분기 논문 동향 — 2026-W15~W27
이 분기는 전고체 배터리(120편, 25%)가 중심이며 고체전해질 화학과 계면 안정화가 실용화 임계점에 진입함을 보인다. 동시에 양극·음극 조성 최적화, 나트륨·바나듐·듀얼양이온 등 다중 배터리 플랫폼의 기계적·전해질적 제어가 병행되어 단일 화학을 넘는 다층 에너지저장 경로 모색을 지향한다.
⚠️ 이 리포트는 내 Google Scholar 피드 슬라이스에 대한 분석이며, 해당 분야 문헌 전체를 대표하지 않습니다.
🏷️ 이 분기 요약 기준 2종 혼재 (v1.3, v1.4) — 필드 일관성 주의.
한눈에
논문 475편
토픽(tag) 분포
Si-LIB67
Cathode78
ASSB120
IF tier(star) 분포
(IF<10/미상)268
⭐⭐27
⭐158
⭐⭐⭐22
주요 venue
Journal of Energy Storage28
Nature Communications24
Journal of Power Sources23
Advanced Functional Materials22
Energy storage materials15
Advanced Energy Materials14
ACS Applied Energy Materials12
Chemical Engineering Journal12
ACS Applied Materials & Interfaces11
Advanced Materials10
⭐ 주목 논문 (IF≥20)
- Quantifying the self-discharge rate of solid-state batteries — Nature Energy ⭐⭐⭐ · [전고체(ASSB)] 🔗
- Scaling vanadium flow battery for long-duration energy storage — Nature Energy ⭐⭐⭐ · [액체전해질] 🔗
- The interplay between stack pressure, mechanical expansion and degradation pathways in lithium-ion batteries — Nature Energy ⭐⭐⭐ · [기타] 🔗
- Interfaces in All-Solid-State Li Metal Batteries: From Fundamental Research to Practical Applications — Chemical Reviews ⭐⭐⭐ · [전고체(ASSB)] 🔗
- Fast formation to reinforce lithium-rich cathodes — Nature ⭐⭐⭐ · [양극] 🔗
- Revealing competitive interfacial reactions in high-energy Li–S batteries — Nature ⭐⭐⭐ · [액체전해질] 🔗
- Dendrite initiation and deflection in biaxially stressed solid electrolytes — Nature ⭐⭐⭐ · [기타] 🔗
- Quantitative elucidation of in situ lithium metal anode modification on NCM811 cathode failure mechanisms in high-nickel solid-state lithium metal batteries — eScience ⭐⭐⭐ · [양극] 🔗
- Nano-framework electroplating enabled by chloride electrolyte engineering for long-life and high-reversibility aqueous zinc-ion batteries — eScience ⭐⭐⭐ · [액체전해질] 🔗
- Innovative Solutions for High-Performance Silicon Anodes in Lithium-Ion Batteries: Overcoming Challenges and Real-World Applications — Nano-Micro Letters ⭐⭐⭐ · [음극] 🔗
- Modulating Lattice Oxygen and Transport Kinetics of Li-Rich Cathodes in All-Solid-State Batteries Through Multifunctional Li3ScF6 Protective Layer — Nano-Micro Letters ⭐⭐⭐ · [전고체(ASSB)] 🔗
- Anion–Diluent Decoupled Solvation Chemistry in Ionic Liquid-Based Localized High-Concentration Electrolytes Toward High-Voltage Lithium Metal Batteries — Nano-Micro Letters ⭐⭐⭐ · [액체전해질] 🔗
- Multifunctional Conductive and Elastic Matrices-Engineered Si Nanocomposite Anodes for Liquid and Solid-State Lithium Batteries — Nano-Micro Letters ⭐⭐⭐ · [전고체(ASSB)] 🔗
- Recent Advances of Atomic/Molecular Layer Deposition Engineering Silicon Interface for Lithium-Ion Batteries — Nano-Micro Letters ⭐⭐⭐ · [음극] 🔗
- Interfacial polarity modulation of positive electrode active materials for high-potential lithium metal batteries — Nature Nanotechnology ⭐⭐⭐ · [양극] 🔗
🗺️ 토픽 지도
전고체(ASSB) (120편)
고체전해질 화학(게르마늄황화물, 산소도핑, 플루오르 고분자)과 계면 엔지니어링(코팅, 미세구조)이 개발 중심이며, 자방전 2%/month 억제·수천시간 안정 사이클링 데이터가 자동차 규격 실현을 시사한다.
