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A novel deep-UV resist which consists of poly(p-trimethylsilyloxystyrene) and pnitrobenzyl-
9,10-diethoxyanthracene-2-sulfonate showed capability of resolving 0.3 im
lines and spaces with steep sidewalls at 0.8 im thickness by use of a KrF excimer laser
stepper. Wet development in a conventional tetramethylammonium hydroxide developer
caused no critical thickness loss in the unexposed area. Owing to its oxygen plasma
durability, this resist was shown to work as a top layer of a bi-layer resist.
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The addition of phenolic compounds to positive tone chemically amplified resists has increased sensitivity
by approximately 2X for Deep UV exposures and up to 5Xfor X-ray imaging. Sensitivity enhancement
during e-heam exposures was only 20%. Additives like hydroquinone sensitize various acid generators
including triphenyl sulfonium triflate (TPS) and N-tosyloxyphthalimide (PTS) without affecting contrast and
image profiles. The sensitization occurs in poly(t-butyloxycarbonyloxystyrene) as well as in base soluble
resins. With PTS, the predominant mechanism is believed to involve electron transfer from the excited
singlet or triplet state of the additive to the acid generator. For onium salt, direct photolysis plays a significant
role in acid generation so that the effect of the additives is not as great as with PTS.
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Negative chemical amplification resist systems composed of Novolak resin, a silanol compound, and an
acid generator are investigated as deep UV resists. The acid produced in the exposed area induces the
condensation reaction of silanol compounds during post-exposure baking. The condensation reaction
products, siloxanes, act as an aqueous-base dissolution inhibitor, while silanol compounds in unexposed
area work as aqueous base dissolution promoters. The resist composed of Novolak resin, diphenylsilanediol,
and triphenylsulfonium triflate shows quite high sensitivity (-.-lmJ/cm2). Using this resist,
O.3pm line-and-space patterns were obtained by KrF excimer laser stepper with 3mJ/cm2 dose.
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The exposure and post-exposure bake of a chemical amplification resist that relies on the acid catalyzed removal
of a tert-butyloxycarbonyl (t-BOC) group have been investigated. The effects of the acid generator on the production
of acid during exposure and the extent of deprotection during the bake were examined by using different
weight percent mixtures of both a 2,6 dinitrobenzyl tosylate and a triarylsulfonium salt. The generation of acid
was monitored by measuring the resist transmission during exposure. The decrease during exposure of the nitro
group absorbance at 1540 cm' In the FFIR spectrum of the tosylate was correlated with the transmission measurements.
The experimental results were used to determine absorption coefficients and acid generation rate constants
for both acid generators. The extent of deprotection that occurred during the bake was determined by monitoring
the characteristic FTIR absorbance band at 1760 cm1 over a range of exposure doses, bake temperatures, and bake
times. The extent of deprotection was related to the local acid concentration generated during exposure through
chemical reaction kinetics. The model for the resist with the tosylate consisted of a primary deprotection reaction
where the rate of deprotection was proportional to the acid concentration to the mth power (m > 1). For the resist
with the onium salt, an additional acid loss reaction was required to account for saturation of the deprotection
reaction with increasing bake time. The resist with the onium salt was less sensitive to the bake conditions in comparison
to the resist with the tosylate. Improved resist performance during the bake was obtained when using
higher loadings of both the tosylate and the onium salt acid generators.
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The use of negative acting photoresists has become a integral part of
device fabrication strategy. In this paper we will. discuss a phenolic
based photoresist which incorporates a crosslinkable resin and an acid
generating sensitizer. When exposed and thermally treated, the resist
forms a negative tone image which is developable in an alkaline
medium. We will discuss the materials, processes and results from
photon, electron and X-ray lithographic evaluations.
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Acid hardening resists (AHR) which rely on chemical amplification schemes for increased photospeed arefinding wide acceptance as a viable approach to deep UV lithography. The understanding of the underlying acid-catalyzed chemistry and the processing protocol necessary to exploit the advantages of these resists is a subject of active interest in several laboratories. The thermal response of acid-hardening resists has been quantified in a lumped parameter model proposed in an earlier study [ 1]. In the current paper, we report on recent results obtained with a commercial AHR. We have investigated the processing latitude and the resist profile sensitivity as a function of postexposure bake and development conditions under normalized dose conditions predicted by our model. The mean free path of the acid has been estimated to ?e less than 70 A. The resist-induced linewidth bias has been correlated to the conjugate point of the aerial image over a wide range of processing conditions. Since acid diffusion is restricted by theformation of a crosslinked ne'tWork, the ability to manipulate the latent image as measured by the isofocal region of the resist has been investigated. This assumes importance in cases where the process needs to be optimized to obtain a desired bias. Since the exposure and development conditions are not as strongly coupled in acid hardening resists, the potential exists to optimize the development process independently and suitable parameters have been defined for this step.
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This paper describes methods used and results obtained in the production of 1-megabit
(Mb) DRAM chips, using a chemically amplified tertiary-butoxy carhonyl
hydroxystyrene (t-BOC) resist and 1X lithography. 'Flie internally developed resist
provided high sensitivity and contrast, for I rn resolution on a Perkin Elmer Micralign
model 500 (PE 500) in the deep UV. Characterization, and modification of the PE 500
were required for this first application in the deep UV. The manufacturing process had
photo limited yield in excess of 95% with throughput of 100 wafers per hour.
