Buried Interface Modification in Perovskite Solar Cells: A Materials Perspective

Article Chemistry, Multidisciplinary

Rear Interface Engineering to Suppress Migration of Iodide Ions for Efficient Perovskite Solar Cells with Minimized Hysteresis

Qiu Xiong et al.

Summary: Accurate interface engineering plays a crucial role in perovskite solar cells, with the introduction of an NdCl3 interface layer effectively inhibiting iodide ion migration pathway, leading to improved device performance and stability.

ADVANCED FUNCTIONAL MATERIALS (2022)

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Article Multidisciplinary Sciences

Centimetre-scale perovskite solar cells with fill factors of more than 86 per cent

Jun Peng et al.

Summary: Perovskite solar cells are at the forefront of emerging photovoltaic technologies due to their rapid development in efficiency and stability. This study introduces a reverse-doping process to fabricate nitrogen-doped titanium oxide electron transport layers, which significantly improves the charge transport performance and fill factor of the cells.

NATURE (2022)

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Article Multidisciplinary Sciences

Conformal quantum dot-SnO2 layers as electron transporters for efficient perovskite solar cells

Minjin Kim et al.

Summary: The study replaced the commonly used mesoporous titanium dioxide electron transport layer with a thin layer of polyacrylic acid-stabilized tin(IV) oxide quantum dots, which improved the efficiency and stability of perovskite solar cells and enabled successful scaling up of PSCs production.

SCIENCE (2022)

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Article Chemistry, Physical

CsI Enhanced Buried Interface for Efficient and UV-Robust Perovskite Solar Cells

Hang Xu et al.

Summary: By utilizing CsI-SnO2 complex as the buried interface for the electron transport layer, an effective strategy for enhancing the efficiency and stability of perovskite solar cells has been achieved. CsI modification facilitates perovskite film growth and defect passivation, while the gradient distribution of Cs+ contributes to suitable band alignment and enhanced resistance to UV exposure, resulting in significantly improved power conversion efficiency and UV stability for FAPbI(3)-based PSCs.

ADVANCED ENERGY MATERIALS (2022)

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Article Chemistry, Multidisciplinary

Poly(N,N′-bis-4-butylphenyl-N,N′-bisphenyl)benzidine-Based Interfacial Passivation Strategy Promoting Efficiency and Operational Stability of Perovskite Solar Cells in Regular Architecture

Erdi Akman et al.

Summary: The study addresses the issue of degradation in perovskite solar cells (PSCs) over time, caused by environmental factors such as humidity, heat, and light. By treating the perovskite surfaces with polyTPD molecules, the research significantly suppresses defect-mediated non-radiative recombination in PSCs, resulting in improved efficiency and stability. The ultra-hydrophobic polyTPD passivant also helps to prevent moisture penetration, leading to a high retention of initial efficiencies after storage and operational conditions.

ADVANCED MATERIALS (2021)

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Article Chemistry, Multidisciplinary

Buried Interfaces in Halide Perovskite Photovoltaics

Xiaoyu Yang et al.

Summary: Research has shown that losses at buried interfaces in perovskite photovoltaics are mainly caused by sub-microscale extended imperfections and lead-halide inhomogeneities, which are major obstacles to improving device performance. By utilizing passivation molecules for microstructural reconstruction, these losses can be significantly reduced, unlocking the full potential for enhancing device performance.

ADVANCED MATERIALS (2021)

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Article Chemistry, Multidisciplinary

High-Efficiency Perovskite Solar Cells with Imidazolium-Based Ionic Liquid for Surface Passivation and Charge Transport

Xuejie Zhu et al.

Summary: In this study, DMIMPF6 ionic liquid was used to passivate surface defects of perovskite, resulting in increased solar cell efficiency and enhanced long-term stability of the device.

ANGEWANDTE CHEMIE-INTERNATIONAL EDITION (2021)

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Review Chemistry, Multidisciplinary

Halide Perovskite Semiconductor Lasers: Materials, Cavity Design, and Low Threshold

Qing Zhang et al.

Summary: Perovskite lasers, combining the advantages of inorganic and organic semiconductors, have emerged as excellent candidates for solution-processable lasers. They offer cost-effectiveness, low threshold, high coherence, and multicolor tunability. Despite rapid development and various types of lasers and devices, critical issues such as mass fabrication and applications still need to be addressed.

