3 research outputs found
Phase equilibria in Ni-Re-W-V, Ni-Re-W-Nb, Ni-Re-W-Ta, Ni-Re-W-Cr, and Ni-Re-W-Mo four-component systems at 1375 K
- Author
- A Nash
- AA Kodentzov
- DP Shoemaker
- E. M. Slyusarenko
- E. Yu. Kerimov
- EM Savitskii
- EM Savitskii
- EM Slyusarenko
- EM Slyusarenko
- EM Slyusarenko
- IA Tregubov
- JF Smith
- JF Smith
- JH Brophy
- JH Brophy
- M Kajihara
- MA Tylkina
- MF Singleton
- MV Sofin
- Nickel-Rhenium
- OM Krasnoyarova
- P Nash
- P Nash
- P Rama Rao
- R Krishnan
- RK Williams
- S. V. Nikolaev
- SV Nagender Naidu
- SV Nagender Naidu
- SV Nagender Naidu
- SV Nagender Naidu
- TB Massalski
- TB Massalski
- VA Borisov
- Publication venue
- 'Allerton Press'
- Publication date
- Field of study
Landolt-Börnstein
- Author
- A Dorabialska
- A Dorabialska
- A Grosse v
- A Grosse v
- A Grosse v
- A Holmes
- AE Ruark
- AF Kovarik
- AF Kovarik
- Allen
- Allen
- Aluminium
- Amberg
- Antimon
- Argon
- Arsen
- Aston
- Aston
- Aston
- Aston
- Aston
- Aston
- Aston
- Aston
- Aston
- Aston
- Aston
- Aston
- Aston
- Aston
- Aston
- Aston
- Aston
- Aston
- Aston
- Aston
- Aston
- Aston
- Aston
- Aston
- Auer
- Auer
- AW Reitz
- Bainbridge
- Bainbridge
- Bainbridge
- Baker
- Barium
- Bates
- Bates
- Batuecas
- Batuecas
- Batuecas
- Batuecas
- Baume
- Baume
- Baxter
- Baxter
- Baxter
- Baxter
- Baxter
- Baxter
- Baxter
- Baxter
- Baxter
- Baxter
- Baxter
- Baxter
- Baxter
- Baxter
- Baxter
- Baxter
- Baxter
- Baxter
- Baxter
- Baxter
- Baxter
- Baxter
- Baxter
- Baxter
- Baxter
- Baxter
- Baxter
- Baxter
- Baxter
- Baxter
- Baxter
- Baxter
- Baxter
- Baxter
- Baxter
- Baxter
- Baxter
- Baxter
- Baxter
- Baxter
- Baxter
- Baxter
- Baxter
- Baxter
- Baxter
- Baxter
- Beryllium-Olucinium
- Birge
- Blei
- Bor
- Boss
- Brauner
- Briscoe
- Briscoe
- Briscoe
- Brom
- Burt
- C Chamié
- Cadmium
- Caesium
- Calcium
- Cerium
- CH Collie
- Chrom
- Classen
- Classen
- Cobalt
- Cooper
- Cooper
- Cooper
- Dennis
- Dittrnar
- Dudley
- Dumas
- Dysprosium
- E Gleditsch
- E Gleditsch
- E Ludwig
- E Walling
- E Walling
- E Walling
- Easley
- Eisen
- Erbium
- Erdmann
- Europium
- F Hernegger
- F Hernegger
- F Joliot
- F Soddy
- F Western
- Fluor
- Fluor
- FND Kurie
- FND Kurie
- Friedel
- G Hevesy v
- G Hevesy v
- G Kirsch
- Gadolinium
- Gallium
- Gallo
- Germanium
- Germanium
- Gold
- Goldbaum
- Gonzales
- Gray
- Gray
- Gray
- Gray
- Guichard
- Gutbier
- Guye
- Guye
- Guye
- Guye
- Guye
- Guye
- Guye
- Guye
- H Fesefeldt
- H Fesefeldt
- H Herszfinkiel
- Hafnium
- Hafnium
- Harcourt
- Harkins
- Harkins
- Helium
- Henning
- Heuse
- Hofmann
- Holmium
- Holtzmann
- Hopkins
- Hönigschmid
- Hönigschmid
- Hönigschmid
- Hönigschmid
- Hönigschmid
- Hönigschmid
- Hönigschmid
- Hönigschmid
- Hönigschmid
- Hönigschmid
- Hönigschmid
- Hönigschmid
- Hönigschmid
- Hönigschmid
- Hönigschmid
- Hönigschmid
- Hönigschmid
- Hönigschmid
- Hönigschmid
- Hönigschmid
- Hönigschmid
- Hönigschmid
- Hönigschmid
- Hönigschmid
- Hönigschmid
- Hönigschmid
- Hönigschmid
- Hönigschmid
- Hönigschmid
- Hönigschmid
- Hönigschmid
- Hönigschmid
- Hönigschmid
- Hönigschrnid
- Hönigschrnid
- Hönigschrnid
- Hönigschrnid
- Hönigschrnid
- Hönigschrnid
- Hönigschrnid
- Hönigschrnid
- Hönigschrnid
- Hönigschrnid
- Indium
- Iridium
- J Kendall
- J Kendall
- Jacquerod
- Jacquerod
- Jantsch
- JC Jacobsen
- Jod
- Jod
- K Diebner
- K Diebner
- K Richards
- Kalium
- Keiser
- Klemenc
- Kohlenstoff
- Korn
- Krepeika
- Krepeika
- Krepelka
- Krepelka
- Krerners
- Krypton
- Kupfer
- Kupfer
- Kupfer
- Kupfer
- Köthner
- Köthner
- L Rutherford
- Lanthan
- Leduc
- Leduc
- Leduc
- Leduc
- Lenher
- Lithium
- Lutetium
- Lutetium