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This paper describes a study of the silylation characteristics of different resists that are suitable for
single-layer, surface-imaging patterning applications. In particular, the effect of different process
parameters on the silicon diffusion in UCB's Plasmask®resist is discussed. The diffusion profile
of silicon in the resist is decorated by a staining technique followed by SEM analysis. This allows
for two-dimensional resolution of the diffusion profiles and the observation of other process
attributes. Links are established among exposure, silylation and etch by observing silylated profiles.
It is shown that the silylation profile characteristics are dominated by the resist image created during
exposure. Also, the effects of post-exposure bake and silylating agent temperature are presented.
Diffusion profiles for MacDermid's PR1024 are also shown.
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The paper presents a novel surface imaging resist, consisting of an anhydride-containing copolymer and a diazoquinone photoactive
compound (PAC). As base resin, alternating copolymers of styrene and maleic anhydride were prepared which show benefits such
as high glass transition temperature (Tg = 170 °C) or low deep-UV absorbance (0.12/pm at 248 nm), in addition to the simplicity
of synthesis with high yields.
After imaging exposure, the exposed areas are selectively silylated in a standard puddle development track at room temperature
within 90 to 120 s md. rinsing. The silylation is performed with an aqueous solution ofabis-aminosiloxane in water and a dissolution
promoter and is accompanied by a film thickness increase, the extent of which depends on several factors such as exposure dose,
PAC content in the resist, molecular weight of the base resin, aminosiloxane concentration and silylation time. The resist is
developed through reactive ion etching in oxygen plasma, giving negative tone patterns. Lateral structure deformation has not been
observed with this system since the resist is silylated far below the Tg of the base resin.
The use of suitable 2-diazo-1-naphthalenone-4-sulphonic acid esters as PAC and the absence of crosslinking during deep-UV
exposure offer the advantage that the same resist can be applied in the same mode (neg.) for i-line and KrF excimer laser lithography.
By this means, lines and spaces down to 0.4 pm and 0.3 pm were achieved in 2 pm thick resist after exposures with an i-line
(NA = 0.4) or KrF excimer laser stepper (NA =0.37), respectively.
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Mask erosion is not significant in tn-layer lithography where the etching mask is Si02; however,
mask erosion may significantly affect etching profiles and process latitudes during the pattern
transfer step in bi-layer lithography. We discuss the effect of selectivity, wall angle, layer thickness,
and etching anisotropy on line-width loss in bilayer lithography. Predictions from the kinetic
theory of bombardment induced interface evolution are compared to experimental pattern transfer
results for electron beam exposed poly(trimethylsilylmethyl methacrylate-co-m,pchloromethylstyrene).
The interface evolution model describes bombardment induced etching by
an axisymmetric angular distribution of energetic particles where the yield per incident particle is a
function of energy and angle relative to the surface normal. Kinetic theory is used to relate the
energy and angular distributions incident on the substrate to the pressure, the voltage drop across
the plasma sheath, the sheath thickness, and the cross sections describing the collision processes.
The rate controlling step for the organosilicon polymer is assumed to be Si02 sputtering as
predicted by the steady-state model of organosilicon polymer etching. The 5i02 sputtering yield is
assumed to be a separable function of.energy and angle with a sputtering threshold of 50 eV. The
etching yield of the organic planarizing layer is assumed to be proportional to bombardment energy
and independent of angle. The angle dependent yields in the upper layer result in a facet that propagates
down from the upper edge of the resist profile. This facet has no effect on process latitudes
if less then F30% of the upper layer is consumed during the pattern transfer step; however, faceting
results in rapid line-width loss if more than 30% of the upper layer is consumed. Under
nearly optimized exposure and etching conditions, the experimental line-width loss during pattern
transfer was less than 20% of the nominal width for features with nominal dimensions down to 0.25
zm.
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I lighly sensitive resists have been developed from a combination of silsesquioxanes, acid photogenerators, and
phenolic resins. The resist forms negative images and is developable with aqueous base. Both electron beam and
deep-uv optical sensitivity was observed. The films displayed exceptionally high oxygen reactive ion etch resistance.
Bilayer systems were developed with this resist as the imaging layer with either polyimide or hard baked novolac
as the planarizing layer. Improved optical resists for single layer application have been obtained by using
poly(4-hydroxystyrene) derivatives as the matrix resin.
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A new positive working system for deep UV lithography, called PRIME (Positive Resist IMage by dry Etching) using
silylation and dry development was proposed1. This system is derived from photolithographic DESIRE process.
In order to better understand mechanisms involved in the PRIME process, different characterization experiments were
carried out. For this purpose an experimental silylation module was built. This module includes an in-situ silylation
detection based on resist reflectivity variations during wafers treatment. Reflectivity variations are due to index variation
and swelling of the silylated resist. This feature ensures not only a better reproductibiity but also the measurement of
kinetics and thermodynamics parameters.
In a second part, results obtained with PRIME in deep UV lithography will be discussed. At 248 nm with a mask aligner,
0.2 jun L/S patterns were resolved in 0.7 j.un thick resist. Moreover these patterns were transfered in 0.6 im thick silicon
dioxide and 0.3 pm polysilicon. A resolution of 0.25 im lines and spaces in 1.1 jim thick resist was achieved with ASM
PAS 5000-70 deep UV stepper *.
