Title:
THERMALLY CONDUCTIVE ADHESIVE COMPOSITION AND PROCESS FOR DEVICE ATTACHMENT
Document Type and Number:
WIPO Patent Application WO2004090942
Kind Code:
A3
Abstract:
Thermally conductive, sinterable, adhesive compositions, free of fugitive solvents, that include a powder of a relatively high melting point metal or metal alloy, a powder of a relatively low melting point metal or metal alloy powder and a thermally curable adhesive flux composition that comprises (i) a polymerizable fluxing agent; (ii) an inerting agent to react with the fluxing agent at elevated temperature, rendering it inert. The fluxing agent preferably comprises a compound with formula RCOOH, wherein R comprises a moiety having one or more polymerizable carbon-carbon double bonds. Optionally, the inventive compositions also include (a) a diluent that is capable of polymerizing with the fluxing agent's polymerizable carbon-carbon double bonds; (b) free radical initiators; (c) a curable resin; and (d) crosslinking agents and accelerators. The compositions can be applied directly onto the surfaces of devices to be joined mechanically and/or electrically and are ideally suited for semiconductor die attachment. During heating, the fluxing agent promotes wetting of the high melting point powder by the molten low melting point powder, causing liquid phase sintering of the powders. The fluxing agent also promotes wetting of the metallizations on the die and substrate by the molten low melting point alloy, providing improved thermal conductivity. Simultaneously, the fluxing agent itself crosslinks to further mechanically bond the adherent surfaces. The absence of fugitive solvents creates a void-free bond.
Inventors:
CAPOTE MIGUEL ALBERT (US)
GRIEVE ALAN (US)
GRIEVE ALAN (US)
Application Number:
PCT/US2004/009886
Publication Date:
February 03, 2005
Filing Date:
March 30, 2004
Export Citation:
Assignee:
AGUILA TECHNOLOGIES INC (US)
CAPOTE MIGUEL ALBERT (US)
GRIEVE ALAN (US)
CAPOTE MIGUEL ALBERT (US)
GRIEVE ALAN (US)
International Classes:
C09J4/00; H01L23/373; H05K3/30; H05K3/32; H05K1/02; (IPC1-7): C08K3/08; C09J4/02; C09J163/00; C09J163/02
Domestic Patent References:
| WO1998008362A1 | 1998-02-26 |
Foreign References:
| US5985456A | 1999-11-16 | |||
| US5652042A | 1997-07-29 | |||
| US6458472B1 | 2002-10-01 |
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