American Chemical Society
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- IALL (Full Record)
- ALL (Full Record)
- IBIB (Indented Bibliographic Citation)
- CBIB (Compressed Bibliographic Citation)
- BIB (Bibliographic Citation)
- IBIB ABS (Indented Bibliographic Citation)
- CBIB ABS (Citation and Abstract)
- BIB ABS (Citation and Abstract)
- TI (Title)
- SCAN (Sample Format in Random Order, Free)
- SAM (Sample: Title Plus Indexing)
IALL (Full Record)
=> d l16 2 iall noh
L16 ANSWER 2 OF 888 CA COPYRIGHT 1996 ACS
ACCESSION NUMBER: 125:128883 CA
TITLE: Synthesis, characterization and immobilization
of nanocrystalline binary and ternary Group
III-V (13-15) compound semiconductors
AUTHOR(S): Halaoui, L. I.; Kher, S. S.; Lube, M. S.;
Aubuchon, S. R.; Hagan, C. R.
CORPORATE SOURCE: Dep. Chem., Duke Univ., Durham, NC, USA
SOURCE: Report (1995), DU/DC/TR-54; Order No.
AD-A302848, 24 pp. Avail.: NTIS
From: Gov. Rep. Announce. Index (U. S.) 1996,
96(14), Abstr. No. 14-00,796
DOCUMENT TYPE: Report
LANGUAGE: English
CLASSIFICATION: 76-2 (Electric Phenomena)
Section cross-reference(s): 78
ABSTRACT:
Two synthetic routes to nanocryst. Group III-V (13-15) materials are
discussed. The first employs dehalosilylation reactions between Group
III trihalides and E(SiMe3)3 (E = P, As) in hydrocarbon solvents
affording nanocryst. Group III-V semiconductors or their precursors. The
second involves reactions of MX3 (M = Ga, X = Cl, I; M = In, X = Cl, I)
in glymes with in situ synthesized (Na/K)3E (E = P, As, Sb) in arom.
solvents, yielding nanocryst. GaP, GaAs, GaSb, InP, InAs and InSb after
refluxing reaction mixts. Materials are characterized by TEM, XRD,
Elemental Anal., NMR, UV-vis, and STM. STM images of InAs give particle
size distribution and confirm sample cond. Scanning tunneling
spectroscopy shows a large bandgap for nanocryst. InAs than for InAs
wafer, consistent with quantum confinement.
SUPPL. TERM: gallium phosphide nanocryst semiconductor prepn;
arsenide gallium nanocryst semiconductor prepn;
antimonide gallium nanocryst semiconductor prepn;
indium phosphide nanocryst semiconductor prepn; compd
semiconductor nanocryst prepn
INDEX TERM: Semiconductor materials
(compd., Group III-V; synthesis and
characterization and immobilization of nanocryst.
binary and ternary Group III-V compd.
semiconductors)
INDEX TERM: Crystallites
(nanocrystals, gallium phosphide and others;
synthesis and characterization and immobilization
of nanocryst. binary and ternary Group III-V compd.
semiconductors)
INDEX TERM: 1303-00-0P, Gallium arsenide (GaAs), preparation
1303-11-3P, Indium arsenide (InAs), preparation
1312-41-0P, Indium antimonide (InSb), preparation
12063-98-8P, Gallium phosphide (GaP), preparation
12064-03-8P, Gallium antimonide (GaSb) 22398-80-7P,
Indium phosphide (InP), preparation
ROLE: PNU (Preparation, unclassified); PREP
(Preparation)
(prepn. of; synthesis and characterization and
immobilization of nanocryst. binary and ternary
Group III-V compd. semiconductors)
ALL (Full Record)
=> d l16 2 all noh
L16 ANSWER 2 OF 888 CA COPYRIGHT 1996 ACS
AN 125:128883 CA
TI Synthesis, characterization and immobilization of nanocrystalline
binary and ternary Group III-V (13-15) compound semiconductors
AU Halaoui, L. I.; Kher, S. S.; Lube, M. S.; Aubuchon, S. R.; Hagan, C.