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We investigated dry-develop resist as the top layer in a bilayer system. The resist
consisted of polyacetylene with silicon atoms, PTMDSO (poly 4,4,7,74etramethyl-4,7-disila-
2-octyne) as a base polymer, and a phenyl azide as a photosensitive addition agent. 0.30 pm
line and space negative patterns were resolved, when the resist exposed using a KrF excimer
laser stepper system was developed in the down stream of 02/CF4 plasma. The sensitivity was
around 100 mJ/cm2 and the oxygen plasma resistance was about 50 times greater than that of
novolak resist.
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The rate and selectivity of silicon uptake during the silylation of resists consisting of styrene/ para-(t-BOC)-
styrene copolymer resins and tri-phenyl sulfonium hexa-fluom-arsenate (onium salt) photosensitizer has been studied.
VFIR spectroscopy has been used to monitor the extent of the deprotection reaction that occurs during baking
and the silicon uptake during silylation. It has been found that for the co-polymers, silicon diffusion is rapid, and
the silicon uptake is directly related to the number of phenolic sites created during the post-exposure (jwesilylation)
bake.
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The quality of resist profiles obtained In surface Imaging techniques based on
selective diffusion of a silylating agent and subsequent dry development depends
on the sificon distribution after silylatlon and the quality of the transfer
of this silicon image during dry development. Ideally, the silicon distribution at
the pattern edge should show a very abrupt change from low to high silicon incorporation.
This so called "silicon contrast" depends upon the composition of
the resist materials and the silylatlon conditions. In this paper, we will describe
the effect of resist parameters such as sensitiser type and concentration, resin
type, molecular weight, molecular weight distribution and hydroxyl group content
of the resin on the lithographic characteristics of the resist materials In the
DESIRE process.
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This paper studies the etiemistry of image reversal (1R) systems based on 2,1,4-
diazoquinone substituted trihydroxybenzophenone (THBP) , tetrahydroxybenzophenone
(tetra-HBP), p-cumylphenol (PCP) and novolac resins (N). Results are investigated
in depth as to their impact on the functional behavior of the IR resist. Both
cross-linking and decarboxylation modes are studied , as they relate to energy
to clear. It is shown that using cross-linking systems based on the above DAQ
esters, a m/p novolac, and a bifunctional cross-linking agent of the type '2
wherein X = OH, the broadband energy required to effect cross-linking decreases
in the order of PCP > N > tetra-HBP > THBP. The concentration of the afore-
mentioned sensitizers was in all cases equimolar in terms of diazo content.
Surprisingly, in decarboxylation IR, the exposure energy required to effect
decarboxylation decreases in the order of tetra-HBP > THBP > N > PCP,
essentially a complete reversal as compared with cross-linking type IR.
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Aliphatic 2-diazoketones of various structural types were synthesized then
screened as photoactive components of deep U V resists Several of the materials
were readily photolyzed upon deep U.V. irradiation but also exhibited reasonable
thermal stability. Representative resists incorporating these materials gave
positive tone with metal ion containing developers and negative tone with metal
ion free developers. Resist sensitivity was dependent on the frequency spectrum
of the exposing deep U.V. light.
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New alkali-soluble polymer which is highly transparent at 248nm were
prepared. Alkali-dissolution rate, optical transmission at 248nm and RIE resistance
of the polymer were studied. As a sensitizer, diazoketone compounds were
newly synthesized and provided an intense bleachable absorbance at 248nm. The
new KrF excimer laser positive resist (NEX) composed of the diazoketone as the
sensitizer and the maleimide copolymer as the base polymer has been developed.
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The relationship between resist performance and the kinds of phenolic
compounds for novolak resins was investigated from the standpoint of the
image formation process. Dissolution rates were measured on photoresists
containing novolak resins made from various phenolic compounds including
phenol,cresol,ethylphenol,butylphenol,and their copolymers. It was fo.und
that there are suitable combinations of phenolic compounds to exhibit high
resist performance. On the basis of the experimental results,we discuss the
effect of the kinds of phenolic compounds on the dissolution characteristics
and the structure of novolac resins. Finally,we propose a selection
principle of phenolic compounds for novolak resins useful to design high
performance positive photoresists.
1.lntroduction
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Due to the numerous hydroxyl groups present in Novolaks and PHS, large amounts of free volume are created
during the spin coating process. The free volume variations can be observed using plasma etching techniques along with
laser interferometry. The concept of free volume allows a clearer description of the bake process. The detection of free
volume implies a better understanding of its role in the various steps of the lithographic process. Several applications of
this technique are presented.
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effects in the development process.
A comprehensive theory ofdissolution inhibition in novolak-DNQ (diazonaphthoquinone) resist is
proposed, which is based on experimental studies of novolak-PAC (photoactive compound) interactions and the
relationship between novolak microstructres and dissolution inhibition. The theory invokes a "two-step
mechanism". Static molecular interactions between novolak and DNQ are augmented by secondary dynamic
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The roles of polymer molecular weight, molecular weight distribution and chemical composition on the lithographic and
thermal performance of positive photoresists were investigated.
With the exception of a separately prepared alternating block copolymer, the five novolaks studied resulted from successive
solvent fractionation of one original mixed cresol polymer to yield a range of molecular weights from 1000 to 29,000
weight average molecular weight (Mw) and polydispersities ranging from 1.9 to 10.1. The alternating block copolymer,
prepared by formation of low molecular weight oligomers which were then joined, is nearly identical in Mw and M to one
of the fractionated polymers. Thus, similar polymers prepared by different techniques could be compared.