하위토픽 9개
- 게르마늄 황화물 고체전해질 · 20편 · Antimony and Tellurium Dual-Doped Li₁₀GeP₂S₁₂Solid Electrolyte with Superior Air Stability and Lithium Compatibility for All-Solid-State Lithium Batteries — Industrial & Engineering Chemistry Research 🔗 / A High‐Performance, Low‐Cost and Recyclable Solid Electrolyte for Practical All‐Solid‐State Lithium‐Based Batteries — Angewandte Chemie International Edition ⭐ 🔗
- 전고체 배터리 계면 코팅 개선 · 18편 · Interfaces in All-Solid-State Li Metal Batteries: From Fundamental Research to Practical Applications — Chemical Reviews ⭐⭐⭐ 🔗 / Stabilizing Lithium Metal Surface in Solid‐State Batteries via Single‐Step Gas‐Phase Synthesis of Li₃N Interfacial Layer — Small Structures 🔗
- 마그네슘질화물 실리콘 음극 · 16편 · Enhanced Kinetics of Lithium-Ion Charge Storage on Si Anode through Ultrasmall Magnesium Nitride Nanoparticles toward Fast and Durable All-Solid-State Lithium-Ion Batteries — ACS Applied Materials & Interfaces 🔗 / Multifunctional Conductive and Elastic Matrices-Engineered Si Nanocomposite Anodes for Liquid and Solid-State Lithium Batteries — Nano-Micro Letters ⭐⭐⭐ 🔗
- 니켈산화물 양극 이중층 코팅 · 14편 · Hard–Soft Gradient-Engineered Oxychloride Coating on Ni-Rich Cathodes for All-Solid-State Lithium Batteries — ACS Nano ⭐ 🔗 / Modulating Lattice Oxygen and Transport Kinetics of Li-Rich Cathodes in All-Solid-State Batteries Through Multifunctional Li3ScF6 Protective Layer — Nano-Micro Letters ⭐⭐⭐ 🔗
- 전고체 배터리 고체 전해질 · 13편 · Electro-chemo-mechanical design of liquid metal interfacial layer on silicon anode for all-solid-state batteries — Journal of Energy Chemistry ⭐ 🔗 / Towards Durable Fast-Charging All-Solid-State Batteries: Challenges and Mitigation Strategies for High-Loading Composite Cathodes — JOM 🔗
- 산소 도핑 황화물 고체전해질 · 12편 · Argyrodite Sulfide Electrolytes with Dry Atmospheric Stability for All‐Solid‐State Lithium Batteries — Advanced Materials ⭐⭐ 🔗 / Dry-milled microstructure-controlled sulfide electrolytes enabling superionic transport and high-capacity all-solid-state batteries — EES batteries. 🔗
- 텔루르 전극 고체 셀 · 12편 · Ultrahigh Te-Content Low-Pressure All-Solid-State Li–Te Batteries — Journal of the American Chemical Society ⭐ 🔗 / A cost-competitive amorphous oxychlorophosphate polyanion cluster solid electrolyte for all-solid-state lithium batteries — Nano Energy ⭐ 🔗
- 플루오르 고분자 전해질 · 10편 · Salt‐Optimized Interface for Mitigating Cycle‐Induced Interface Fluctuation of In Situ Polymerized Solid State Lithium Metal Batteries — Advanced Functional Materials ⭐ 🔗 / Ferroelectrically Modulated Composite Polymer Electrolyte Enabling Accelerated Ion Transport and Stable Interfaces for Solid‐State Lithium Metal Batteries — Advanced Energy Materials ⭐⭐ 🔗
- 전고체 전극-전해질 미세구조 · 3편 · 3‐Dimensional Conductive Pathways in Microstructure‐Controlled Composite Cathodes for All‐Solid‐State Batteries — Batteries & Supercaps 🔗 / Operando Monitoring of Cathode Microstructure Evolution with Wireless Sensors in Solid-State Batteries — ACS Applied Energy Materials 🔗
기타 (112편)
이중염·듀얼양이온·고체(PEO) 플랫폼을 거쳐 스택 압력·쌍축 응력 같은 기계적 제어가 수명 2배·임계전류 100 mA cm⁻² 달성으로 계면 안정화의 새 설계축을 제시한다.