R.
CS Dep. Chem., Duke Univ., Durham, NC, USA
SO Report (1995), DU/DC/TR-54; Order No. AD-A302848, 24 pp. Avail.:
NTIS
From: Gov. Rep. Announce. Index (U. S.) 1996, 96(14), Abstr. No.
14-00,796
DT Report
LA English
CC 76-2 (Electric Phenomena)
Section cross-reference(s): 78
AB Two synthetic routes to nanocryst. Group III-V (13-15) materials are
discussed. The first employs dehalosilylation reactions between
Group III trihalides and E(SiMe3)3 (E = P, As) in hydrocarbon
solvents affording nanocryst. Group III-V semiconductors or their
precursors. The second involves reactions of MX3 (M = Ga, X = Cl,
I; M = In, X = Cl, I) in glymes with in situ synthesized (Na/K)3E (E
= P, As, Sb) in arom. solvents, yielding nanocryst. GaP, GaAs, GaSb,
InP, InAs and InSb after refluxing reaction mixts. Materials are
characterized by TEM, XRD, Elemental Anal., NMR, UV-vis, and STM.
STM images of InAs give particle size distribution and confirm
sample cond. Scanning tunneling spectroscopy shows a large bandgap
for nanocryst. InAs than for InAs wafer, consistent with quantum
confinement.
ST gallium phosphide nanocryst semiconductor prepn; arsenide gallium
nanocryst semiconductor prepn; antimonide gallium nanocryst
semiconductor prepn; indium phosphide nanocryst semiconductor prepn;
compd semiconductor nanocryst prepn
IT Semiconductor materials
(compd., Group III-V; synthesis and characterization and
immobilization of nanocryst. binary and ternary Group III-V
compd. semiconductors)
IT Crystallites
(nanocrystals, gallium phosphide and others; synthesis and
characterization and immobilization of nanocryst. binary and
ternary Group III-V compd. semiconductors)
IT 1303-00-0P, Gallium arsenide (GaAs), preparation 1303-11-3P,
Indium arsenide (InAs), preparation 1312-41-0P, Indium antimonide
(InSb), preparation 12063-98-8P, Gallium phosphide (GaP),
preparation 12064-03-8P, Gallium antimonide (GaSb) 22398-80-7P,
Indium phosphide (InP), preparation
RL: PNU (Preparation, unclassified); PREP (Preparation)
(prepn. of; synthesis and characterization and immobilization of
nanocryst. binary and ternary Group III-V compd. semiconductors)
IBIB (Indented bibliographic citation)
=> d ibib noh 2
L16 ANSWER 2 OF 888 CA COPYRIGHT 1996 ACS
ACCESSION NUMBER: 125:128883 CA
TITLE: Synthesis, characterization and immobilization
of nanocrystalline binary and ternary Group
III-V (13-15) compound semiconductors
AUTHOR(S): Halaoui, L. I.; Kher, S. S.; Lube, M. S.;
Aubuchon, S. R.; Hagan, C. R.
CORPORATE SOURCE: Dep. Chem., Duke Univ., Durham, NC, USA
SOURCE: Report (1995), DU/DC/TR-54; Order No.
AD-A302848, 24 pp. Avail.: NTIS
From: Gov. Rep. Announce. Index (U. S.) 1996,
96(14), Abstr. No. 14-00,796
DOCUMENT TYPE: Report
LANGUAGE: English
CBIB (Compressed bibliographic citation)
=> d cbib noh 2
L16 ANSWER 2 OF 888 CA COPYRIGHT 1996 ACS
125:128883 Synthesis, characterization and immobilization of
nanocrystalline binary and ternary Group III-V (13-15) compound
semiconductors. Halaoui, L. I.; Kher, S. S.; Lube, M. S.; Aubuchon,
S. R.; Hagan, C. R. (Dep. Chem., Duke Univ., Durham, NC, USA).
Report, DU/DC/TR-54; Order No. AD-A302848, 24 pp. Avail. NTIS
From: Gov. Rep. Announce. Index (U. S.) 1996, 96(14), Abstr. No.