- M Francis
- M Mäder
- M Mäder
- M Mäder
- Magnesium
- Mallet
- Mangan
- Mathers
- Meyer
- Moles
- Moles
- Moles
- Moles
- Moles
- Moles
- Moles
- Moles
- Moles
- Moles
- Moles
- Moles
- Moles
- Moles
- Moles
- Moles
- Moles
- Molybdän
- Natrium
- Natrium
- Neodymium
- Neon
- Nickel
- Nickel
- Niobium-Columbium
- Noyes
- O Gratias
- O Hahn
- OA Gratias
- OH Briggs
- Osmium
- Owens
- Palladium
- Patterson
- Patterson
- Perman
- Phosphor
- Pire
- Plaats van der
- Platin
- R Dettelmaier
- R Grégoire
- R Grégoire
- R Grégoire
- Radium
- Radium
- Radon- Gray
- Raleigh
- Rayleigh
- Rayleigh
- Rayleigh
- Rayleigh
- Rhenium
- Rhodium
- Richard
- Richards
- Richards
- Richards
- Richards
- Richards
- Richards
- Richards
- Richards
- Richards
- Richards
- Richards
- Richards
- Richards
- Richards
- Richards
- Richards
- Richards
- Richards
- Ritchie
- Roscoe
- Rubidium
- Ruer
- Ruer
- Ruer
- Ruthenium
- S Bateson
- S Bateson
- S Rosenblum
- Samarium
- Scandium
- Scheuer
- Scheuer
- Scheuer
- Schneider
- Scott
- Selenium
- Selenium
- Seybold
- Silber
- Silicium
- Smith
- Smith
- Smith
- Smith
- Smith
- Soddy
- Soddy
- Staehler
- Staehler
- Staehler
- Stas
- Stewart
- Stock
- Stock
- Strontium
- Strontium
- Taylor
- Taylor
- Tellurium
- Terbium
- Thorium
- Thorium-Ionium
- Thorpe
- Thulium
- Titan
- TR Wilkins
- Uran
- Urbain
- Urbain
- US Gilchrist
- Vanadium
- VF Hess
- Vogt
- W Kolhörster
- W Mühlhoff
- W Mühlhoff
- Wasserstoff
- WB Lewis
- Weatherill
- Weatherill
- WF Libby
- Wismuth
- Wolfram-Tungstenium
- Wourtzel
- Xenon
- Ytterbium
- Yttrium
- Zink
- Zinn
- Zintl
- Zintl
- Zintl
- Zintl
- Zirconium
- Zirconium
- ZS Hönigschmid
- Publication venue
- 'Springer Science and Business Media LLC'
- Publication date
- 01/01/2013
- Field of study
Iron-Mediated Allylic Substitution Reactions with Chirality Transfer. Stereochemistry of the Formation of Diastereo- and Enantiomerically Enriched Olefinic and Allylic Tetracarbonyl Iron Complexes
- Author
- Ainsworth C.
- Ainsworth C.
- Alexander R. P.
- Alkene ACROS
- Applications
- Applications
- Banfi L.
- Blanchette M. A.
- Blystone S. C.
- Bonafoux D.
- Braye E. H.
- Burka L. T.
- Burka L. T.
- Cano A. C.
- Charlton M. A.
- Chow T. J.
- Clinton N. A.
- Cobalt
- Consiglio G.
- Copper
- Corey E. J.
- Cox L. R.
- Cox L. R.
- de Koning H.
- Emde H.
- Enders D.
- Enders D.
- Enders D.
- Enders D.
- Enders D.
- Enders D.
- Enders D.
- Enders D.
- Enders D.
- Enders D.
- Enders D.
- Enders D.
- Enders D.
- Enders D.
- Enders D.
- Enders D.
- Enders D.
- Enders D.
- Enders D.
- Enyl
- Fey P.
- For
- For
- Frank U.
- Gadja C.
- General
- Goubitz G.
- Goubitz G.
- Green J. R.
- Greene T. W.
- Guilard R.
- Hanessian S.
- Hanessian S.
- Helmchen G.
- Hopman J. C. P.
- Hopman J. C. P.
- Hsiou Y.
- Höfle G.
- Ibbotson A.
- Iridium
- Iron
- Ito Y.
- Itoh K.
- Iversen T.
- Jackson R. W. F.
- Koot W.-J.
- Koot W.-J.
- Lee J. W.
- Lee J. W.
- Lei P.-S.
- Ley S. V.
- Ley S. V.
- Ley S. V.
- Ley S. V.
- Ley S. V.
- Ley S. V.
- Liu L.-K.
- Lombardo L.
- Luxmoore A. R.
- Manganese
- McCaskie J. E.
- Molybdenum
- Monographs
- Nakanishi S.
- Nakanishi S.
- Nakanishi S.
- Nesmeyanov A. N.
- Nickel
- Oba K.
- Pearson A.
- Pike R. D.
- Platinum
- Rathke M. W.
- Recent
- Review
- Revis A.
- Rhenium
- Rhodium
- Ruthenium
- Rybin L. V.
- Schmitz T.
- Seebach D.
- Semmelhack M.
- Shahak I.
- Shahak I.
- Speckamp W. N.
- Stephenson G.
- Stephenson G. R.
- Tungsten
- Use
- Wessel H.-P.
- Whitesides T. H.
- Yamaguchi H.
- Yamaguchi H.
- Zhou T.
- Ȧkermark B.
- Publication venue
- 'American Chemical Society (ACS)'
- Publication date
- Field of study