Inhibition of Copper Deposition by Polyethylene Glycol and Chloride

Garrido, Mariano; Pritzker, Mark

doi:10.1149/1.3010384

Cited by 36 publications

(44 citation statements)

References 33 publications

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“…At steady state, the conservation of mass requires: r c1 − r a1 = D(c bCu(I I) − c Cu(I I) )/δ [4] r c1 − r a1 + r a2 − r c2 = D(c bCu(I ) − c Cu(I ) )/δ [5] where the same diffusion coefficient D is assumed for both Cu 2+ and Cu + , δ is the diffusion layer thickness. As Cu + is unstable in the presence of dissolved O 2 , the bulk concentration of Cu + is assumed to be zero.…”

Section: Modelmentioning

confidence: 99%

Stochastic Modeling of Polyethylene Glycol as a Suppressor in Copper Electroplating

Liu

Radisic

Deconinck

et al. 2014

J. Electrochem. Soc.

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The desorption / adsorption of suppressor additive during Cu electroplating plays a critical role in the void-free filling of recessed features such as through-silicon vias (TSVs) used in 3-dimensional integration. A stochastic model was proposed for Polyethylene Glycol (PEG) as a suppressor additive in Cu electroplating. Using the proposed model, a program capable of simulating transient processes such as cyclic voltammograms (CVs) was developed. The steep change of current density due to suppressor desorption, as well as the characteristic hysteresis, observed in the CVs was shown in simulation. The dependency of PEG desorption / adsorption on various factors, including the bath composition, scan rate and molecular weight, was simulated. The simulation results were confronted side-by-side with the corresponding experimental measurements. An overall good qualitative match was shown.

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Section: Modelmentioning

confidence: 99%

Stochastic Modeling of Polyethylene Glycol as a Suppressor in Copper Electroplating

Liu

Radisic

Deconinck

et al. 2014

J. Electrochem. Soc.

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“…9−13 It is known that chloride ions actively participate in forming the inhibition layer from conventional electrochemical measurements. 7,14 The adsorption−desorption behavior 15−17 and the inhibition effect 6,18,19 of the PEG-Cl − adlayer on the Cu electrode have been investigated by electrochemical and spectroscopic methods. At a mesoscopic scale, the inhibition layer is composed of PEG with Cl − and/or Cu + with spherical morphology as deduced by quartz crystal microbalance (QCM) 20 and electrochemical impedance spectroscopy (EIS), 21 or with flat-cone mound morphology as directly observed by in situ atomic force microscopy (AFM).…”

Section: Introductionmentioning

confidence: 99%

“…PEG whose chemical structure is relatively simpler often serves as a model suppressor for Cu electrodeposition in fundamental studies. − It is known that chloride ions actively participate in forming the inhibition layer from conventional electrochemical measurements. , The adsorption–desorption behavior − and the inhibition effect ,, of the PEG-Cl – adlayer on the Cu electrode have been investigated by electrochemical and spectroscopic methods. At a mesoscopic scale, the inhibition layer is composed of PEG with Cl – and/or Cu + with spherical morphology as deduced by quartz crystal microbalance (QCM) and electrochemical impedance spectroscopy (EIS), or with flat-cone mound morphology as directly observed by in situ atomic force microscopy (AFM). , Despite these advancements, the microscopic intricacies of the PEG-Cl – inhibition layer continue to pose questions, which warrant further investigation through molecular spectroscopies.…”

Section: Introductionmentioning

confidence: 99%

“…The accelerator promotes Cu reduction on the bottoms of vias or trenches, while the suppressor and the leveler restrain Cu deposition on the sides of vias or trenches and the superfluous Cu bumps. Among them, the suppressor plays an indispensable role in achieving “bottom-up” filling in Cu interconnects in the presence of chloride ions. − In most cases, suppressors are large alkyl-ether polymers or copolymers, such as polyethylene glycol (PEG), polypropylene glycol (PPG), or triblock copolymer composed of ethylene oxide (EO)–propylene oxide (PO)–ethylene oxide (EO) …”

