All Journal Guides

Journal Guide

Advanced Energy Materials Impact Factor 26.0: Publishing Guide

Next-generation energy materials: storage, conversion, and sustainability

26.0

Impact Factor (2024)

~15-25%

Acceptance Rate

~100-140 days median

Time to First Decision

What Adv. Energy Mater. Publishes

Advanced Energy Materials published by Wiley is a premier journal for energy storage and conversion materials. With JIF 26.0 and Q1 ranking in Energy & Fuels, AEM emphasizes novel materials enabling improved energy storage, generation, and conversion. The journal publishes research on batteries, supercapacitors, solar cells, fuel cells, and related energy materials. Critically: AEM values materials with demonstrated performance advantages. Pure characterization without functional energy device testing is less competitive. The journal seeks papers showing how materials enable energy technology breakthroughs.

  • Battery materials: cathodes, anodes, electrolytes, solid-state batteries
  • Supercapacitor materials: electrode materials, electrolytes, high-performance devices
  • Solar cells: perovskites, organic photovoltaics, dye-sensitized solar cells
  • Fuel cells: cathodes, anodes, electrolytes, hydrogen storage materials
  • Thermal energy: phase change materials, thermal storage, thermoelectric materials
  • Electrocatalysts: water splitting, CO2 reduction, fuel cell catalysts
  • Ion conductors and ionic liquids: solid-state electrolytes, ion transport
  • Nanostructured energy materials: nanocarbon, nanomaterials for energy

Editor Insight

Advanced Energy Materials publishes materials enabling energy breakthroughs. We seek materials with exceptional performance demonstrated in functional devices and proven long-term stability.

What Adv. Energy Mater. Editors Look For

Novel material showing exceptional energy storage or conversion performance

Present material delivering superior energy density, power output, or efficiency. Higher capacity? Faster charging? Better cycling stability? Demonstrate exceptional performance with quantified metrics.

Complete material characterization and energy device validation

Thoroughly characterize material structure and properties. Critically, test in actual energy device (battery cell, supercapacitor, solar cell) showing functional performance. Device-level validation essential.

Mechanistic understanding of how material enables energy performance

Explain material mechanisms enabling energy performance. What structural features enable ion transport? What surface properties improve catalysis? Mechanism stronger than empirical results alone.

Demonstration of scalability and practical manufacturability

Show material can be synthesized at scale using practical methods. Cost-effective synthesis using available precursors essential. Lab-scale without manufacturability path has limited impact.

Long-term cycling and stability data proving real-world viability

Energy devices must survive thousands of cycles. Demonstrate material stability, cycle life, and performance retention under realistic operating conditions.

Why Papers Get Rejected

These patterns appear repeatedly in manuscripts that don't make it past Adv. Energy Mater.'s editorial review:

Material characterization without energy device testing

AEM expects functional energy device validation. Characterizing material properties alone insufficient. Show how material performs in battery, supercap, or solar cell.

Short-term performance without long-term cycling or stability data

Initial performance is baseline. Energy devices must survive thousands of cycles without degradation. Stability and cycle life data essential.

Lab-scale synthesis without manufacturability or cost discussion

Show material synthesis is scalable using practical methods. Discuss material costs and manufacturing feasibility. Lab curiosities without production pathway have limited utility.

Ignoring critical energy metrics like round-trip efficiency

Energy performance requires appropriate metrics. Battery papers need capacity, voltage, cycle life. Supercaps need energy density. Solar cells need efficiency and fill factor. Use correct metrics.

No comparison with state-of-the-art materials

Show how material performance compares with current commercial or leading research materials. What advantages justify adoption?

Does your manuscript avoid these patterns?

The Free Readiness Scan reads your full manuscript against Adv. Energy Mater.'s criteria and flags the specific issues most likely to cause rejection.

Run Free Readiness Scan

Insider Tips from Adv. Energy Mater. Authors

Solid-state battery materials increasingly competitive and high-impact

Solid electrolyte materials enabling next-generation batteries receive strong editorial interest as industry moves toward solid-state.

High-energy-density cathodes and fast-charging anodes valued

Materials enabling fast charging, high capacity retention, or improved energy density have immediate commercial relevance.