하위토픽 10개
- 복합 리튬 음극 계면 저항 · 20편 · Regulating Bulk Transport via a Li₃P/Li‐Cu Bicontinuous Ionic‐Electronic Conducting Network: A Fundamental Strategy Toward Long‐Cycling Garnet‐Based Solid‐State Lithium Metal Batteries — Advanced Functional Materials ⭐ 🔗 / Single‐Atom Iron‐Catalyzed Vapor‐Phase Polymerization of Phosphorus Enables Uniform Nanoconfinement in Carbon Frameworks for Durable Li‐Ion Batteries — Advanced Energy Materials ⭐⭐ 🔗
- 하이브리드 듀얼 양이온 전지 · 19편 · Dual‐Cation Batteries via Synergistic Cation‐Sieving Electrodes and Tailored Electrolytes — Angewandte Chemie International Edition ⭐ 🔗 / In-situ artificial interphase integrating solvation reconstruction and composition gradient solid electrolyte interphase for anode-free sodium metal batteries — Journal of Energy Storage ⭐ 🔗
- 이중염 액체 전해질 시스템 · 16편 · Weakly-Dissociated Lithium Salt Decouples Solvent-Anion Interfacial Dynamics for Wide-Temperature Lithium-Ion Batteries — EES batteries. 🔗 / Progress in electrochemical engineering of carbon materials and solid electrolyte interphase in lithium and sodium batteries — Green Energy & Environment 🔗
- 인산리튬 규소카본 음극 · 16편 · Synergistic Li3PO4/carbon coating on SiOx anodes enables rapid ion/electron transport and stable solid electrolyte interphase — Journal of Electroanalytical Chemistry 🔗 / nSi@MIL−53(Al) anode for lithium-ion batteries with incessantly improved capacity enabled by its structure-activation, and Li+-enriching characteristics — Journal of Alloys and Compounds 🔗
- PEO 기반 고체 전해질 · 10편 · Physical/Chemical Mismatch Elimination Enabling Ultra‐Uniform Composite Solid Electrolyte for High Performance Solid‐State Lithium Metal Batteries — Advanced Functional Materials ⭐ 🔗 / Tailoring ion transport through microphase separation enabled by side chain engineering: In-situ copolymerized semi-solid electrolyte for stable lithium metal batteries — Chemical Engineering Journal ⭐ 🔗
- 나트륨 배터리 다공 양극 · 9편 · Harnessing Native Al/Si Impurities in Bamboo Black Liquor for Self‐Templated Closed‐Pore Hard Carbon Anodes — Carbon Energy ⭐⭐ 🔗 / Enhanced K ⁺ ‐Solvent Co‐Intercalation Into Regenerated Spent Graphite a High‐Rate Capable Anode for Potassium‐Ion Batteries at Different Temperatures — CleanMat. 🔗
- 알칼리 이온 배터리 음극 · 9편 · Modified graphite oxide as an anode material for sodium ion battery — Chemical Physics Letters 🔗 / Correction: Tang et al. A Hollow Silicon Nanosphere/Carbon Nanotube Composite as an Anode Material for Lithium-Ion Batteries. Coatings 2022, 12, 1515 — Coatings 🔗
- 배터리 안전 성능 평가 · 5편 · Battery Safety: Mechanisms, Monitoring, and Machine Intelligence — Advanced Energy Materials ⭐⭐ 🔗 / A Segment Anything Model adaptation framework for battery visual inspection under complex radiographic imaging conditions — Pattern Recognition 🔗