14-00,796 (English) 1995.
BIB (Bibliographic citation)
=> d bib noh 2
L16 ANSWER 2 OF 888 CA COPYRIGHT 1996 ACS
AN 125:128883 CA
TI Synthesis, characterization and immobilization of nanocrystalline
binary and ternary Group III-V (13-15) compound semiconductors
AU Halaoui, L. I.; Kher, S. S.; Lube, M. S.; Aubuchon, S. R.; Hagan, C.
R.
CS Dep. Chem., Duke Univ., Durham, NC, USA
SO Report (1995), DU/DC/TR-54; Order No. AD-A302848, 24 pp. Avail.:
NTIS
From: Gov. Rep. Announce. Index (U. S.) 1996, 96(14), Abstr. No.
14-00,796
DT Report
LA English
IBIB ABS (Indented Bibliographic Abstract Text)
=> d ibib abs noh 2
L16 ANSWER 2 OF 888 CA COPYRIGHT 1996 ACS
ACCESSION NUMBER: 125:128883 CA
TITLE: Synthesis, characterization and immobilization
of nanocrystalline binary and ternary Group
III-V (13-15) compound semiconductors
AUTHOR(S): Halaoui, L. I.; Kher, S. S.; Lube, M. S.;
Aubuchon, S. R.; Hagan, C. R.
CORPORATE SOURCE: Dep. Chem., Duke Univ., Durham, NC, USA
SOURCE: Report (1995), DU/DC/TR-54; Order No.
AD-A302848, 24 pp. Avail.: NTIS
From: Gov. Rep. Announce. Index (U. S.) 1996,
96(14), Abstr. No. 14-00,796
DOCUMENT TYPE: Report
LANGUAGE: English
AB Two synthetic routes to nanocryst. Group III-V (13-15) materials are
discussed. The first employs dehalosilylation reactions between
Group III trihalides and E(SiMe3)3 (E = P, As) in hydrocarbon
solvents affording nanocryst. Group III-V semiconductors or their
precursors. The second involves reactions of MX3 (M = Ga, X = Cl,
I; M = In, X = Cl, I) in glymes with in situ synthesized (Na/K)3E (E
= P, As, Sb) in arom. solvents, yielding nanocryst. GaP, GaAs, GaSb,
InP, InAs and InSb after refluxing reaction mixts. Materials are
characterized by TEM, XRD, Elemental Anal., NMR, UV-vis, and STM.
STM images of InAs give particle size distribution and confirm
sample cond. Scanning tunneling spectroscopy shows a large bandgap
for nanocryst. InAs than for InAs wafer, consistent with quantum
confinement.
CBIB ABS (Compressed citation and abstract)
Note: You can also use bib abs or ibib abs
=> d cbib abs noh 2
L16 ANSWER 2 OF 888 CA COPYRIGHT 1996 ACS
125:128883 Synthesis, characterization and immobilization of
nanocrystalline binary and ternary Group III-V (13-15) compound
semiconductors. Halaoui, L. I.; Kher, S. S.; Lube, M. S.; Aubuchon,
S. R.; Hagan, C. R. (Dep. Chem., Duke Univ., Durham, NC, USA).
Report, DU/DC/TR-54; Order No. AD-A302848, 24 pp. Avail. NTIS
From: Gov. Rep. Announce. Index (U. S.) 1996, 96(14), Abstr. No.
14-00,796 (English) 1995.