NANO LETTERS (2021)

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Article Multidisciplinary Sciences

Nanoscale localized contacts for high fill factors in polymer-passivated perovskite solar cells

Jun Peng et al.

Summary: This research introduces a nanopatterned electron transport layer that overcomes the trade-off between passivation quality and series resistance in traditional polymer passivation layers. Combining the nanopatterned electron transport layer with a dopant-free hole transport layer improves the efficiency and stability of perovskite solar cells.

SCIENCE (2021)

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Article Energy & Fuels

Intact 2D/3D halide junction perovskite solar cells via solid-phase in-plane growth

Yeoun-Woo Jang et al.

Summary: Researchers have developed a solid-phase method to grow phase-pure two-dimensional perovskites in perovskite solar cells, enhancing device efficiency and stability. By growing a stable two-dimensional film on top of a three-dimensional film using a solvent-free method, an intact 2D/3D heterojunction is formed, resulting in high photovoltage in the device.

NATURE ENERGY (2021)

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Article Chemistry, Multidisciplinary

Rubidium Fluoride Modified SnO2 for Planar n-i-p Perovskite Solar Cells

Jing Zhuang et al.

Summary: Regulating the electron transport layer (ETL) using the cost-effective modification material rubidium fluoride (RbF) can enhance the electron mobility of SnO2 and suppress hysteresis in perovskite solar cells (PSCs). Double-sided passivated PSCs with RbF on the SnO2 surface and p-methoxyphenethylammonium iodide on the perovskite surface achieved an outstanding PCE result with a small V-oc deficit.

ADVANCED FUNCTIONAL MATERIALS (2021)

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Article Chemistry, Multidisciplinary

Capturing Mobile Lithium Ions in a Molecular Hole Transporter Enhances the Thermal Stability of Perovskite Solar Cells

Seul-Gi Kim et al.

Summary: A thermally stable perovskite solar cell using a new molecular hole transporter HL38 demonstrates improved power conversion efficiency when incorporating 2-(2-aminoethyl)thiophene hydroiodide for interface engineering. The study shows that HL38 exhibits higher thermal stability and lower lithium ion diffusivity compared to spiro-MeOTAD, highlighting the importance of capturing mobile Li+ in novel molecular hole transporters for enhancing PSC performance.

ADVANCED MATERIALS (2021)

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Article Chemistry, Multidisciplinary

Phosphorene Nanoribbon-Augmented Optoelectronics for Enhanced Hole Extraction

Thomas J. Macdonald et al.

Summary: Phosphorene nanoribbons (PNRs) have demonstrated enhanced hole mobility in both solar cells and space-charge-limited-current devices, showing promise for improving hole extraction in various optoelectronic applications. The presence of PNRs drives more effective carrier extraction and improves both hole mobility and conductivity, providing experimental evidence that the predicted superlative functional properties of PNRs indeed translate to improved optoelectronic performance.

JOURNAL OF THE AMERICAN CHEMICAL SOCIETY (2021)

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Article Multidisciplinary Sciences

Perovskite solar cells with atomically coherent interlayers on SnO2 electrodes

Hanul Min et al.

Summary: By introducing an interlayer between the electron-transporting and perovskite layers in perovskite solar cells, researchers have successfully enhanced charge extraction and transport from the perovskite, leading to higher power conversion efficiency and fewer interfacial defects. The coherent interlayer allowed the fabrication of devices with a certified efficiency of 25.5%, which maintained about 90% of its initial efficiency even after continuous light exposure for 500 hours. The findings provide guidelines for designing defect-minimizing interfaces in metal halide perovskites and electron-transporting layers.

NATURE (2021)

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Article Chemistry, Multidisciplinary

Synergistic Effect of Fluorinated Passivator and Hole Transport Dopant Enables Stable Perovskite Solar Cells with an Efficiency Near 24%

Hongwei Zhu et al.

Summary: The study introduces a trifluoromethylation strategy using TFMBAI and TFP as additives to improve the PCE and moisture resistance of PSCs. By surface treating the perovskite with TFMBAI and adding TFP to the HTL, the PSCs achieved a higher efficiency and improved durability against moisture attack.

