CN1142710C - Laser induced liquid-phase deposition method for making electrically conductive lines on PCB - Google Patents
Laser induced liquid-phase deposition method for making electrically conductive lines on PCB Download PDFInfo
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- CN1142710C CN1142710C CNB021156263A CN02115626A CN1142710C CN 1142710 C CN1142710 C CN 1142710C CN B021156263 A CNB021156263 A CN B021156263A CN 02115626 A CN02115626 A CN 02115626A CN 1142710 C CN1142710 C CN 1142710C
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Abstract
The present invention relates to a method for making electrically conductive lines of printed boards by a liquid phase deposition method by using CO2 laser light as an inductive light source. The present invention overcomes the defect of back deposition; moreover, the present invention shortens technologic processes, and largely reduces the cost of the deposition technique of laser light induction. In the method, CO2 laser light is used as an inductive light source; catalytic active centers of further chemical plating are firstly inducted and deposited out of the water solution of metal salt on the front surface of a nonconductive basal body; the catalytic active centers are distributed in a regular pattern on the surface of the nonconductive basal body; the processed nonconductive basal body is put in chemical plating solution for plating a regular line coating conforming to a requirement on the surface; the obtained coating has the advantages of uniformity, compaction, good electric conductivity and good adhesive force with the basal body.
Description
Technical field
The present invention relates to and utilize CO
2Laser is made electrically conductive lines as inducing light source by liquid phase deposition, is a kind of process of Laser Surface Treatment.
Background technology
At present, printed circuit board (pcb) conducting wire manufacturing process mainly adopts chemical plating and electroplates the mode that combines and deposit various copper, pb-sn alloy plating on base material.Domestic most of printed circuit board manufacturer all adopts following production technology to carry out circuit " wiring ":
Double-sided copper-clad paper tinsel plate-→ boring-→ hole metallization-→ the complete pre-copper facing of plate-→ the photo-conductive film image transfer-→ pattern plating copper-→ the graphic plating leypewter-→ striping-→ etching-→ move back leypewter-→ the copper surface active-→ chemical nickel plating-→ chemical gilding-→ finished product
There is following defective in above-mentioned technical process:
Complex process only the plating of copper layer need chemical plating and electroplate two procedures.Because of simple electroless copper metal level loose particles, rough surface, hole are many, could guarantee the normal requirement of copper base so must be equipped with electrodeposited coating.Before nickel plating, need carry out activation processing at the copper primary surface again could plating.Layer of lead-tin alloy is mainly protected graphics circuitry, and etching retreats and removes, and production technology is very complicated.And the method for circuit " wiring " employing figure transfer, be unfavorable for that circuit develops to the direction of miniaturization, densification.
2. a large amount of noble metals of operation waste such as big layer of lead-tin alloy of raw material loss and energy consumption and etching are at high temperature electroplated and chemical plating, and energy consumption is big, is unfavorable for reducing cost.
Given this, development new technologies, new technology are improved present electrically conductive lines production technology, are of great practical significance.
Because laser has many unrivaled advantages such as high-energy-density, high monochromaticity and good coherence, directivity, makes its application in process for treating surface more and more widely.On metal, semiconductor and high polymer, the chemical deposition of carrying out induced with laser has caused people's very big attention, and this technology has wide practical use in the making of microelectronic circuit and in repairing.Compare with traditional chemical plating, the induced with laser deposition technique has obvious superiority, as: because the effect of laser, can obtain higher chemical deposition speed, the induced with laser reaction only occurs in area of illumination, can realize that metal does not need the direct local plating of mask, micron dimension on nonmetal, can simplify technology, and save a large amount of precious metals.If introduce the AutoCAD technology, printed circuit board (PCB) that can the pattern-making shape is extremely complicated, conductor width is adjustable.
IBM Corporation in 1978 has studied the method for the electro-deposition of Ar+ laser-enhanced Ni, Au, Cu first, and after this states such as U.S., moral, day have carried out the research of similar techniques in succession.Through the development of two more than ten years, the induced with laser deposition technique has been obtained huge progress.People have utilized the CO of different wave length
2Various laser such as laser, Nd:YAG Solid State Laser, Ar+ laser, excimer laser have deposited multiple metals such as Cu, Ni, Au, Pd on multiple material (as polyimides, polymethyl methacrylate, pottery, p type silicon etc.).According to the difference of medium, the induced with laser deposition technique is divided into vapour deposition, solid precipitation and liquid deposition.