AB Two synthetic routes to nanocryst. Group III-V (13-15) materials are
discussed. The first employs dehalosilylation reactions between
Group III trihalides and E(SiMe3)3 (E = P, As) in hydrocarbon
solvents affording nanocryst. Group III-V semiconductors or their
precursors. The second involves reactions of MX3 (M = Ga, X = Cl,
I; M = In, X = Cl, I) in glymes with in situ synthesized (Na/K)3E (E
= P, As, Sb) in arom. solvents, yielding nanocryst. GaP, GaAs, GaSb,
InP, InAs and InSb after refluxing reaction mixts. Materials are
characterized by TEM, XRD, Elemental Anal., NMR, UV-vis, and STM.
STM images of InAs give particle size distribution and confirm
sample cond. Scanning tunneling spectroscopy shows a large bandgap
for nanocryst. InAs than for InAs wafer, consistent with quantum
confinement.
BIB ABS (Bibliographic Abstract citation)
=> d bib abs noh 2
L16 ANSWER 2 OF 888 CA COPYRIGHT 1996 ACS
AN 125:128883 CA
TI Synthesis, characterization and immobilization of nanocrystalline
binary and ternary Group III-V (13-15) compound semiconductors
AU Halaoui, L. I.; Kher, S. S.; Lube, M. S.; Aubuchon, S. R.; Hagan, C.
R.
CS Dep. Chem., Duke Univ., Durham, NC, USA
SO Report (1995), DU/DC/TR-54; Order No. AD-A302848, 24 pp. Avail.:
NTIS
From: Gov. Rep. Announce. Index (U. S.) 1996, 96(14), Abstr. No.
14-00,796
DT Report
LA English
AB Two synthetic routes to nanocryst. Group III-V (13-15) materials are
discussed. The first employs dehalosilylation reactions between
Group III trihalides and E(SiMe3)3 (E = P, As) in hydrocarbon
solvents affording nanocryst. Group III-V semiconductors or their
precursors. The second involves reactions of MX3 (M = Ga, X = Cl,
I; M = In, X = Cl, I) in glymes with in situ synthesized (Na/K)3E (E
= P, As, Sb) in arom. solvents, yielding nanocryst. GaP, GaAs, GaSb,
InP, InAs and InSb after refluxing reaction mixts. Materials are
characterized by TEM, XRD, Elemental Anal., NMR, UV-vis, and STM.
STM images of InAs give particle size distribution and confirm
sample cond. Scanning tunneling spectroscopy shows a large bandgap
for nanocryst. InAs than for InAs wafer, consistent with quantum
confinement.
TI (Title)
=> d ti noh 2
L16 ANSWER 2 OF 888 CA COPYRIGHT 1996 ACS
TI Synthesis, characterization and immobilization of nanocrystalline
binary and ternary Group III-V (13-15) compound semiconductors
SAM (Sample, title plus indexing)
=> d sam noh 2
L16 ANSWER 2 OF 888 CA COPYRIGHT 1996 ACS
CC 76-2 (Electric Phenomena)
Section cross-reference(s): 78
TI Synthesis, characterization and immobilization of nanocrystalline
binary and ternary Group III-V (13-15) compound semiconductors
ST gallium phosphide nanocryst semiconductor prepn; arsenide gallium
nanocryst semiconductor prepn; antimonide gallium nanocryst
semiconductor prepn; indium phosphide nanocryst semiconductor prepn;
compd semiconductor nanocryst prepn
IT Semiconductor materials
(compd., Group III-V; synthesis and characterization and
immobilization of nanocryst. binary and ternary Group III-V
compd. semiconductors)
IT Crystallites
(nanocrystals, gallium phosphide and others; synthesis and
characterization and immobilization of nanocryst. binary and
ternary Group III-V compd. semiconductors)
IT 1303-00-0P, Gallium arsenide (GaAs), preparation 1303-11-3P,
Indium arsenide (InAs), preparation 1312-41-0P, Indium antimonide