JOURNAL OF THE AMERICAN CHEMICAL SOCIETY (2021)

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Article Multidisciplinary Sciences

Interpenetrating interfaces for efficient perovskite solar cells with high operational stability and mechanical robustness

Qingshun Dong et al.

Summary: This study introduces a new approach by incorporating an interpenetrating structure at the electron-transporting-layer interface in perovskite solar cells, enhancing their operational stability and mechanical robustness.

NATURE COMMUNICATIONS (2021)

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Article Chemistry, Physical

Heterojunction Engineering and Ideal Factor Optimization Toward Efficient MINP Perovskite Solar Cells

Jiahao Wang et al.

Summary: A new device structure MINP is proposed in this study, where 5-amino-valeric acid is inserted into the ITO/perovskite interface to form an insulating dipole layer, which improves the performance and efficiency of PSCs.

ADVANCED ENERGY MATERIALS (2021)

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Article Chemistry, Multidisciplinary

Tailoring the Interface in FAPbI3 Planar Perovskite Solar Cells by Imidazole-Graphene-Quantum-Dots

Zhi-Wen Gao et al.

Summary: I-GQDs regulate the interface, improve the quality of perovskite, reduce defects, and extend carrier lifetime, resulting in high efficiency of 22.37% and enhanced long-term stability in planar FAPbI(3) PSCs.

ADVANCED FUNCTIONAL MATERIALS (2021)

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Letter Chemistry, Physical

Interfacial Defect Passivation and Charge Carrier Management for Efficient Perovskite Solar Cells via a Highly Crystalline Small Molecule

Rongmei Zhao et al.

Summary: Minimizing interfacial defects and improving charge transferability by employing a highly crystalline small molecule, C8-BTBT, can enhance the efficiency and stability of perovskite solar cells. This strategy reduces aggregates and improves charge carrier management, leading to over a 2% absolute efficiency improvement in devices. The thermal tolerance of C8-BTBT-modified Spiro-OMeTAD opens up possibilities for enhancing the performance of perovskite optoelectronics.

ACS ENERGY LETTERS (2021)

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Article Chemistry, Physical

Multifunctional Polymer Framework Modified SnO2 Enabling a Photostable α-FAPbI3 Perovskite Solar Cell with Efficiency Exceeding 23%

Zhenghong Xiong et al.

Summary: In this study, PEGDA was introduced into SnO2 dispersion to enhance the photovoltaic performance and stability of pero-SCs. The PEGDA-modified SnO2 acted as an ETL, improving carrier transport and matching energy levels with perovskite. Additionally, PEGDA passivated defects at the perovskite-ETL interface, leading to a high power conversion efficiency and long-term stability.

ACS ENERGY LETTERS (2021)

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Article Chemistry, Physical

Interfacial Passivation Engineering of Perovskite Solar Cells with Fill Factor over 82% and Outstanding Operational Stability on n-i-p Architecture

Bowen Yang et al.

Summary: The use of cyclohexylethylammonium iodide (CEAI) as an interface material successfully improved the fill factor and power conversion efficiency of perovskite solar cells. This was achieved through the formation of a 2D perovskite interlayer, which reduced trap-assisted recombination and enhanced surface hydrophobicity for outstanding stability.

ACS ENERGY LETTERS (2021)

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Article Multidisciplinary Sciences

Interfacial toughening with self-assembled monolayers enhances perovskite solar cell reliability

Zhenghong Dai et al.

Summary: The use of iodine-terminated self-assembled monolayer (I-SAM) in perovskite solar cells (PSCs) leads to increased adhesion toughness at the interface, improved power conversion efficiency, reduced hysteresis, and enhanced operational stability. This is attributed to a decrease in hydroxyl groups at the interface and higher interfacial toughness achieved with I-SAM treatment.

SCIENCE (2021)

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Article Multidisciplinary Sciences

Stabilizing black-phase formamidinium perovskite formation at room temperature and high humidity

Wei Hui et al.

Summary: A new method for synthesizing stable black-phase formamidinium lead iodide (α-FAPbI(3)) was reported, which enables the stable synthesis of α-FAPbI(3) under high temperature and humidity conditions, and maintains high efficiency under light stress.

