--- name: acs-energy-letters description: Use when targeting ACS Energy Letters (ACS Energy Lett.) or deciding whether a short-format energy manuscript fits this high-impact ACS venue. Encodes the journal's fit, framing, method-and-evidence bar, house style, official-submission re-check, and desk-reject heuristics. --- # ACS Energy Letters (acs-energy-letters) ## Journal positioning ACS Energy Letters is an American Chemical Society journal dedicated to short-format, high-impact research across energy science: photovoltaics (especially perovskite, organic, and emerging solar cells), batteries and electrochemical storage, fuel cells, electrocatalysis and photoelectrochemistry, and energy conversion. Its defining character is urgency plus selectivity: papers are concise Letters that report a timely, significant advance of broad interest, and brevity is enforced to keep each paper focused on a single important result. The journal rewards work that is novel, of immediate community relevance, and rigorous enough to be trusted at the frontier — not incremental optimization or comprehensive studies that belong in full-length venues. Readership is the broad energy-research community across chemistry, materials, and devices. This skill is a **fit / venue-selection / re-framing** tool. It does not replace the journal's current official submission guidelines. Before submitting, re-check the live author instructions on the ACS Energy Letters site. ## When to trigger - The author names ACS Energy Letters as the target for a concise, high-impact energy result with immediate community relevance. - A manuscript reports a timely, significant single advance in photovoltaics, batteries, fuel cells, or electrocatalysis, and the author is choosing between this venue and Joule, Energy & Environmental Science, or Advanced Energy Materials. - A paper is short and urgent rather than comprehensive, and the author needs to decide between a Letter here and a full-length article elsewhere. - The author needs the journal's brevity, novelty, and rigor bar plus desk-reject criteria before submission. ## Scope & topic fit - Photovoltaics: perovskite, organic, quantum-dot, and emerging solar cells where a concise advance raises efficiency, stability, or understanding of a key loss mechanism. - Batteries and electrochemical storage: electrode, electrolyte, and interface advances for Li-ion, Li-metal, Na-ion, solid-state, and beyond-Li systems, reported as a single significant result. - Electrocatalysis and photoelectrochemistry: HER, OER, ORR, CO2/N2 reduction, and water splitting where activity, selectivity, or mechanism advances meaningfully. - Fuel cells and electrolyzers: catalyst, membrane, and electrode advances with frontier-relevant performance or insight. - Mechanistic and operando studies that resolve an important energy question concisely (degradation, ion transport, interfacial chemistry). - Emerging energy concepts and timely perspectives where novelty and community relevance are high. ## Method & evidence bar - The single significant advance and its energy relevance must be stated in one or two sentences; a paper that cannot justify urgency and broad interest is misfit for a Letter. - Despite brevity, rigor is non-negotiable: key metrics (efficiency, capacity, rate, stability, overpotential, Faradaic efficiency) reported with conditions, uncertainty, and comparison to the best literature. - Frontier efficiency or capacity claims require certification or independent cross-check and reproducibility statistics across multiple devices/cells. - Device and electrochemical testing must follow field-appropriate protocols: stated areas, loadings, current densities, cycling windows, and meaningful stability durations. - Mechanistic or operando evidence is expected when the claim is about why a system behaves as reported, not only that it performs. - Supporting Information must contain full methods and the additional data needed to trust the concise main-text claims; raw data should be reproducible. ## Structure & house style - ACS Energy Letters enforces strict length limits for Letters — word counts and figure/display limits are lower than full-length journals; re-check current limits on the live site. - The main text is dense and result-driven from the first paragraph; background is minimal, and the advance and its significance are stated immediately. - Figures must be efficient: each carries a single key result, with performance plots enabling direct comparison to literature benchmarks. - All methods, characterization, additional analyses, and supplementary figures belong in the Supporting Information; the Letter must stand alone scientifically. - Article types include Letters, Perspectives, Reviews, and Energy Express/Focus pieces — confirm current types and their limits on the live site. - Claims of record or "high" performance must be explicitly benchmarked against the state of the art. ## Official-submission checklist - Before giving submission-ready advice, read `../../resources/source-basis.md` and `../../resources/official-source-map.md`; start from the official source anchors for this journal family, then cite the current journal-specific page you checked. - Search the live site for "ACS Energy Letters author guidelines" and follow the current ACS version. - Re-check the strict word and figure/display limits for Letters and other article types; confirm Supporting Information conventions. - Re-check data-availability, device-testing, and efficiency-certification requirements for the relevant energy area. - Re-check competing-interests, funding, and AI-use disclosure requirements; confirm ACS preprint and ChemRxiv posting policy. - If the live official instructions conflict with this skill, the official instructions win. ## Pre-submission self-check - [ ] One sentence — the single significant advance, why it is timely, and why it is of broad energy-community interest. - [ ] The result fits within the Letter word and figure limits without cutting the rigor needed to trust it. - [ ] Key metrics are reported with conditions, uncertainty, and comparison to the best literature. - [ ] Frontier claims have certification/independent cross-check and reproducibility statistics across multiple cells/devices. - [ ] Full methods and supporting data are in the Supporting Information; the Letter stands alone scientifically. - [ ] The paper is positioned against recent ACS Energy Letters / Joule / EES work on this question. ## Common desk-reject triggers - Incremental optimization or a comprehensive study with no single timely, broadly significant advance — better suited to a full-length venue. - A performance claim compared only to the authors' baseline, without benchmarking against state-of-the-art literature. - A frontier efficiency or capacity claim with no certification, cross-check, or reproducibility statistics. - Device/electrochemical data reported without conditions (areas, loadings, current densities, stability), preventing fair comparison. - A paper exceeding the Letter limits or whose scope is too broad and procedural for the short format. ## Re-routing decision - System-level energy science with techno-economic, scale-up, or sustainability framing: `joule`. - Energy-and-environment scope broader than a single concise advance (analysis, devices, sustainability): `energy-and-environmental-science`. - Comprehensive, full-length energy-materials study with extensive characterization: `advanced-energy-materials`. - If the advance is materials-functional but not energy-urgent: a functional-materials full-length venue. ## Output format ```text [Fit] High / Medium / Low (one-line reason) [Target] ACS Energy Letters [Topic tags] <2–3 closest topics> [Method/evidence] [Top risk] [Official items to re-check] [Re-route suggestion] ```