From existing literature, use the research of liquid phase method depositing metal layers on non-conductive matrix a lot of.Because the Laser Induced Liquid-phase chemical deposition process is simple, condition is easy to realize, and can a step deposits metal, thereby obtained development faster at normal temperatures.Abroad the someone utilizes dye laser, continuous or pulsed argon ion laser, at InP, Si, GaAs, Si
3N
4, on ceramic base, the nonmetallic materials matrix such as polyimides, liquid deposition goes out metals such as Au, Cu, Ni, Pt, Zn, Pd, Cd.As at [Pd (NH
3)
4]
2+In the solution, be reducing agent with formaldehyde, with tungsten disc Ar+ laser as inducing light source, the control laser power is 20mW, and laser scanning speed is 200 μ m/s, goes up induction and deposition at PI (polyimides) and goes out uniform Pd metallic film (ThinSolid Films, Vol.185-188,2001).
Domestic have the people in traditional chemical copper plating solution, deposits Cu metal level (Fudan Journal, Vol.33, No.1M, 1994) with the tungsten disc Ar+ laser of 5W on epoxy resin-matrix.Also the someone utilizes wavelength to induce light source for Ar+ laser and the conduct of 1079.5nm Nd:YAG laser of 514.5nm, as matrix, has studied the influence that laser power, exposure time, bath composition, concentration deposit metal Cu, Ni with polymethyl methacrylate, epoxy resin.Studies show that: in the subrange of laser radiation, the deposition velocity of metal is fast, and coating surface is level and smooth, even particle size, queueing discipline.
At present, carry out in the research of induced with laser chemical deposition on the nonconductive matrix surface, no matter employ depositional mode, what mainly adopt is lasers such as Nd:YAG, Ar+ ion, quasi-molecule, these laser output Wavelength of Laser are in short-wave band, the photon energy height, laser energy density is big, thereby has obtained generally using in the research in induced with laser deposition technique field.
CO
2Laser, its output optical maser wavelength is 10.6 μ m, and this wavelength is in the infrared band scope, and photon energy is little, thereby domestic and international research person uses CO
2Laser is as inducing light source to carry out the research of metal deposition, and early stage people mainly concentrate on CO
2In the induced with laser chemical vapour deposition (CVD) (LCVD), for example use CO
2Laser is by Mn
2(CO)
10Thermal decomposed deposition Mn (Fudan Journal (natural science edition), Vol.32, No.3,1993) closes copper with two (acetylacetone,2,4-pentanediones) and deposit Cu (quantum electronics, Vol.12, No.2,1995) etc. on quartz.Utilization CO
2The research that laser carries out solid precipitation also has report (Chinese laser, Vol.17, No.2,1990) (laser magazine, Vol.15, No.3,1994), utilization CO
2Laser is induced the research of liquid deposition, because CO
2Wavelength of Laser is 10.6 μ m, and in this wave band, water has strong absorption to it, and people mainly concentrate on (sufacing, Vol.23, No.3,1994 in the research of backside deposition method to attentiveness in early days; Chinese laser, Vol.17, No.10,1990).This method is with to CO
2The material of laser-light transparent is placed on the liquid level, with CO
2Laser radiation goes out metal at the material backside deposition thus at the material back side.But this method existence requires basis material to CO
2Distinct disadvantage such as laser-light transparent make its application be subjected to considerable restraint.Use CO
2Laser carries out the research of the positive deposition of liquid phase, is seen in the very few of report, the domestic application CO that once reported
2Laser deposits copper lines (using laser, Vol.16, No.6,1996) from the ethanolic solution of Schweinfurt green on quartz substrate, and use CO
2Laser carries out the front induction and deposition from the aqueous solution research does not appear in the newspapers so far.
Summary of the invention
The present invention is intended to use CO
2Laser carries out the front induction and deposition from the aqueous solution makes electrically conductive lines and a kind of feasible process is provided.