Section: Introductionmentioning

confidence: 99%

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Revisiting the Polyethylene Glycol-Chloride Adsorption Structure on Cu Electrode in Sulfuric Acid Solution by Wide-Frequency ATR-SEIRAS

Wu,

Mao,

Jiang

et al. 2023

J. Phys. Chem. C

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Polyethylene glycol (PEG) is a typical suppressor in the presence of chloride anions for Cu interconnect electroplating in the field of microelectronics manufacture, yet its adsorption structure and its correlation with the inhibition effect remain controversial and unclear. In this work, wide-frequency attenuated total reflection surface-enhanced infrared absorption spectroscopy (ATR-SEIRAS) is utilized to clarify the interfacial adsorption structure of PEG with Cl– on a Cu electrode, providing direct molecular-level evidence for the inhibition effect. Time-resolved spectroscopic results show that the OC–CO subunit of PEG transforms from trans to gauche conformation with the addition of Cl– in a way favoring the hydrocarbon sections of PEG to lean toward the Cl–-covered Cu surface, as demonstrated by the evolution of characteristic peaks at 1134, 1090, and 848 cm–1 as well as that of interfacial water stretching vibration bands (ca. 3400–3650 cm–1). Moreover, a comparison of spectra for adsorbed PEG and dissolved PEG shows that more OC–CO and CC-OC gauche conformations are present in the former, in favor of PEG chain coiling to form mounds on the Cl–-covered Cu electrode. The steric hindrance of as-formed PEG mounds may account for the strong interfacial inhibition effect of the PEG-Cl– adstructure, as supported by the electrochemical quartz crystal microbalance (EQCM) measurement. A series of potential-dependent ATR-SEIRAS spectra reveal that with decreasing potential, the coiled PEG chains become loosened due to gradual desorption of the underlying Cl– adlayer.

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“…[1][2][3][4][5][6] The working mechanism of chloride ions has been extensively studied both experimentally and theoretically. [7][8][9][10][11][12][13][14][15][16][17] Commonly, the electrolytes used for the electrochemical copper deposition are highly acidic. 1,2 Thus, it seems likely that the adsorption of hydrogen ions competes with the adsorption of chloride ions at certain potentials of the copper electrode.…”

mentioning

confidence: 99%

Modeling of the Coadsorption of Chloride and Hydrogen Ions on Copper Electrode Surface

Yang

Dianat

Bobeth

et al. 2018

J. Electrochem. Soc.

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For manufacturing copper interconnects by the damscence technique, electrochemical deposition of copper on patterned sustrates requires several additives to achieve compact filling of trenches and vias, where chloride ions play a crucial role. In the highly acidic electrolyte, adsorption of chloride ions on copper is expected to compete with the adsorption of hydrogen, depending on the copper electrode potential. We propose a general phenomenological model of the coadsorption of two ion species which is supported by DFT calculations and show how the adsorption of one species can be described by the common Langmuir model with rescaled parameters depending on the concentration of the second species. Regarding the Cl − -H + -system, corresponding model parameters are estimated by fitting radio tracer measurements of the chloride adsorption on copper reported in the literature. The data suggest that in a highly acidic solution (pH ≈ 0) the saturation surface density of chloride depends strongly on the electrode potential. With variation of the potential E S H E from −0.4 to +0.2 V, the saturation density changes by a factor of four. Within our model, such a potential dependence of the saturation density is explained by the presence of adsorbed hydrogen.

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Inhibition of Copper Deposition by Polyethylene Glycol and Chloride

Cited by 36 publications

References 33 publications

Stochastic Modeling of Polyethylene Glycol as a Suppressor in Copper Electroplating

Stochastic Modeling of Polyethylene Glycol as a Suppressor in Copper Electroplating

Revisiting the Polyethylene Glycol-Chloride Adsorption Structure on Cu Electrode in Sulfuric Acid Solution by Wide-Frequency ATR-SEIRAS

Modeling of the Coadsorption of Chloride and Hydrogen Ions on Copper Electrode Surface

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