Strategic Objectives
• Unlock the high-capacity potential of magnesium, aluminum, and calcium chemistries.
• Navigate the complex coordination chemistry of multivalent ions.
• Overcome diffusion hurdles that stall current battery innovation.
• Identify sustainable, earth-abundant alternatives to rare battery metals.
The Core Challenge
Global energy demands require safer, cheaper, and higher-density storage, yet monovalent systems face resource scarcity and inherent capacity ceilings.
01
The Multivalent Shift
02
The Physics of Charge
03
Magnesium-Ion Foundations
04
Aluminum-Ion Potential
05
Calcium-Ion Emerging Tech
06
Coordination Chemistry
07
Solvation Shells
08
Electrolyte Engineering
09
The Diffusion Barrier
10
Intercalation Mechanics
11
Cathode Selection
12
Anode Dynamics
13
Solid Electrolyte Interphase
14
Nernst Equation Applications
15
Coulombic Efficiency
16
Overcoming Polarization
17
Zinc-Ion Systems
18
Computational Materials Science
19
Characterization Techniques
20
Sustainability and Life Cycle
21
The Road to Commercialization
Explore Research Ecosystem
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