Engineering & Materials Science
Lithium-ion batteries
100%
Recycling
81%
Electric vehicles
64%
Anodes
57%
Reclamation
49%
Acids
44%
Battery electric vehicles
37%
Battery Pack
35%
Delamination
32%
Graphite
29%
Ions
27%
Synchrotrons
26%
Titanium dioxide
25%
Recovery
25%
Aging of materials
23%
Aluminum
22%
Electrodes
22%
Lithium
21%
Economics
18%
Peeling
18%
Strategic materials
18%
Inorganic acids
17%
X rays
17%
Water
17%
Costs
15%
Titanium oxides
14%
Chemical analysis
14%
Metals
14%
Degradation
13%
Binders
13%
Niobium
12%
Leaching
11%
Protons
11%
Oxalic acid
11%
Ultrasonics
11%
Organic acids
11%
Transition metals
10%
Ink
10%
Cathode materials
10%
Acetic acid
9%
Electron microscopy
9%
Titanium
9%
Tomography
9%
Salts
9%
Air
8%
Feedstocks
7%
Inductively coupled plasma
7%
Fabrication
7%
X ray diffraction
7%
Solid electrolytes
6%
Fasteners
6%
Tapes
6%
X ray photoelectron spectroscopy
6%
Spectroscopy
5%
Solubility
5%
Sodium alginate
5%
Chemistry
Anode
65%
Recycling
64%
Delamination
39%
Black
29%
Current Density
21%
Poly(vinylidene)
21%
Graphite
21%
Voltage
21%
Application
18%
Titanium Dioxide
16%
Behavior as Electrode
14%
Binding Agent
14%
Acid
12%
Titanium Oxide
10%
Elemental Analysis
10%
Metal
9%
Octanol
9%
Leaching
8%
Safety
8%
Ink
7%
Organic Acid
7%
Electron Microscopy
6%
Rheology Modifier
5%
Chemistry
5%
Cation
5%
Acetic Acid
5%
Cathode
5%
Transition Element
5%
Earth & Environmental Sciences
recyclability
42%
battery
33%
electrode
25%
economics
17%
cost
15%
ink
11%
recycling
10%
electric vehicle
9%
alginate
7%
lithium
7%
manufacturing
5%