SCIENCE (2021)

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Article Chemistry, Multidisciplinary

Antisolvent- and Annealing-Free Deposition for Highly Stable Efficient Perovskite Solar Cells via Modified ZnO

Ziyu Wang et al.

Summary: A complexed ZnO material (E-ZnO) was developed as an improved electron selective layer in perovskite solar cells, showing higher electron mobility and better energy level matching compared to traditional ZnO. By utilizing E-ZnO and a new perovskite film fabrication process without annealing or antisolvent, the highest efficiency of 20.39% was achieved for PSCs. Additionally, unencapsulated PSCs with E-ZnO maintained 95% of their initial efficiency after exposure to ambient atmosphere for 3604 hours.

ADVANCED SCIENCE (2021)

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Article Chemistry, Multidisciplinary

Surface Reconstruction Engineering with Synergistic Effect of Mixed-Salt Passivation Treatment toward Efficient and Stable Perovskite Solar Cells

Jiajia Suo et al.

Summary: A systematic study showed the impact of mixed-salt passivation strategy on metal-halide perovskite photovoltaic devices, revealing a synergistic passivation mechanism of FABr and ammonium iodide that leads to a higher quality surface with fewer defects and suppressed ion migration, ultimately achieving a higher efficiency.

ADVANCED FUNCTIONAL MATERIALS (2021)

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Article Chemistry, Multidisciplinary

Solvent Recrystallization-Enabled Green Amplified Spontaneous Emissions with an Ultra-Low Threshold from Pinhole-Free Perovskite Films

Yin Liang et al.

Summary: A solvent recrystallization strategy was proposed to reduce the number of pinholes in perovskite films, resulting in amplified spontaneous green emissions with a low threshold and high net modal gain. The reduced threshold is attributed to low propagation loss and suppressed Auger recombination, which are achieved by forming a pinhole-free surface and enlarging grain size.

ADVANCED FUNCTIONAL MATERIALS (2021)

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Article Chemistry, Multidisciplinary

Passivation of the Buried Interface via Preferential Crystallization of 2D Perovskite on Metal Oxide Transport Layers

Bin Chen et al.

Summary: By utilizing 2D perovskite post-treatments and passivation layers with organic cations, significant enhancements in performance of perovskite solar cells are observed, including increased open-circuit voltage and reduced surface recombination velocity.

ADVANCED MATERIALS (2021)

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Article Chemistry, Multidisciplinary

Synergistic Effects of Eu-MOF on Perovskite Solar Cells with Improved Stability

Jie Dou et al.

Summary: The introduction of an ultrathin Eu-MOF layer in perovskite solar cells has been shown to enhance device stability and light utilization by reducing defect concentration, improving carrier transport, and utilizing the Forster resonance energy transfer effect. This leads to a champion power conversion efficiency of 22.16% and excellent device stability, with 96% of original PCE retained after 2000 hours under 30% relative humidity and 91% retained after 1200 hours at 85 degrees C in N-2 environment.

ADVANCED MATERIALS (2021)

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Review Chemistry, Multidisciplinary

Recent Progress on Perovskite Surfaces and Interfaces in Optoelectronic Devices

Deying Luo et al.

Summary: The focus of the research is on discussing surface and interface engineering to reduce deep-level defects, and by selecting appropriate materials and processing methods to enhance the device performance of both solar cells and light-emitting diodes.

ADVANCED MATERIALS (2021)

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Review Chemistry, Multidisciplinary

Interfaces and Interfacial Layers in Inorganic Perovskite Solar Cells

Wanchun Xiang et al.

Summary: Metal halide inorganic perovskite materials are of interest for photovoltaic applications due to their superior thermal stability. Solar cells based on inorganic perovskites have achieved a PCE over 20%, with more room for improvement compared to organic-inorganic hybrid perovskite solar cells. Interfaces play a crucial role in limiting the photovoltage and charge extraction efficiency in inorganic perovskite solar cells.

ANGEWANDTE CHEMIE-INTERNATIONAL EDITION (2021)

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Article Multidisciplinary Sciences

Stabilizing perovskite-substrate interfaces for high-performance perovskite modules

Shangshang Chen et al.

Summary: The study found that DMSO liquid additive trapped in perovskite-substrate interfaces during film formation led to voids, accelerating film degradation. Partial replacement of DMSO with solid-state carbohydrazide reduced interfacial voids and increased stability. Blade-coated p-i-n structure PSCs achieved a maximum PCE of 23.6% without efficiency loss after stability tests, demonstrating improved efficiency and stability with the new approach.