(InSb), preparation 12063-98-8P, Gallium phosphide (GaP),
preparation 12064-03-8P, Gallium antimonide (GaSb) 22398-80-7P,
Indium phosphide (InP), preparation
RL: PNU (Preparation, unclassified); PREP (Preparation)
(prepn. of; synthesis and characterization and immobilization of
nanocryst. binary and ternary Group III-V compd. semiconductors)
SCAN (Sample format in random order, free)
=> d scan
L16 888 ANSWERS CA COPYRIGHT 1996 ACS
CC 57-2 (Ceramics)
TI Characterization of agglomerate strength of coprecipitated superfine
zirconia powders
ST zirconia powder compaction agglomerate strength
IT Agglomeration
Compaction
(characterization of agglomerate strength of copptd. compacted
superfine zirconia powders)
IT 1314-23-4, Zirconia, properties
RL: PRP (Properties); TEM (Technical or engineered material use);
USES (Uses)
(characterization of agglomerate strength of copptd. compacted
superfine zirconia powders)
HOW MANY MORE ANSWERS DO YOU WISH TO SCAN? (1):3
L16 888 ANSWERS CA COPYRIGHT 1996 ACS
CC 72-2 (Electrochemistry)
Section cross-reference(s): 66, 73
TI Application of scanning tunneling microscopy to studies of electrode
surfaces
ST scanning tunneling microscopy electrode surface study
IT Electrodes
(application of scanning tunneling microscopy to studies of
electrode surfaces)
IT Microscopy, electron
(scanning tunneling, application of scanning tunneling microscopy
to studies of electrode surfaces)
L16 888 ANSWERS CA COPYRIGHT 1996 ACS
CC 65-6 (General Physical Chemistry)
TI Atomic-scale friction measurements using friction force microscopy:
part 1--General principles and new measurement techniques
ST friction force microscopy microfriction; force friction FFM
microscopy
IT Friction
(general principles and new measurement techniques in at.-scale
friction measurements using friction force microscopy)
IT Microscopy
(at. force, general principles and new measurement techniques in
at.-scale friction measurements using friction force microscopy)
IT Force
(frictional, general principles and new measurement techniques in
at.-scale friction measurements using friction force microscopy)
L16 888 ANSWERS CA COPYRIGHT 1996 ACS
CC 57-1 (Ceramics)
TI Crystallizatin of ***nanocomposite*** glasses made by the SSG
process
ST crystn ***nanocomposite*** glass; glass ceramic
***nanocomposite*** crystn epitaxy; epitaxy ***nanocomposite***
glass crystn
IT Epitaxy
(glass-ceramic crystal phase growth by, in sol-gel-derived films)
IT Glass ceramics
(prepn. of, by epitaxial crystal phase growth in sol-gel-derived
films)
IT Coating process
(sol-gel, glass coatings prepd. by, epitaxial crystn. of)
IT 12026-13-0, Aluminum silicon strontium oxide (Al2Si2SrO8)
37342-39-5, Aluminum calcium silicate (Al2CaSi2O8)
RL: USES (Uses)
(crystn. agent, in prepn. of orthoclase-type glass-ceramic from
multiphasic gel)
IT 12003-55-3, Aluminum sodium silicate (AlNaSi3O8) 12168-80-8,
Aluminum potassium silicate (AlKSi3O8) 12244-10-9, Albite
12251-44-4, Orthoclase
RL: USES (Uses)
(glass-ceramics, prepn. of ***nanocomposite*** , by crystn. of
sol-gel-derived film)
IT 12060-59-2P, Strontium titanium oxide (SrTiO3) 12251-19-3P,
Aluminum barium silicon oxide (Al2BaSi2O8) 13463-67-7P, Titania,
preparation
RL: SPN (Synthetic preparation); PREP (Preparation)
(prepn. of ***nanocomposite*** , by crystn. of sol-gel-derived
film)
HOW MANY MORE ANSWERS DO YOU WISH TO SCAN? (1):0