Photoresists made from these polymers were formulated to nearly constant total absorbance at G line using a single
photoactive compound (PAC) at constant PAC-to-polymer ratio in all resists. The PAC is a commonly employed 0 linesensitive
diazoquinone, with more than half of the ballast structures containing four diazonaphthoquinone groups.
Lithographic response for each resist was normalized to constant unexposed film thickness loss (UFTL) of approximately
1 1OA/min by varying developer normality. Responses evaluated include photospeed, resolution, sidewall profile, exposure
latitude, linearity, and thermal flow temperature.
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The Chemical Amplification ofResist Lines (CARL) and its practicability in a bilayer/O2RIE processing scheme (Si-CARL) is
described. Novel anhydride-containing resins and photoactive compounds of the diazonaphthoquinone type are used in top resists
with sub-halfmicron resolution capability in both NUV and KrF excimer laser lithography. The silylating treatment of alkaline
developed, positive tone top resist patterns with aqueous solutions of bisaminoalkyl-oligodimethylsiloxanes can be performed on
standard puddle development tracks at room temperature. A concomitant linewidth increase is used to reduce dimensions of
resist openings, e.g. trenches or contact holes, with good process control. Equal lines and spaces were achieved by treatment of
slightly overexposedtopresist patterns. Modified top resistpatterns are transferred intothe underlying 1 .3 -1.8 j.tm thick planarizing
layer without linewidth variationtogive steepprofiles and high aspect ratios. Thus, 0.3 tm resolution is obtained with KrF excimer
laser exposure (0.35 NA). The attained resolution of 0.3 tm features with g-line exposure (0.55 NA) represents ak-factor of 0.38,
according to the Rayleigh relation. This paper discusses process and lithographic performance characteristics of the novel Si-CARL
process.
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A dual-tone photoresist that produces positive and negative images has
been developed. The chemistry of image reversal is based on novolac-bound
isoureas. Isoureas are "blocked" carbodiimides which deblock during postbake
to deactivate indenecarboxylic acid groups in the irradiated areas. After
postbake, the resist is flood-exposed to convert the remaining photoactive
compound in the resist to indenecarboxylic acid groups; development then gives
a negative image of the mask.
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Germanium-containing resist material has been investigated as a new type of removable
bilayer resist , since the oxide of germanium is soluble in conventional acids. The
polymers derived from trimethylgermyl- styrene ( GeSt) show good resistance to 02 RIE , and
their surface has been •determined to be converted into GeO, by XPS measurement before
and after 02 RIE. The homopolymer of GeSt has been found to crosslink upon exposure to
deep UV or electron beam radiation and to behave as a negative resist. The sensitivity
is enhanced several times as high as that of the PGeSt by copolymerizing with 1 0 mol%
chloromethyl-styrene ( CMSt) . The copolymer gives fine resist patterns with vertical
sidewalls in a bilayer process. The germanium- containing resist pattern after 02 RIE
is not completely dissolved in some acids such as H2 SO4 . This is due to the organic
components remaining in the film. However, it has been found that it is perfectly
dissolved in oxidizing acids such as fuming HNO and H2S04/H202(2/l) without a residue.
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Lithographically structured electrically conducting polymers can be
otained via photoexposure of precomposites, consisting of a matrix
polymer and a photosensitive oxidant. Upon the selective destruction
of the oxidant, the remaining oxidant can be used to convert a
suitable monomer from its vapor phase into a lithographically
patterned, electrically conducting polymer. This two-dimensional
pattern can be converted into a three-dimensional pattern either via
selective RIE or via electroplating a metal or other conducting
material on top of the above composite. In a typical example the
matrix polymer is PVC, pyrrole saves as the monomer, FeC13 as the
photosensitive oxidant and copper is being electroplated onto the
polypyrrole pattern.
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The dyeing effect observed at an image reversal resist, are explained using tTh-Vis
spectropbotanetry , and on that basis, the canputations of A , B, C and y values used
in SAMPLE simulations prove the lithographic properties of this technique.
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Aerosol photoresist particles, that formed during spin-coating of
silicon wafers, were contained by modifying the spin-cup of a
photorésist coater. The aerosol particles were counted, using an
optical particle counter, and collected for SEM inspection with a
cascade particle inipactor. We measured the effect spin-coating
process variables had on the nuniber, size and shape of photoresist
aerosol particles. Both negative and positive photoresist coatings,
having photoresist aerosol particles on their surfaces, were exposed
and developed to demonstrate the type of pattern defects that fornied.
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It is generally accepted that a 1 jim thick resist film should have an absorbance of no more than 0.25 absorbance unit at the
exposure wavelength to enable formation of high-resolution images with vertical wall profiles. Conventional materials are
ill-suited for use with KrF excimer laser exposure as the primary component (ca. 80% w/w) of conventional photoresist
formulations is novolak resin with absorbance □ 0.6 a.u.flim at 248 nm. This paper describes the optimization of novolak
resin composition to give films with minimal absorbance at 248 nm.