SCIENCE (2021)

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Article Multidisciplinary Sciences

Determination of X-ray detection limit and applications in perovskite X-ray detectors

Lei Pan et al.

Summary: In this study, a new statistical model is proposed to determine the detection limit of X-ray detectors by measuring dark current and photocurrent. The authors found that in addition to material quality, device architecture and working mode also have a significant influence on sensitivity and detection limit.

NATURE COMMUNICATIONS (2021)

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Article Chemistry, Physical

Effect of Chemical Bonding Nature of Post-Treatment Materials on Photovoltaic Performance of Perovskite Solar Cells

Jeong-Hyeon Kim et al.

Summary: Increasing PyI concentration enhances photovoltaic performance, while PpI is optimized at 5mM. PyI treatment forms a beneficial PyI layer for hole extraction, while PpI treatment forms an insulating PpPbI(3) that blocks charge separation.

ACS ENERGY LETTERS (2021)

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Editorial Material Energy & Fuels

Get tougher

Efrain Ochoa-Martinez et al.

Summary: By incorporating interfacial self-assembled monolayers, researchers have successfully increased adhesion toughness between the perovskite and charge-transport layers in perovskite solar cells, thus enhancing device stability.

NATURE ENERGY (2021)

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Article Chemistry, Physical

Charge transfer rates and electron trapping at buried interfaces of perovskite solar cells

Igal Levine et al.

Summary: Identification of electronic processes at buried interfaces of charge selective contacts is crucial for photovoltaic and photocatalysis research. Transient surface photovoltage and photoluminescence provide complementary information on charge transfer kinetics and trapping/de-trapping mechanisms. Hole transfer rates and interface trap densities can be influenced by the chemical structure of SAMs, and high densities of interface traps can lead to significant losses in solar cells.

JOULE (2021)

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Article Energy & Fuels

Multifunctional Molecule Engineered SnO2 for Perovskite Solar Cells with High Efficiency and Reduced Lead Leakage

Jiali Zhang et al.

Summary: By mixing amino trimethylene phosphonic acid and KOH, the performance of the electron transport layer in perovskite solar cells has been significantly improved, leading to a higher power conversion efficiency. The modified cells also show better efficiency and stability in perovskite/silicon heterojunction tandem solar cells.

SOLAR RRL (2021)

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Article Chemistry, Multidisciplinary

Depth-dependent defect manipulation in perovskites for high-performance solar cells

Yuzhuo Zhang et al.

Summary: A depth-dependent manipulation strategy is demonstrated to concurrently modulate the bulk and interfacial defects in perovskite films, resulting in improved efficiency of PSCs. This strategy provides new insights into spatial defect modulation and may open up promising ways for defect modulator design for highly efficient perovskite optoelectronic devices.

ENERGY & ENVIRONMENTAL SCIENCE (2021)

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Article Chemistry, Multidisciplinary

Nanoscale interfacial engineering enables highly stable and efficient perovskite photovoltaics

Anurag Krishna et al.

Summary: A molecular-level interface engineering strategy using a multifunctional ligand 2,5-thiophenedicarboxylic acid is presented to enhance the long-term operational and thermal stability of perovskite solar cells (PSCs). The solar cells achieved high operational stability and stabilized power conversion efficiency over 23% after prolonged testing, with insights into the modulation of grain boundaries, local density of states, surface bandgap, and interfacial recombination. Chemical analysis revealed that molecular passivation suppresses interfacial ion diffusion and inhibits irreversible degradation of perovskite, suggesting potential for expedited development of stable PSCs.

ENERGY & ENVIRONMENTAL SCIENCE (2021)

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Review Chemistry, Physical

Understanding Molecular Structures of Buried Interfaces in Halide Perovskite Photovoltaic Devices Nondestructively with Sub-Monolayer Sensitivity Using Sum Frequency Generation Vibrational Spectroscopy

Minyu Xiao et al.

ADVANCED ENERGY MATERIALS (2020)

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Review Nanoscience & Nanotechnology

Minimizing non-radiative recombination losses in perovskite solar cells

Deying Luo et al.