In conjunction with existing PCB routing technology, and through experimental study following processing technology routine is proposed on its basis:
Non-conductive matrix (as epoxy resin board etc.)-→ surface treatment-→ CO
2The laser liquid phase induce activation-→ the chemical deposition conducting metal
Present invention focuses on to have solved following problem:
1. successfully use CO
2Laser is as inducing light source, and in the front of non-conductive matrix, first induction and deposition goes out the catalytic active center of further chemical plating from the aqueous solution of slaine, and these catalytic active centers are the pattern distribution of rule in the nonconductive matrix surface.Put into chemical plating fluid again through the non-conductive matrix of handling like this, can plate the circuit coating of satisfactory rule on its surface, the coating of gained is even, fine and close like this, and its conductivity and good with the adhesive force of matrix.
2. present CO
2The laser technique maturation, cheap, and its power is adjustable continuously within the specific limits, if can utilize CO
2Laser is realized positive liquid deposition, not only can widen CO
2The application of laser overcomes the shortcoming of backside deposition, and can reduce the cost of induced with laser deposition technique greatly, helps the popularization and the application of this technology.
3. improve and simplified traditional PCB routing technology, production cost is reduced greatly, the production cycle shortens greatly.
Implementation method of the present invention is: utilization CO
2Laser, power output is 0.5~100W, under the normal temperature and pressure conditions, with epoxy resin, polyimides, polymethyl methacrylate, pottery, non-conductive matrixes such as p type silicon are put into and filled soluble metallic salt: mantoquita is (as Schweinfurt green, copper sulphate, copper nitrate, two-acetylacetone,2,4-pentanedione-close copper), nickel salt is (as nickel nitrate, nickel chloride, nickelous sulfate, two-acetylacetone,2,4-pentanedione-close nickel), silver salt (as silver nitrate), palladium salt is (as palladium, palladium bichloride), platinum salt is (as potassium hexachloroplatinate, dichloro two ammino platinum), gold salt (nitric acid gold, chlorauride) in etc. the aqueous solution (concentration is (to keep liquid level thickness and be 1 μ m~5mm) in the liquid bath of 0.005mol/l~5mol/l), make these solution at epoxy resin again, the surface tiling of polyimides etc. evenly, liquid bath is put in on the three-dimensional working platform of computer drives, uses CO
2Laser shines scanning from its front, and workbench moves under computer control simultaneously, the nucleus of crystal that can go out to have catalytic activity at the surface deposition of non-conductive matrixes such as epoxy resin board or polyimides.Afterwards non-conductive matrixes such as epoxy resin or polyimides are taken off from workbench, the compound water solution of its remained on surface of flush away under strong current, wash with distilled water again, put it in the alkaline chemical copper plating liquid for preparing in advance and carry out chemical plating, take out after 10~20 minutes, obtaining the surface, to have plated one deck even, fine and close, and conductivity and the conductive copper wire road pattern good with the adhesive force of matrix.
Description of drawings CO
2Induced with laser precipitation equipment Fig. 1. monitor 2.CCD camera 3. Amici prisms 4. visual mirror 5. imaging mirrors 6. acousto-optic modulators 7. beam expanding lenss 8. speculum 9.CO
2Laser 10. acousto-optic power supplys 11. are assembled object lens 12. computers 13. workbench driving powers 14. solution 15. matrix 16.X-Y-Z workbench
Embodiment example 1: the CW CO of utilization 15W
2Laser, when power output is 3.5W, under the normal temperature and pressure conditions, (40 * 25 * 1mm) put into the liquid bath (liquid level thickness maintains 1mm) that fills 0.5mol/L copper nitrate (A.R.) distilled water solution with commercially available epoxy resin board, make these solution evenly again in its surface tiling, it is put in on the three-dimensional working platform of computer drives, uses CO
2Laser shines scanning, and workbench moves under computer control simultaneously, can deposit the nucleus of crystal with catalytic activity on the epoxy resin board surface.Afterwards epoxy resin board is taken off from workbench, the copper nitrate solution of its remained on surface of flush away under strong current, wash with distilled water again, put it in the alkaline chemical copper plating liquid for preparing in advance and carry out chemical plating, take out after 15 minutes, as seen its surface plated even, fine and close, and conductivity and the copper cash pattern good with the adhesive force of matrix.Example 2: the CW CO of utilization 15W