The deep-UV (248 nm) absorbance of dilute solutions of substituted phenols has been measured and found to follow a welldefmed
and predictable pattern. Use of this information to model the absorbance of novolak resin solutions is complicated by
the effects of polymer secondary structure on UV absorbance. The absorbance of novolak homopolymer solutions has been
studied in four solvents and found to be dependent on polymer composition, secondary structure, molecular weight, and
solvent. In order to observe the effects of composition independent of secondary structure, highly branched novolak
oligomers were prepared by condensation of commercially available phenols with 2,4,6-tris(dimethylaminomethyl)phenol
(Rohm and Haas DMP3O). The optical densities of films of these structurally uniform oligomers were compared. The
most transparent copolymers had optical densities which were essentially the same as that of a m -cresol novolak
homopolymer, ca. 0.35 absorbance units/Rm.
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This paper describes the evaluation of several phenothiazine and benzophenothiazine derivatives which
are useful as i-line and g-line photosensitizers for a class of chemically amplified crosslinked resists. Data
supporting an electron transfer mechanism of sensitization from the excited state of the sensitizer to the
acid generator are provided. Initial lithographic screening demonstrates the potential for both high
sensitivity and submicron resolution in these systems.
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This paper studies e effects of process conditions and dye additives on sidewall profiles using RS—1 designed experiments. We have explored the mechanism of forming negative sidewall profiles (above 90) in a positive photoresist, the dependence of depth of focus (DOF) and exposure latitude upon sidewall angle The resist studied is a positive, dual purpose (g—, i—line) resist, ULTRAMAC EL2015. The study presented in this paper was done in i—line but similar phenomena were observed in g—line as well. The effect of two different actirtic dyes in various concentrations on wall angle control is demonstrated. The two dyes investigated are both soluble in resist solvent but their solubility in developer is very different and their effect on required exposure energy is different. The contribution of the dyes to the absorption of the resist, their effect on swing curve and surface inhibition is evaluated and compared. The surface inhibition effect of undyed resist has been determined to be the most critical parameter influencing profiles, as increased post exposure bake temperature increases sidewall profile angle.
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The DESIRE1,2 process is based on selective silylation and subsequent dry development. A problem with silylation of resists
is the volume expansion3 of the resist image, which results in pattern deformation and displacement of small features near
large structures, also referred to as proximity effect. This lateral swel1ing45 should be reduced before implementation of
DESIRE in ULSI processes.
The effect of processing conditions, exposure wavelength, polymer composition and type of silylating agent on this swelling
phenomenon have been studied and several solutions for reducing the swelling are proposed. Both thermal and UV induced
crosslinking have been found to be a major contributor for elimination of the swelling. During silylation the silylating agent
diffuses into the resist and reacts with the hydroxyl groups of the polymer. Swelling was reduced by lowering the concentration
of these hydroxyl groups and by making use of different silylating agents with a smaller ballast group on the Si.
The DESIRE process was implemented in a 0.5 xm gatelength NMOS process, in order to examine its compatibility with
MOS processing, especially dry etch characteristics. 0.5 jim transistors have been succesfully made.
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The use of evolutionary resist processing techniques designed to improve profiles and extend process latitude, is of general
interest to lithographers. The more commonly known methods (HARD, LENOS) utilise the phenomenon of alkali catalysed
crosslinking, to create additional surface inhibition during development. Such techniques whilst undoubtedly useful, are by
their very nature limited to improving only the very top of the resist profile. Additionally under certain process conditions the
formation of a top hat profile can be observed, this is particularly noticeable on smaller features. The use of an interrupted
development cycle, or of multiple interrupted development cycles (PRISM) has also been reported to exert a beneficial effect
on profiles. However our own tests, utilising a single interrupted development cycle, are unable to support such claims, and
have in fact demonstrated degraded profiles, in comparison with a standard double puddle process.
We report here on an alternative technique, the so called intermediate development bake or 1DB, whereby a short low
temperature baking step is introduced midway during the development cycle. The distributed nature of this technique
discourages the formation of top hat profiles, whilst improving the upper part of the developed profile.
Previously reported work concentrated on the use of infra red baking. The present paper investigates this further, whilst
additionally covering the use of warm air and warm water treatments. The use of warm water in particular is potentially very
attractive, and we demonstrate its effectiveness on a range of i-line specific, g-line and multiwavelength resists, exposed
using i-line. A particularly close study has been made of Olin's HiPR 6512 resist using both metal ion and metal ion free
developers.
Based on a number of observations including the use of FTIR and XPS, we advance a mechanism to explain our results.
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During the last several years image reversal has been demonstrated to be an effective technique for
extending theresolution ofoptical steppers while maintaining therelative simplicity of single layerresist
processing13. In order to satisfy the increasing requirements for smaller device geometries very high
numerical aperture g-line steppers have lately become available. A new image reversal resist (Raypo)
designed specifically for g-line use has recently been developed by Hoechst corporation4. This paper
discusses the process optimization andlithographic performance ofthis resist on a 0.54 N.A. stepper, one
ofthe highest numerical aperture g-line steppers currently available. The process variables investigated
include prebake temperature, post exposure bake temperature, flood exposure time, and develop conditions.
The responses studied include resolution capability, profile quality, dose requirements, exposure
latitude, focus latitude, and performance on reflective topography. The thermal stability of the resist is
also discussed. Some results are compared with those for a new advancedpositive g-line resist (AZ 6212)
developed by Hoechst corporation.
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A silylation process for novolac-based resins was developed which
results in positive-tone imaging. This process is based on 193nminduced
crosslinking followed by a low temperature silylation step.
