Toggle navigation
Publications
Profiles
Research Groups
Indexes
Help and information
Eesti keeles
Intranet
Publications
Profiles
Research Groups
Indexes
Help and information
Eesti keeles
Intranet
Databases
Publications
Searching
My bookmarks
0
nickel oxide reduction (keyword)
All fields
Source search
Author search
Subject term search
Title search
starts with
containes
exact match
All fields
Source search
Author search
Subject term search
Title search
starts with
containes
exact match
—
All fields
Source search
Author search
Subject term search
Title search
starts with
containes
exact match
—
All fields
Source search
Author search
Subject term search
Title search
starts with
containes
exact match
—
All fields
Source search
Author search
Subject term search
Title search
starts with
containes
exact match
—
Add criteria
Advanced search
filter
Clear
Ă—
types of item
book
..
journal article
..
newspaper article
..
book article
..
dissertation
..
Open Access
..
Scientific publication
..
year
year of publication
Loading..
author
Loading..
TTÜ department
Loading..
subject term
Loading..
series
Loading..
name of the person
Loading..
keyword
Loading..
Clear
Number of records
1
Look more..
(2/103)
Export
export all inquiry results
(1)
Save TXT fail
Save PDF fail
print
Open for editing with marked entries
my bookmarks
display
Bibliographic view
Short view
sort
author ascending
author descending
year of publication ascending
year of publication descending
title ascending
title descending
1
journal article EST
/
journal article ENG
NiO reduction by Mg plus C combined reducer at high heating rates
Zakaryan, Marieta
;
Nazaretyan, K.T.
;
Aydinyan, Sofiya
;
Kharatyan, Suren
Journal of thermal analysis and calorimetry
2021
/
p. 1811-1817 : ill
https://doi.org/10.1007/s10973-020-10148-5
Journal metrics at Scopus
Article at Scopus
Journal metrics at WOS
Article at WOS
journal article EST
/
journal article ENG
Number of records 1, displaying
1 - 1
keyword
102
1.
nickel oxide reduction
2.
nickel oxide
3.
nickel
4.
nickel aluminate
5.
nickel coating
6.
nickel ferrite
7.
nickel-based superalloys
8.
nickel-titanium
9.
nickel-titanium alloy
10.
skeletal nickel catalyst
11.
tartaric acid-modified nickel powder
12.
allene oxide synthase
13.
allene oxide synthase-lipoxygenase
14.
alumina oxide thin films
15.
calcium oxide
16.
copper oxide
17.
copper oxide nanoparticles
18.
electroconductive oxide ceramics
19.
graphene oxide
20.
High entropy oxide
21.
hydrous manganese oxide
22.
Indium-Gallium-Zinc-Oxide
23.
iron oxide nanoparticles
24.
lithium titanium oxide (LTO)
25.
metal oxide nanofibre
26.
metal oxide nano-laminates
27.
metal oxide nanoparticles
28.
metal-oxide-semiconductor field-effect transistors (MOSFETs)
29.
nitric oxide
30.
oxide layer
31.
oxide materials
32.
oxide mineral
33.
oxide nanofibres
34.
polyethylene oxide
35.
reduced graphene oxide
36.
ruthenium oxide
37.
solid oxide cell (SOC)
38.
solid oxide fuel cell
39.
zinc oxide
40.
zinc oxide nanoparticles
41.
zirconium oxide
42.
tin (II) oxide
43.
titanium oxide
44.
administrative burden reduction
45.
bacterial sulphate reduction
46.
birch reduction
47.
Bouguer reduction
48.
capacitance reduction
49.
carbon emission reduction
50.
carbothermal reduction
51.
chlorophenols reduction
52.
CO2 emission reduction
53.
CO2 reduction
54.
complexity reduction
55.
conservation voltage reduction (CVR)
56.
cooling load reduction
57.
cost reduction
58.
current ripple reduction (CRD)
59.
dictionary reduction
60.
dimensionality reduction
61.
disaster risk reduction
62.
dissimilatory iron reduction
63.
drag reduction
64.
electrochemical reduction
65.
electrolytic reduction
66.
emission reduction
67.
emissions reduction
68.
energy reduction
69.
energy use reduction
70.
ethylene glycol reduction method
71.
false positive reduction
72.
ferric iron reduction
73.
frequency reduction
74.
genome reduction
75.
GHG emission reduction
76.
Glycerol production reduction
77.
greenhouse gas emissions reduction
78.
heating need reduction
79.
household wastes reduction
80.
joint reduction of oxides
81.
leakage current reduction (LCR)
82.
logical construction and phenomenological reduction
83.
metal oxides reduction
84.
model order reduction
85.
model order reduction (MOR)
86.
model reduction
87.
noise reduction
88.
overtime reduction
89.
oxidation-reduction potential
90.
oxidation–reduction potential
91.
oxygen reduction
92.
oxygen reduction reaction
93.
power reduction
94.
reduction
95.
reduction mechanism
96.
reduction of poverty
97.
reduction theory
98.
SO2 reduction
99.
sulphate reduction
100.
test-suite reduction
101.
tire consumption reduction
102.
vibration reduction
author
1
1.
Nickel, Norbert H.
×
vaste
starts with
ends with
containes
sort
Relevance
ascending
descending
year of publication
author
TTÜ department
subject term
series
name of the person
keyword
Otsing
Valikud
0
year of publication
AND
OR
NOT
author
AND
OR
NOT
TTÜ department
AND
OR
NOT
subject term
AND
OR
NOT
series
AND
OR
NOT
name of the person
AND
OR
NOT
keyword
AND
OR
NOT