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Hydrazine:MCnc:Pt:Bld:Qn
Known as:
??:????:???:??:???
, Hydrazine:Masse/Volume:Ponctuel:Sang:Numérique
, Hydrazine:Massa concentratie:Moment:Bloed:Kwantitatief
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National Institutes of Health
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4 relations
Blood
Hydrazine
Unit of Mass Concentration
whole blood
Papers overview
Semantic Scholar uses AI to extract papers important to this topic.
Highly Cited
2019
Highly Cited
2019
Anchoring carbon nanotubes and post-hydroxylation treatment enhanced Ni nanofiber catalysts towards efficient hydrous hydrazine decomposition for effective hydrogen generation.
Pan Yang
,
Lijun Yang
,
+14 authors
Zhanhu Guo
Chemical Communications
2019
Corpus ID: 195871085
For effective hydrogen generation with remarkable durability, carbon nanotubes (CNTs) grown on Ni nanofibers and their post…
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2016
2016
Solid Phase Microextraction On-Fiber Derivatization Using a Stable, Portable, and Reusable Pentafluorophenyl Hydrazine Standard Gas Generating Vial.
Justen J. Poole
,
Jonathan J Grandy
,
G. Gómez-Ríos
,
Emanuela Gionfriddo
,
J. Pawliszyn
Analytical Chemistry
2016
Corpus ID: 206504983
Solid phase microextraction (SPME) on-fiber derivatization methods have facilitated the achievement of lower detection limits and…
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Highly Cited
2015
Highly Cited
2015
CeOx-modified RhNi nanoparticles grown on rGO as highly efficient catalysts for complete hydrogen generation from hydrazine borane and hydrazine
Z. Zhang
,
Zhanghui Lu
,
Hongliang Tan
,
Xiangshu Chen
,
Qilu Yao
2015
Corpus ID: 52035359
CeOx-modified RhNi nanoparticles (NPs) grown on reduced graphene oxide (rGO) (RhNi@CeOx/rGO) have been facilely prepared and…
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Highly Cited
2012
Highly Cited
2012
Rhodium-nickel nanoparticles grown on graphene as highly efficient catalyst for complete decomposition of hydrous hydrazine at room temperature for chemical hydrogen storage
Jun Wang
,
Xin-bo Zhang
,
Zhong‐li Wang
,
Limin Wang
,
Yu Zhang
2012
Corpus ID: 97298270
Well-dispersed rhodium–nickel nanoparticles grown on graphene are successfully synthesized by co-reduction of graphene oxide and…
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Highly Cited
2011
Highly Cited
2011
Noble-metal-free bimetallic nanoparticle-catalyzed selective hydrogen generation from hydrous hydrazine for chemical hydrogen storage.
S. Singh
,
A. Singh
,
K. Aranishi
,
Qiang Xu
Journal of the American Chemical Society
2011
Corpus ID: 29361650
Noble-metal-free nickel-iron alloy nanoparticles exhibit excellent catalytic performance for the complete decomposition of…
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Highly Cited
2010
Highly Cited
2010
Bimetallic nickel-iridium nanocatalysts for hydrogen generation by decomposition of hydrous hydrazine.
S. Singh
,
Qiang Xu
Chemical Communications
2010
Corpus ID: 28715792
Alloying Ni with Ir leads to the formation of highly active catalysts for complete decomposition of hydrous hydrazine with 100% H…
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Highly Cited
2010
Highly Cited
2010
Synthesis of new spiroindolinones incorporating a benzothiazole moiety as antioxidant agents.
N. Karalı
,
O. Güzel
,
N. Ozsoy
,
S. Ozbey
,
A. Salman
European journal of medicinal chemistry
2010
Corpus ID: 9123678
Highly Cited
2010
Highly Cited
2010
Charge transfer via the dative N-B bond and dihydrogen contacts. Experimental and theoretical electron density studies of small Lewis acid-base adducts.
S. Mebs
,
S. Grabowsky
,
+7 authors
D. Lentz
Journal of Physical Chemistry A
2010
Corpus ID: 24841210
The electronic characteristics of the dative N−B bond in three Lewis acid−base adducts, hydrazine borane, hydrazine bisborane…
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Highly Cited
2009
Highly Cited
2009
Hydrazine borane: a promising hydrogen storage material.
T. Huegle
,
Moritz F. Kuehnel
,
D. Lentz
Journal of the American Chemical Society
2009
Corpus ID: 197246524
We describe an easy method of improving the promising hydrogen storage capabilities of hydrazine borane by adding an equimolar…
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1998
1998
Mono- and Bis(hydrazine) Complexes of Osmium(II): Synthesis, Reactions, and X-ray Crystal Structure of the [Os(NH(2)NH(2))(2){P(OEt)(3)}(4)](BPh(4))(2) Derivative.
G. Albertin
,
S. Antoniutti
,
A. Bacchi
,
Massimo Bergamo
,
E. Bordignon
,
G. Pelizzi
Inorganic Chemistry
1998
Corpus ID: 22360318
Reaction of OsH(2)P(4) [P = P(OEt)(3), PPh(OEt)(2), PPh(2)OEt] with methyl triflate followed by the treatment with hydrazines…
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