Novolac resin without diazoquinone additives may also be used as
positive-tone resists. Typical conditions were exposure to
dimethylsilyldimethylainine vapor at 10 Torr for 1 minute at 100 °C.
This incorporates silicon in the upperniost 100 to 1000 nn of the film,
depending on the resist. Etch selectivities in a 10 rnTorr oxygen
reactive ion etching plasma with a bias voltage of -200 V were typically
30:1. Resolution below 0.3 m has been demonstrated with this
technique.
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The study of the SAL 601 shows that E-Beam exposure induces selectivity in the diffusion of silylating agents. Two
different mechanisms are responsible for silicon incorporation. The HMDS diffusion and reaction in the novolak matrix have
been studied as a function of the thermal properties of the polymer. Two main silylation processes have been found by the
modification of silicon incorporation mechanisms versus the silylation temperature.
Different silylation tools and etchers have been tested in order to achieve correct patterns. Mask formation and grass
phenomena have been studied and a model with aggregates formation has been developed.
Silicon incorporation into the three different component resists has been studied versus the main silylation parameters.
Submicron patterns have been achieved for different processes. This paper demonstrates that three component resists can be
silylated by the use of different silylation processes and are good candidates for half-micron lithography.
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A new class of novolacs has been developed which imparts a unique blend of sensitivity, submicron resolution and image
thennai flow resistance to positive photoresist formulations. The novolac system is based upon condensation of metaand
para-cresol with a chloroaceta!dehyde equivalent. The resists are based upon formulations of the new
chloroacetaidehyde (CM) novolacs and typical diazonaphthoquinone photoactive compounds. The resist image thermal
flow temperatures can exceed 200°C depending upon the molecular weight and composition of the novolac. As a result
of the high thermal flow properties of the CM novolac, the resists are verb' stable to reticulation in aluminum or oxide
plasma etching environments, eliminating the need for Deep UV curing.
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A series of experiments was run to determine the chemical and
process effects on CD uniformity for Dynachem's new dyed
photoresist, NOVA 2050 AR, when developed with metal ion free and
metal ion type developers. The matrix of experiments included
variations in spray time and puddle time, but with the constraint
that all experiments had the same total time for spray and puddle
times. In order to do this type of matrix it was necessary to make
an unusual use of a mixture model to devise the experimental
design.
The design was devised to look at the effects of one-puddle, twopuddle,
three-puddle and all-spray processes. Also, the effect of
using either metal ion free or metal type developers was examined
by running the matrix with Dynalith EPD-85 and DE-3 (0.5%) as
respective examples of the two developer types.
Before beginning the above matrix the baseline parameters for
nozzle position, puddle time, spray time, spray speed, pre-wet
time, spray pressure and spray time were determined via a Plackett-
Burinan design of experiments.
These three studies when compiled and analyzed with the statistical
software package, RS-l, served to separate the effects of process
parameters and developer type according to their effect on CD
uniformity. These results suggest that three-puddle metal ion free
develop processes were superior.
Graphs will be shown that illustrate which parameters are the most
influential concerning CD uniformity. A mathematical model will be
presented that will allow the calculation of the standard deviation
for CD uniformity with 95% confidence for any given set of spray
and puddle times.
These data and models will thereby give guidance to the process
engineer how to best use developer type and process in order to
obtain the best CD uniformity for a 1.0 micron process.
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The purpose of this article is to propose a residue-free process using ANR resists specifically
designed for deep UV lithography. The influence of development steps, process conditions and resist
formulation on residues were studied. An optimized process point with a new resist formulation is
proposed. Using this residue-free process point, very high resolution was achieved for deep UV and
e-beam lithography. Moreover, the temporal effects on the coated wafers were investigated.
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In surface imaging, dry developed resist systems, based on gas phase silylation,
profiles are mainly determined by the silicon distribution between the
exposed and the unexposed areas in the upper part of the resist, and by the
dry etching process that transfers this silicon image into the rest of the resist
layer1 . Contrast enhancement, resulting in steeper roflles and less residues, is
obtained by a two-step dry development process23. In a short first step, a
small amount of a fluorinated gas is added to remove the upper thin layer of
resist. This results In an elimination of residual silicon in the non-exposed areas
and also in steeper silicon-profiles in the exposed regions, and thus in steeper
resist profiles after dry development. Similar process improvements can be
obtained using a two-step dry development process using pure oxygen. The
selectivity is then controlled by increasing or decreasing physical sputtering.
Instead of using fluorine containing gases for non-selectivity, the silicon,
incorporated Into the non-exposed areas, is sputtered away physically In a first
step by using elevated power and decreased flow rate conditions.
With this in mind and with the help of a statistically designed experiment, The
optimum process conditions for this pure oxygen, two-step development
process were determined. The results are compared to those obtained using a
single step development and to the two-step C2F6 process.
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The accelerated drive toward 0.5 and 0.3 urn optical imaging is putting severe
pressure on both the equipment and photoresist vendors. Materials must give
both high resolution and high process latitude. These needs led to the develop-
ment of EL2015 positive photoresist series. This is a high contrast, high
resolution photoresist series based on the same chemical concepts used in our
PR1O24MB resists. This new resist contains a 2,1,5-naphthoquirionediazidesulfonate
ester of a special novolac as its photoactive component. This is combined with
an improved novolac resin for better film integrity. EL2015 is a versatile
positive resist optimized for g-, h-, i-line, and broadband exposure tools.