2Laser, when power output is 3.0W, under the normal temperature and pressure, poly (methyl methacrylate) plate is put into the liquid bath (liquid level thickness maintains 1mm) that fills 1.0mol/l silver nitrate (A.R.) distilled water solution, make these solution evenly again in its surface tiling, it is put in on the three-dimensional working platform of computer drives, uses CO
2Laser shines scanning, and workbench moves under computer control simultaneously, can deposit the nucleus of crystal with catalytic activity on polymethyl methacrylate.Afterwards poly (methyl methacrylate) plate is taken off from workbench, the liquor argenti nitratis ophthalmicus of its remained on surface of flush away under strong current, wash with distilled water again, put it in the alkaline chemical copper plating liquid for preparing in advance and carry out chemical plating, take out after 15 minutes, as seen its surface plated even, fine and close, and conductivity and the copper cash pattern good with the adhesive force of matrix.Example 3: utilization CW CO
2Laser is when power output is 5W, under the normal temperature and pressure, polyimide plate is put into the liquid bath (keeping liquid level thickness) that fills the 0.25mol/l Schweinfurt green aqueous solution at 0.5mm, make liquid evenly, liquid bath is placed on the numerical control table, NC table of computer drives, use CO in the polyimide surface tiling
2Laser scans.The while travelling table, can on polyimides, deposit nucleus of crystal with catalytic activity, afterwards polyimides is taken off from workbench, the Schweinfurt green aqueous solution of its remained on surface of flush away under strong current, with the distilled water washing, put it in the alkaline chemical copper plating liquid for preparing in advance and carry out chemical plating again, take out after 15 minutes, as seen its surface plated even, fine and close, and conductivity and the copper cash pattern good with the adhesive force of matrix.
Claims (2)
1. use laser deposits plain conductor on non-conductive matrix method for one kind, it is characterized in that: use CO
2Laser, CO
2Laser output power is 1~10W; Non-conductive matrix is put into the liquid bath that fills the soluble metal salting liquid, the aqueous solution of slaine, its concentration is 0.1mol/l~5mol/l, liquid level thickness is 1 μ m~5mm; Liquid bath is put on the three-dimensional working platform, uses CO
2Laser shines scanning from its front, and workbench moves under computer control simultaneously, promptly deposits the nucleus of crystal with catalytic activity on non-conductive matrix; Afterwards non-conductive matrix is taken off from workbench, the aqueous metal salt of its remained on surface of water flush away puts it in the alkaline chemical copper plating liquid for preparing in advance and carries out chemical plating, and take out the plating back, promptly obtains the conductive copper wire road figure good with the adhesive force of matrix.
2. deposit the method for plain conductor according to the described application laser of claim 1 on non-conductive matrix, it is characterized in that: the non-conductive matrix of indication comprises epoxy resin, polyimides, polymethyl methacrylate, pottery, p type silicon; The soluble metal salting liquid of indication comprises the aqueous solution of the slaine of mantoquita, nickel salt, silver salt, palladium salt, platinum salt; The chemical plating of indication, its chemical plating time is 10~20 minutes.
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Families Citing this family (7)
Publication number | Priority date | Publication date | Assignee | Title |
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CN100406613C (en) * | 2005-11-17 | 2008-07-30 | 上海交通大学 | Laser induced selective chemical plating process |
TWI613177B (en) * | 2011-11-16 | 2018-02-01 | 製陶技術股份有限公司 | Process to produce a substrate |
CN103400906B (en) * | 2012-08-28 | 2015-11-25 | 夏洋 | A kind of bionics method for preparation of crystal silicon solar batteries grid line |
CN103781285B (en) * | 2014-02-18 | 2016-04-13 | 华中科技大学 | The making of ceramic base plate surface conducting wire and restorative procedure |
CN104695211B (en) * | 2015-03-12 | 2017-01-11 | 四川大学 | Chemical plating activation process for fabric by using supercritical carbon dioxide fluid |
CN104988473A (en) * | 2015-05-06 | 2015-10-21 | 武汉风帆电镀技术股份有限公司 | Laser electroplating paint |
CN106467965B (en) * | 2016-09-27 | 2018-07-27 | 北京科技大学 | A kind of preparation method of ceramic circuit board surface fine metal pattern |
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