- 이온성 액체 덴드라이트 억제 · 5편 · Mathematical modelling and numerical simulation of Lithium–Ion batteries. A review of mathematical models and computational frameworks — SeMA Journal 🔗 / Ionic Liquid Electrolytes for Anode-Free Lithium-ion Batteries (A Review) — Russian Journal of General Chemistry 🔗
- 나트륨 배터리 SEI 형성 · 3편 · Tuning Solid Electrolyte Interphase Formation before Plating Onset in Anode-Free Sodium Batteries — JACS Au 🔗 / Tailoring Closed-Pore Architectures in Biomass-Derived Hard Carbons for Superior Sodium Storage: From Structural Evolution Mechanisms to Pore Engineering — ACS Applied Energy Materials 🔗
액체전해질 (98편)
유기/무기 복합(PVC, 생분해성)과 나트륨·아연·바나듐 다중 양이온 전지로 다양화하며, 바나듐 흐름의 >80% 효율·$250/kW 비용, Li-S의 400 Wh kg⁻¹이 그리드·고급 자동차 배포 가능성을 보인다.
하위토픽 10개
- 폴리염화비닐 액체 전해질 · 22편 · Tailoring electrolyte phase separation for high-rate solid-state lithium metal batteries — Nature Communications ⭐ 🔗 / A mechano-integrated gradient electrolyte for long-cycling solid-state lithium metal batteries — Nature Communications ⭐ 🔗
- 생분해성 하이드로젤 전해질 · 16편 · Interfacial engineering and electrolyte design toward highly-stable flexible zinc-iodine batteries — Journal of Energy Storage ⭐ 🔗 / Polyacrylonitrile-skeleton-reinforced ultrathin hydrogel electrolyte for high-performance zinc-ion batteries — Journal of Energy Storage ⭐ 🔗
- 저온 고산화 액체 전해질 · 14편 · Oxidation-Resistant Cyclic Ether-Based Electrolyte for Sustainable 4.5 V Lithium-Ion Batteries with Robust Low-Temperature Reliability — ACS Applied Energy Materials 🔗 / Anion–Diluent Decoupled Solvation Chemistry in Ionic Liquid-Based Localized High-Concentration Electrolytes Toward High-Voltage Lithium Metal Batteries — Nano-Micro Letters ⭐⭐⭐ 🔗
- 고성능 리튬금속 전해질 · 14편 · Regulating Li-Ion Transport via Solvent and Ion Clustering Using Ternary Salts in Nonfluorinated Solvents for Extended Cyclability of Zero-Excess Lithium-Metal Batteries — Journal of the American Chemical Society ⭐ 🔗 / Rational Design of Electrolyte Additives for Low-Temperature Lithium Metal Batteries — Nano Letters 🔗
- 나트륨 배터리 전해질 공학 · 10편 · Reversibility‐Driven Degradation Mechanisms and Targeted Modulation Strategies for Anode‐Free Sodium Metal Batteries — Advanced Energy Materials ⭐⭐ 🔗 / Guiding Uniform Nucleation and Growth by Engineered Electrolyte‐Philic and Sodiophilic Interface for Dendrite‐Free Sodium Metal Batteries — Advanced Energy Materials ⭐⭐ 🔗
- 아연 배터리 수계 전해질 · 7편 · A multifunctional hydrogel electrolyte with anion-capturing and competitive solvation for wide-temperature zinc metal batteries — Energy storage materials ⭐ 🔗 / Tough lean-water hydrogel electrolyte with enhanced ionic conductivity for high-performance aqueous zinc-ion batteries — Chemical Engineering Journal ⭐ 🔗
- 고분자 복합 고체 전해질 · 6편 · Siloxane-polycarbonate electrolyte with fast ion transport for solid lithium batteries — Journal of Energy Storage ⭐ 🔗 / Single-Ion Conducting Polymer Electrolytes for Lithium Metal Batteries — Progress in Polymer Science 🔗