Resolution of better than 0.50 urn has been routinely obtained with current
0.40 NA i-line steppers and 0.40 urn resolution at best focus. A focus latitude
of greater than 1.5 urn for 0.5 urn images with an exposure latitude of 30-50%
has been demonstrated on i-line equipment. Finally, the thermal stability
and plasma etch resistance of EL2015 has been found to be comparable to current
high resolution g-line photoresists.
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Good resist patterns are not obtained for KrF excimer laser lithography using
conventional naphtoquinonediazide novalac resin deep UV resist because of the strong
photoabsorption of the resist at 248nm wavelength. In this paper we report the
development of new high transparency positive resists, STAR-P and MASTER, using
poly(styrene-co-maleic acid half ester) base polymer and sensitizers. These resists have
excellent transmittance as high as 70% and photobleaching characteristics resulting in
resolution of 0.45 micron with excellent pattern profiles with greater than 80 degree
wall angle. These resists also have excellent dry etch resistance comparable to
conventional novolac resist during silicon dioxide etch. These resists are good
candidates for development and manufacturing of sub-half micron VLSI devices.
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This paper reviews the initial lithographic performance of the Megaposit® SNR 248-1.0
Photo Resist during the imaging of 0.35, 0.40, 0.45, 0.50 and 0.55km line/space pairs on a
0.42NA/0.5 coherence/KrF stepper. The test results show that process window overlap can be
maintained to a normalized geometry size of 0.59 ki for line/space pairs. This degree of
overlap is shown to be comparable to a normalized value of 0.76 k 1 during the simultaneous
imaging of line/space pairs, isolated lines and isolated spaces. This result appears to be consistent
with the g-line results published prcviously1 . It is also shown that at the exposure
dose required to size the target geometry, the resist induced bias due to lateral development is
negligible and provides the possibility to extend the working resolution to smaller geometries
if the intensity minimum of the aerial image can be suppressed.
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The present work presents an investigation of the characteristics of a broad band capability photoresist in terms of photo-active
compound (PAC) bleachability and process performances. The difference in performance on exposure to 436 and 365 nm
wavelengths of a commercially available photoresist, Olin Hunt H1PR-6512, has been evaluated as a function of some typical
lithographic parameters by using FT-IR spectroscopy and actinometry. This analysis contributed to the development of a submicron
I-line process, which in conclusion is shown in a production environment application.
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DUV lithography is an emerging technology which promises excellent resolution coupled with an
improved depth of focus. Whilst the hardware connected with this technology is rapidly maturing, there
remain question marks over the suitablilty of present DUV resists in the fabrication of actual circuits.
Two widely differing approaches are typified by Plasmask (DESIRE) which involves surface imaging and
dry development and by the wet developable Shipley Megaposit SNR 248-1.0, which utilises acid
catalysed chemistry. We have studied both materials using a contact printing system and the ASM-L PAS
5000110 DUV stepper (both at 248 nm wavelength). In particular we have compared the lithographic
performance of both resists on a variety of substrates and topographical features, commonly encountered
during processing. Practical issues such as the intrinsic adhesion, photospeed, exposure latitude, focus
latitude, linearity, thermal resistance and etch resistance are presented.
For the Shipley material we have compared its performance under various development conditions, with
respect to resolution, photospeed, profile and residues. On the Plasmask material we have investigated the
degree of silicon incorporation for various silylation conditions and for various Plasmask formulations.
Significant differences have been noted for exposures made with this wavelength (248 nm) and those
commonly reported with g and i-line exposure. Finally, the feasibility of using TMDS (1,1,3,3
Tetramethyldisilazane) as a silylating agent is presented.
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A photoactive compound (PAC) based on diazonaphthoquinone (DNQ) -5-sulfonyl ester of
a novel ballast group (backbone) , which provides compatibility for both g- and i-line
exposures is described . The PAC structure was designed to minimize the background
absorption at 365 nm due to the backbone moiety, and further to enable a resist
formulation to be optimized with lowered PAC loading for the reduction in A and B
parameter values. Model PACs having different structural parameters were investigated
by DRM and lithographic evaluations. The results indicated desirable PAC structures
of lower absorption which provided the additional benefits of higher contrast and
photospeed. The following structural parameters were found to contribute positively
to these. (1) higher DNQ substitution level of backbone compounds, (2) an introduc-'
tion of hydrophobic moiety into the backbone, (3) higher functionality of the backbone
(number of the hydroxy groups capable of DNQ substitution) . A backbone compound
for the , polyhydroxyspirobiindane was found to fulfil 1 the above requirements.
A resist formulated with the PAC based on this backbone exhibited excellent resolution
with near vertical profiles when imaged on high NA g- and i-l me steppers.
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Langmuir-Blodgett (LB) techniques can be used to prepare very thin organic films, and we
have investigated their use in lithographic applications. Resist films were prepared usmg
novolac and poly(p-hydroxystyrene) resins and both near and deep UV sensitive photoactive
compounds (PAC). LB resist films formed from mixtures of polymer and PAC
behaved lithographically in a similar fashion to spin cast films. LB films as thin as 300 A
were sufficient to protect 500 A of chromium during wet chemical etching. Initial attempts
to use LB films as the top layer in a bilayer resist system indicated that silylation of the LB
films may yield etch rate ratios of up to 10: 1 vs hard baked novolac. Investigation of the
"sphere of influence" of PAC molecules by controlling their distribution throughout the
film indicates that strong interactions may exist between consecutive LB layers of PAC.
