.After the titanium corrosion finishes, utilize the corrosive agent among the embodiment 1 to remove metal molybdenum, promptly obtaining with the titanium is the metal electrode of material.
Claims (5)
1, a kind of on the diamond opposed anvils method of integrating metal electrodes, comprise cleaning (1), sputtering electrode material (2), gluing (3), photoetching (4), the technical process of removing photoresist (6) and going between, it is characterized in that, after to the clean of diamond opposed anvils anvil face, carry out sputtering electrode material (2) earlier, carry out gluing (3), photoetching (4), corroding metal (5) again, remove photoresist (6) and go between; Said sputtering electrode material (2) is that sputter thickness is the tungsten of 1000~2500 or the metallic film (8) of chromium or titanium on the diamond opposed anvils, and underlayer temperature remains on 240~400 ℃ in the sputter procedure; Said photoetching (4) process is that gluing (3) is after exposure imaging keep the photoresist (9) that needs the Integrated electrode position, and remaining local photoresist (9) is removed; Said corroding metal (5) is meant with the photoetching corrosive agent and removes the electrode material of not covered by photoresist (9); Said removing photoresist (6) is the photoresist that works the effect of covering (9) that removes above the metal electrode, to expose metal electrode; Said lead-in wire is that wire is bonded on the side of diamond opposed anvils.
2, according to claim 1 described on the diamond opposed anvils method of integrating metal electrodes, it is characterized in that said sputtering electrode material (2) is, adopt dc magnetron sputtering method to sputter metallic film (8), this metallic film (8) is the metal molybdenum film; Mode spreads upon photoresist (9) side of diamond opposed anvils by hand before corroding metal (5) process; Corroding metal (5) is that the diamond opposed anvils that photoetching is good is placed in the photoetching corrosion agent of Mo, removes the metallic film (8) without photoresist (9) protection, and the raw material of photoetching corrosion agent and proportioning are HNO by volume
3: H
3PO
4: CH
3COOH: H
2O=1: (0.4~0.5): (1.3~1.6): (0.6~0.9).
3, according to claim 1 described on the diamond opposed anvils method of integrating metal electrodes, it is characterized in that said sputtering electrode material (2) is, adopt dc magnetron sputtering method to sputter metallic film (8), this metallic film (8) is the crome metal film; The photoetching corrosion agent of chromium is a hydrochloric acid.
4, according to claim 1 described on the diamond opposed anvils method of integrating metal electrodes, it is characterized in that said sputtering electrode material (2) is, adopt dc magnetron sputtering method to sputter metallic film (8), this metallic film (8) is the Titanium film; The photoetching corrosion agent of titanium is a hydrofluoric acid.
5, according to claim 1 or 2 described on the diamond opposed anvils method of integrating metal electrodes, it is characterized in that, said lead-in wire process is to utilize the silver slurry that the electrode of outer lead copper wire and diamond opposed anvils side is bonded together, and is solidifying more than 1 hour under 150~170 ℃ the environment.
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CNB021324565A CN1192691C (en) | 2002-06-16 | 2002-06-16 | Process for integrating metal electrodes to diamond stock |
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CNB021324565A CN1192691C (en) | 2002-06-16 | 2002-06-16 | Process for integrating metal electrodes to diamond stock |
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CN1396801A true CN1396801A (en) | 2003-02-12 |
CN1192691C CN1192691C (en) | 2005-03-09 |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102183693A (en) * | 2011-01-19 | 2011-09-14 | 吉林大学 | Electrodes for high pressure in situ resistivity survey and manufacturing method of electrodes |
CN102288844A (en) * | 2011-05-17 | 2011-12-21 | 吉林大学 | Method for integration of electrode on diamond anvil cell |
CN113777142A (en) * | 2021-09-15 | 2021-12-10 | 湖南新锋科技有限公司 | Carbon material/metal modified doped diamond particle integrated sensor and preparation method and application thereof |
-
2002
- 2002-06-16 CN CNB021324565A patent/CN1192691C/en not_active Expired - Fee Related
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102183693A (en) * | 2011-01-19 | 2011-09-14 | 吉林大学 | Electrodes for high pressure in situ resistivity survey and manufacturing method of electrodes |
CN102183693B (en) * | 2011-01-19 | 2013-06-05 | 吉林大学 | Electrodes for high pressure in situ resistivity survey and manufacturing method of electrodes |
CN102288844A (en) * | 2011-05-17 | 2011-12-21 | 吉林大学 | Method for integration of electrode on diamond anvil cell |
CN113777142A (en) * | 2021-09-15 | 2021-12-10 | 湖南新锋科技有限公司 | Carbon material/metal modified doped diamond particle integrated sensor and preparation method and application thereof |
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Publication number | Publication date |
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CN1192691C (en) | 2005-03-09 |
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