- 칼륨 배터리 전해질 설계 · 3편 · Beyond conventional electrolytes in potassium-based batteries: Tailoring solvation structures, interfaces and electrolyte functions — Coordination Chemistry Reviews 🔗 / Alumina foam-based electrolyte for thermal batteries: design and performance evaluation — Scientific Reports 🔗
- 저온 나트륨 이온 전해질 · 3편 · Low-temperature electrode/electrolyte interface in sodium-ion batteries: Pivotal or negligible? — Coordination Chemistry Reviews 🔗 / Thermodynamic rebalancing of dissociation-coordination effect in weakly solvating electrolytes for high-performance sodium-ion batteries — Chemical Engineering Journal ⭐ 🔗
- 바나듐 흐름 배터리 전해질 · 3편 · Advancements in vanadium redox flow battery electrolytes: Additive effects and future research directions — Renewable and Sustainable Energy Reviews 🔗 / Asymmetric Adjustment of Electrolyte Volume for Alleviating Water Migration in Vanadium Redox Flow Batteries — Journal of The Electrochemical Society 🔗
양극 (78편)
고니켈·과리튬 조성 최적화(25편)와 니켈산화물 코팅·고엔트로피 도핑이 병행되며, 고속 형성이 가역용량 20%, 수명 36% 향상·in situ 개질이 상전이 지연을 달성해 신뢰성 전환점을 이룬다.
하위토픽 8개
- 양극 재료 조성 최적화 · 25편 · Enhancing Fast‐Charging Capability of NMC811 Cathodes for Lithium‐Ion Batteries via Cathode Composition and Mechanical Pressure Optimisation — Electrochemical Science Advances 🔗 / Fabrication of Carbon Nanotube Layer-Incorporated Stackable Cathodes by 3D Printing for High-Performance Lithium-Ion Batteries — Energy & Fuels 🔗
- 니켈산화물 양극 LLTP 코팅 · 13편 · Structural stability and interface optimization for enhancing high-voltage electrochemical performance of the LiNi₀.₈₃Co₀.₁₁Mn₀.₀₆O ₂ cathode material — Nanoscale 🔗 / Interfacial Engineering of Dry-Processed High-Loading LiNi ₀.₅ Mn ₁.₅ O ₄ Cathodes: Additive Dissolution and Bilayer Cathode–Electrolyte Interphase toward Stable High-Voltage Lithium Metal Batteries — ACS Applied Materials & Interfaces 🔗
- 규소산화물 규산염 억제제 · 11편 · Lithiated Organic Coverages on SiO ₓ Anodes: Promoting Li₂O Formation and Suppressing Lithium Silicate Growth for Stable Lithium‐Ion Batteries — Small Structures 🔗 / Interfacial reaction-modulating single-walled carbon nanotubes for enhancing the high-rate capability of Ni-rich LiNi0.92Co0.04Mn0.04O2 cathodes in lithium-ion batteries — Carbon ⭐ 🔗
- 리튬 과잉 산화물 양극 개선 · 8편 · Li-rich Mn-based oxide cathodes: Confronting challenges and prospects for high-energy lithium-ion batteries — Journal of Energy Storage ⭐ 🔗 / Lithium-rich manganese-based cathode materials: Challenges facing next-generation lithium-ion batteries, electrolyte additive strategies, and artificial intelligence-assisted design — Chinese Chemical Letters 🔗
- 층상 산화물 양극 고속 충전 · 6편 · Additive-free self-carbon-integrated LiFePO4 cathode films derived from an Fe metal organic framework precursor by alternating current electrophoretic deposition — Journal of Power Sources 🔗 / Solvent-Enriched Separator–Electrolyte Interface Stabilizes 4.7 V Ni-Rich Layered Cathodes — ACS Nano ⭐ 🔗
