ScienceOpen:
research and publishing network
For Publishers
Discovery
Metadata
Peer review
Hosting
Publishing
For Researchers
Join
Publish
Review
Collect
My ScienceOpen
Sign in
Register
Dashboard
Blog
About
Search
Advanced search
My ScienceOpen
Sign in
Register
Dashboard
Search
Search
Advanced search
For Publishers
Discovery
Metadata
Peer review
Hosting
Publishing
For Researchers
Join
Publish
Review
Collect
Blog
About
25
views
0
references
Top references
cited by
376
Cite as...
0 reviews
Review
0
comments
Comment
0
recommends
+1
Recommend
0
collections
Add to
0
shares
Share
Twitter
Sina Weibo
Facebook
Email
2,517
similar
All similar
Record
: found
Abstract
: not found
Article
: not found
Electronic Conduction of Magnetite (Fe3O4) and its Transition Point at Low Temperatures
Author(s):
E. J. W. VERWEY
Publication date
Created:
August 19 1939
Publication date
(Print):
August 19 1939
Journal:
Nature
Publisher:
Springer Nature
Read this article at
ScienceOpen
Publisher
Review
Review article
Invite someone to review
Bookmark
Cite as...
There is no author summary for this article yet. Authors can add summaries to their articles on ScienceOpen to make them more accessible to a non-specialist audience.
Related collections
Electronic Workshops in Computing (eWiC)
Author and article information
Journal
Title:
Nature
Abbreviated Title:
Nature
Publisher:
Springer Nature
ISSN (Print):
0028-0836
Publication date Created:
August 19 1939
Publication date (Print):
August 19 1939
Volume
: 144
Issue
: 3642
Pages
: 327-328
Article
DOI:
10.1038/144327b0
SO-VID:
4d1706a6-033c-43a9-8d55-e9d9c601ada9
Copyright ©
© 1939
History
Data availability:
Comments
Comment on this article
Sign in to comment
scite_
Similar content
2,517
U(VI) Sorption and Reduction Kinetics on the Magnetite (111) Surface
Authors:
Kevin M. Rosso
,
Glenn A Waychunas
,
Jillian Banfield
…
Acceleration of microwave-assisted enzymatic digestion reactions by magnetite beads.
Authors:
Yu Chen
Graphdiyne@Janus Magnetite for Photocatalytic Nitrogen Fixation
Authors:
Yan Fang
,
Yurui Xue
,
Lan Hui
…
See all similar
Cited by
358
Electronic conductivity and transition point of magnetite (“Fe3O4”)
Authors:
E.J.W. Verwey
,
P.W. Haayman
Origin of Effective Fields in Magnetic Materials
Authors:
R E Watson
,
A. J. Freeman
The effect of oxidation on the Verwey transition in magnetite
Authors:
David J. Dunlop
,
Özden Özdemir
,
Bruce Moskowitz
See all cited by