LB films may also be useful for modifying the surface concentration of PAC.
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Photoresist materials based on chemical amplification processes show unique properties with respect to their sensitivity,
flexibility in design and resolution capability which extends down to the sub half micron region as required for the
production of ULSI devices of the next generations. Moreover, as such materials perfectly meet the requirements of DUV
exposure tools, it is anticipated that they will be used for the production of 64 MB DRAMs. The photoacid generator
(PAG) plays an important role in these complex systems. We report results using new nonionic PAG's, namely a,o'-
bisarylsulfonyl diazomethanes j, which on DUV irradition generate sulfonic acids capable of cleaving acid labile
dissolution inhibitors in positive tone DUV photoresists or crosslinking acid sensitive methylol compounds in negative
tone materials. Their chemistry, photochemistry and relevant physical properties are discussed; first results on DUV
sensitive three component photoresist materials using as PAG's are presented. The high sensitivities and contrasts
observed in these materials are close to meeting the requirements of the semiconductor industry, which makes them
viable candidates for further evaluation.
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Highly sensitive resist materials are one of the prerequisites for the economic viability of X- ray and
E -beam lithography. The principle of chemical anzphfication coupled with the three - component
system (3CS) concept leads the way to the design of highly sensitive, yet as the same time process
stable materials which fulfill the requirements of modem semiconductor patterning methods. Two
experimental 3CS resist systems using chemical amplification, the positive -tone resist RAY- PF and
and the negative - tone resist RAZ PNJJ4, will be presented, and their suitability for X- ray and E -
beam application exa,nined.
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It is generally accepted that the production of shrink versions of the 16 MB DRAM and the 64 MB DRAM generations
will be patterned using deep UV radiation. This provides a new challenge to the photoresist suppliers, as the standard
photoresist formulations are not suitable for this technology, mainly because the presently used novolak resins are highly
opaque in the 200 - 300 nm region. This is especially true for the 248 nm wavelength of KrF eximer lasers. Poly 4-
hydroxystyrene [PHS] has several advantages in transmission and thermal stability; however, its dissolution rate in
commercial grade developers is unacceptably high. We report some recent results on modified, alkyl-substituted PHS
derivatives. These polymers combine reduced alkaline solubiity with adequate optical and thermal properties, making
them acceptable for future deep UV based production processes. Selected data of these new (co)polymers are discussed.
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The chemistry and preliminary lithographic characteristics of chemically amplified positive acting
(CAMP) resist formulations that meet the deep-UV lithography requirements of low optical density and
high sensitivity were described recently.11 This paper examines the lithographic performance of a
specific resist comprised of poly (t-butoxycarbonyloxystyrene-sulfur dioxide) and the onium salt,
triphenylsulfonium hexafluoroarsenate as the photoacid generator. The lithographic performance was
evaluated as a function of resin molecular properties, sensitizer loading effects and various process
parameters. Exposures of optimum formulations of this resist (CAMP) were conducted on a GCA
prototype deep-UV exposure tool with a NA = 0.35 and 5X reduction optics. Line/space patterns down
to 0.35p.m with vertical wall profiles and 0.4.tm windows in 1-1.2im thick films were obtained.
The paper will summarize the resolution, depth of focus, exposure latitude and processing
characteristics obtained from the evaluation of CAMP and will discuss the pattern transfer results
obtained with different substrates. The performance of CAMP was also evaluated on substrates with
topography and the results will be presented.
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The silylated image and etched profiles in the DESIRE process are simulated and compared with experimental results.
The simulations show sioped silylated profiles, due to the finite contrast of both the aerial image and the silylation.
As a consequence the etched profiles are positively sloped and the linewidth changes in the course of the etch process.
Experimental results reveal that the slopes of the silylated areas are even worse than simulated. This is attributed
to lateral swelling and lateral transport of the silylating reagent. In accordance with the simulation the linewidth
decreaseS during etching. The sidewall angles, however, remain near-vertical despite the worse slope in the silylated
profiles.
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A new resist composition based on PMMA-MAA copolymer with antracene additive was exposed by a single
pulse of KrFexcimer laser (X =248 nm). Its contrast was found to exceed significantly the limit
determined by light absorbtion. Studies of the development kinetics of the resist and corresponding
theoretical reasoning justify the assumption of a thermal activated process (boiling of the residual
dissolver).
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Surface modification of novolac type photoresist was investigated
by alkali treatment in KrF excimer laser lithography. It was
clarified from FTIR, ESCA, and UV spectrum analysis that the
formation of an insoluble layer on the resist surface is due to the
existence of a concentrated layer of a photoactive compound.
This insoluble layer improved the top profile of the resist
pattern and suppressed film thickness loss, but was not effective
for controlling the linewidth in the succeeding reactive ion etching
process. The wall angle of the resist profile was found to be the
most important factor for decreasing the linewidth shift through
reactive ion etching. Lateral modification of the resist side wall
was conceived to improve the wall angle from the result of analyzing
surface modification.
As a result, vertical profiles of sub-halfmicron patterns were
obtained successfully, which was realized by a combination of alkali
treatment before exposure and multi-step development.
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