- 고엔트로피 도핑 층상 양극 · 6편 · High-Entropy Doping Strategy Enables High-Performance Layered Oxide Cathodes for Lithium-Ion Batteries: A Review — Unknown 🔗 / Nanostructured Cathode Materials for Rechargeable Lithium-Ion Batteries: Synthesis, Morphology, and Performances — Preprints.org 🔗
- 리튬 양극 습식 제련 회수 · 5편 · Solvometallurgical Recycling of Lithium-Ion Battery Cathode Materials Using Deep Eutectic Solvents and Ionic Liquids — Korean Journal of Chemical Engineering 🔗 / A novel recyclable deep eutectic solvent for fully closed-loop leaching of spent ternary lithium-ion battery cathode material — Journal of Industrial and Engineering Chemistry 🔗
- 아연 배터리 고효율 전극 · 4편 · Full‐Chain Regulation Across Anode‐Electrolyte‐Cathode Enables High‐Capacity and Durable Aqueous Zn‐Te Batteries — Small ⭐ 🔗 / Graded‐Interface Dual‐Environment Hydrogel‐Polymer Electrolyte for Stabilized Anode and Sustained Cathode Kinetics in Aqueous Zinc‐Ion Batteries — Advanced Functional Materials ⭐ 🔗
음극 (67편)
실리콘 복합재(29편)가 나노구조·인공SEI·프리리튬화로 다층 최적화 포화에 진입하며, 원자층증착 계면 공학이 1000+ 사이클 2000 mAh g⁻¹·CE 99.8% 달성으로 성숙도를 입증한다.
하위토픽 5개
- 실리콘 음극 복합재 최적화 · 29편 · Innovative Solutions for High-Performance Silicon Anodes in Lithium-Ion Batteries: Overcoming Challenges and Real-World Applications — Nano-Micro Letters ⭐⭐⭐ 🔗 / Amorphous silicon anode with microporous carbon confinement via chemical vapor deposition for long-cycle lithium-ion batteries — Journal of Power Sources 🔗
- 실리콘 음극 개선 전략 트레이드오프 · 15편 · Progress in Multidimensional Modification of Lithium-Ion Batteries Based on Silicon-Based Anode Materials: From Structural Design to Interface and Binder Optimization — MATEC Web of Conferences 🔗 / Performance and Limitations of Nano-Coated Silicon-Based Anodes for Lithium-Ion Batteries — MATEC Web of Conferences 🔗
- 실리콘 음극 계면 리튬 확산 · 8편 · Three birds with one stone: A mechanically robust and highly ion-conductive LiAlO2 artificial layer enables Si anodes with high initial coulombic efficiency, fast kinetics, and ultralong cyclability — Journal of Energy Storage ⭐ 🔗 / Recent Advances of Atomic/Molecular Layer Deposition Engineering Silicon Interface for Lithium-Ion Batteries — Nano-Micro Letters ⭐⭐⭐ 🔗
- 실리콘카본 MXene 복합 음극 · 6편 · Gravity-induced concentration gradient in lithium-ion batteries with silicon-graphite composite anodes — Journal of Energy Chemistry ⭐ 🔗 / Silicon-carbon composite anodes for high-energy lithium-ion batteries: challenges, design strategies, and recent advances — Journal of Solid State Electrochemistry 🔗
- 실리콘 음극 PAA 혼합 바인더 · 6편 · Latent-Cross-Linkable Polyacrylate Binder for High-Performance Silicon Anodes in Lithium-Ion Batteries — ACS Applied Polymer Materials 🔗 / Influence of aqueously synthesized polyacrylic acid binder content on the processing and cycling of Si–Gr anodes — Journal of Power Sources 🔗