CO2 electroreduction catalysts and electrolyzers trending

Materials enabling efficient water splitting or CO2 conversion aligned with decarbonization priorities.

Sustainability and Earth-abundant materials increasingly important

Materials avoiding rare elements or using abundant, non-toxic alternatives increasingly competitive.

Machine learning for materials discovery gaining prominence

Using computational methods or ML to guide material design increasingly valued in advanced materials papers.

The Adv. Energy Mater. Submission Process

1

Manuscript preparation

Prep

6,000-9,000 words with 6-8 figures. Include material synthesis and characterization, energy device fabrication, performance testing (capacity, efficiency, cycling), stability data, mechanistic discussion, manufacturability, and comparison.

2

Submission via Wiley system

Day 0

Submit at https://onlinelibrary.wiley.com/journal/16146840/. Required: manuscript emphasizing energy performance advantages, figures showing characterization and device performance, cover letter highlighting innovation.

3

Editorial assessment

1-2 weeks

Editor assesses material novelty and energy significance. Papers lacking device validation or long-term stability face lower priority. Selective desk rejection ~40-50%.

4

Peer review

100-140 days

2-3 energy materials experts assess novelty, characterization rigor, device performance, and significance. First decision 100-140 days.

5

Revision and publication

Revision: 4-8 weeks

Revisions often request additional cycling data, stability testing, or manufacturability discussion. Publication 2-4 weeks after acceptance.

Adv. Energy Mater. by the Numbers

2024 Impact Factor14.2
5-Year Impact Factor14.8
Acceptance rate~15-25%
Desk rejection rate~40-50%
Median first decision~120 days
Open access option$4,500 USD
PublisherWiley
Founded2011

Before you submit

Adv. Energy Mater. accepts a small fraction of submissions. Make your attempt count.

Start with the Free Readiness Scan. Unlock the Full AI Diagnostic for $29. If you need deeper scientific feedback, choose Expert Review. The full report is calibrated to Adv. Energy Mater..

Run Free Readiness ScanSee a sample report

Article Types

Full Paper

6,000-9,000 words

Energy material with device validation and performance

Communication

3,500-5,000 words

Significant energy material discovery

Landmark Adv. Energy Mater. Papers

Papers that defined fields and changed science:

  • Perovskite solar cell development (2010s+) - high-efficiency photovoltaics
  • High-capacity battery cathodes (various) - improved energy storage
  • Solid electrolyte development (2010s+) - next-generation batteries
  • Water splitting electrocatalysts (2010s+) - green hydrogen generation

Preparing a Adv. Energy Mater. Submission?

Get pre-submission feedback from reviewers who've published in Adv. Energy Mater. and know exactly what editors look for.

Run Free Readiness Scan

Need expert depth? See Expert Review Options

NDA-protected
Confidential

Primary Fields

BatteriesSupercapacitorsSolar CellsFuel CellsElectrocatalystsSolid-State

Browse by Field

Related Journal Guides

All journal guides

Latest Journal-Specific Guides

All articles

Ready to submit to Adv. Energy Mater.?

A desk rejection costs months. Get expert feedback before you submit, from scientists who know exactly what Adv. Energy Mater. editors look for.

Avoid Desk Rejection

Get expert pre-submission review before you submit to Adv. Energy Mater.. 3-7 day turnaround.

Manuscript Rejected?

Expert revision help to strengthen your manuscript and resubmit with confidence.

Reviewer Response Help

Get expert guidance crafting your response to Adv. Energy Mater. reviewers.

Reference library

Compare Adv. Energy Mater. with the broader publishing context

This journal guide is the best starting point for Adv. Energy Mater.. The reference library covers the surrounding questions authors usually ask next: review timing, acceptance-rate benchmarks, and submission requirements across neighboring journals.

Open the reference library →

Dataset / reference guide

Peer Review Timelines by Journal

Reference-grade journal timeline data that authors, labs, and writing centers can cite when discussing realistic review timing.

Dataset / benchmark

Biomedical Journal Acceptance Rates

A field-organized acceptance-rate guide that works as a neutral benchmark when authors are deciding how selective to target.

Reference table

Journal Submission Specs

A high-utility submission table covering word limits, figure caps, reference limits, and formatting expectations.

Run Free Readiness Scan

Need field-expert depth? See Expert Review Options