Integration of metallic source/drain contacts in MOSFET technology

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Fältnamn	Indikatorer	Metadata
000		04883nam a2200469 4500
001		oai:DiVA.org:kth-13136
003		SwePub
008		100528s2010 \| \|\|\|\|\|\|\|\|\|\|\|000 \|\|eng\|
020		a 9789174156805q print
024	7	a https://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-131362 URI
040		a (SwePub)kth
041		a engb eng
042		9 SwePub
072	7	a vet2 swepub-contenttype
072	7	a dok2 swepub-publicationtype
100	1	a Luo, Jun,d 1979-u KTH,Integrerade komponenter och kretsar4 aut0 (Swepub:kth)u1htguam
245	1 0	a Integration of metallic source/drain contacts in MOSFET technology
264	1	a Stockholm :b KTH,c 2010
300		a xii, 78 s.
338		a electronic2 rdacarrier
500		a QC20100708
520		a The continuous and aggressive downscaling of conventional CMOS devices has been driving the vast growth of ICs over the last few decades. As the CMOS downscaling approaches the fundamental limits, novel device architectures such as metallic source/drain Schottky barrier MOSFET (SB-MOSFET) and SB-FinFET are probably needed to further push the ultimate downscaling. The ultimate goal of this thesis is to integrate metallic Ni1-xPtx silicide (x=0~1) source/drain into SB-MOSFET and SB-FinFET, with an emphasis on both material and processing issues related to the integration of Ni1-xPtx silicides towards competitive devices. First, the effects of both carbon (C) and nitrogen (N) on the formation and on the Schottky barrier height (SBH) of NiSi are studied. The presence of both C and N is found to improve the poor thermal stability of NiSi significantly. The present work also explores dopant segregation (DS) using B and As for the NiSi/Si contact system. The effects of C and N implantation into the Si substrate prior to the NiSi formation are examined, and it is found that the presence of C yields positive effects in helping reduce the effective SBH to 0.1-0.2 eV for both conduction polarities. In order to unveil the mechanism of SBH tuning by DS, the variation of specific contact resistivity between silicide and Si substrates by DS is monitored. The formation of a thin interfacial dipole layer at silicide/Si interface is confirmed to be the reason of SBH modification. Second, a systematic experimental study is performed for Ni1-xPtx silicide (x=0~1) films aiming at the integration into SB-MOSFET. A distinct behavior is found for the formation of Ni silicide films. Epitaxially aligned NiSi2-y films readily grow and exhibit extraordinary morphological stability up to 800 oC when the thickness of deposited Ni (tNi) <4 nm. Polycrystalline NiSi films form and tend to agglomerate at lower temperatures for thinner films for tNi≥4 nm. Such a distinct annealing behavior is absent for the formation of Pt silicide films with all thicknesses of deposited Pt. The addition of Pt into Ni supports the above observations. Surface energy is discussed as the cause responsible for the distinct behavior in phase formation and morphological stability. Finally, three different Ni-SALICIDE schemes towards a controllable NiSi-based metallic source/drain process without severe lateral encroachment of NiSi are carried out. All of them are found to be effective in controlling the lateral encroachment. Combined with DS technology, both n- and p-types of NiSi source/drain SB-MOSFETs with excellent performance are fabricated successfully. By using the reproducible sidewall transfer lithography (STL) technology developed at KTH, PtSi source/drain SB-FinFET is also realized in this thesis. With As DS, the characteristics of PtSi source/drain SB-FinFET are transformed from p-type to n-type. This thesis work places Ni1-xPtx (x=0~1) silicides SB-MOSFETs as a competitive candidate for future CMOS technology.
650	7	a NATURVETENSKAPx Fysikx Den kondenserade materiens fysik0 (SwePub)103042 hsv//swe
650	7	a NATURAL SCIENCESx Physical Sciencesx Condensed Matter Physics0 (SwePub)103042 hsv//eng
653		a CMOS technology
653		a MOSFET
653		a Schottky barrier MOSFET
653		a metallic source/drain
653		a contact resistivity
653		a NiSi
653		a PtSi
653		a SALICIDE
653		a ultrathin silicide
653		a FinFET
653		a Semiconductor physics
653		a Halvledarfysik
700	1	a Östling, Mikael,c Professoru KTH,Integrerade komponenter och kretsar4 ths
700	1	a Zhang, Shi-Li,c Professoru KTH,Integrerade komponenter och kretsar4 ths
700	1	a O'Neill, Anthony,c Professoru School of Electrical, Electronic and Computer Engineering, Newcastle University4 opn
710	2	a KTHb Integrerade komponenter och kretsar4 org
856	4	u https://kth.diva-portal.org/smash/get/diva2:321150/FULLTEXT01.pdfx primaryx Raw objecty fulltext
856	4 8	u https://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-13136

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By the author/editor: Luo, Jun, 1979-; Östling, Mikael, ...; Zhang, Shi-Li, P ...; O'Neill, Anthony ...

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