NATURE REVIEWS MATERIALS (2020)

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Article Chemistry, Multidisciplinary

Coordinated Optical Matching of a Texture Interface Made from Demixing Blended Polymers for High-Performance Inverted Perovskite Solar Cells

Cun Yun Xu et al.

ACS NANO (2020)

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Article Chemistry, Multidisciplinary

Perfluorinated Self-Assembled Monolayers Enhance the Stability and Efficiency of Inverted Perovskite Solar Cells

Christian M. Wolff et al.

ACS NANO (2020)

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Article Chemistry, Multidisciplinary

Red-Carbon-Quantum-Dot-Doped SnO2 Composite with Enhanced Electron Mobility for Efficient and Stable Perovskite Solar Cells

Wei Hui et al.

ADVANCED MATERIALS (2020)

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Article Chemistry, Multidisciplinary

Improved Carrier Collection and Hot Electron Extraction Across Perovskite, C60, and TiO2 Interfaces

Jesus Jimenez-Lopez et al.

JOURNAL OF THE AMERICAN CHEMICAL SOCIETY (2020)

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Article Chemistry, Physical

Simultaneous Contact and Grain-Boundary Passivation in Planar Perovskite Solar Cells Using SnO2-KCl Composite Electron Transport Layer

Pengchen Zhu et al.

ADVANCED ENERGY MATERIALS (2020)

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Article Chemistry, Physical

Control over Crystal Size in Vapor Deposited Metal-Halide Perovskite Films

Kilian B. Lohmann et al.

ACS ENERGY LETTERS (2020)

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Article Energy & Fuels

Managing grains and interfaces via ligand anchoring enables 22.3%-efficiency inverted perovskite solar cells

Xiaopeng Zheng et al.

NATURE ENERGY (2020)

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Article Chemistry, Multidisciplinary

Synergistic Cascade Carrier Extraction via Dual Interfacial Positioning of Ambipolar Black Phosphorene for High-Efficiency Perovskite Solar Cells

Meng Zhang et al.

ADVANCED MATERIALS (2020)

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Article Chemistry, Multidisciplinary

Graphdiyne: Bridging SnO2 and Perovskite in Planar Solar Cells

Suicai Zhang et al.

ANGEWANDTE CHEMIE-INTERNATIONAL EDITION (2020)

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Article Multidisciplinary Sciences

Resolving spatial and energetic distributions of trap states in metal halide perovskite solar cells

Zhenyi Ni et al.

SCIENCE (2020)

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Review Materials Science, Multidisciplinary

Critical review of recent progress of flexible perovskite solar cells

Jing Zhang et al.

MATERIALS TODAY (2020)

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Article Multidisciplinary Sciences

Performance-limiting nanoscale trap clusters at grain junctions in halide perovskites

Tiarnan A. S. Doherty et al.

NATURE (2020)

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Article Chemistry, Multidisciplinary

Dual Interfacial Modification Engineering with 2D MXene Quantum Dots and Copper Sulphide Nanocrystals Enabled High-Performance Perovskite Solar Cells

Xu Chen et al.

ADVANCED FUNCTIONAL MATERIALS (2020)

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Article Chemistry, Multidisciplinary

Perovskite Films with Reduced Interfacial Strains via a Molecular-Level Flexible Interlayer for Photovoltaic Application

Cong-Cong Zhang et al.

ADVANCED MATERIALS (2020)

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Article Chemistry, Physical

Bifunctional Surface Engineering on SnO2 Reduces Energy Loss in Perovskite Solar Cells

Eui Hyuk Jung et al.

ACS ENERGY LETTERS (2020)

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Article Energy & Fuels

A holistic approach to interface stabilization for efficient perovskite solar modules with over 2,000-hour operational stability

Zonghao Liu et al.

NATURE ENERGY (2020)

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Article Chemistry, Physical

Overcoming Redox Reactions at Perovskite-Nickel Oxide Interfaces to Boost Voltages in Perovskite Solar Cells

Caleb C. Boyd et al.

JOULE (2020)

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Article Chemistry, Multidisciplinary

Multifunctional Polymer-Regulated SnO2Nanocrystals Enhance Interface Contact for Efficient and Stable Planar Perovskite Solar Cells

Shuai You et al.

ADVANCED MATERIALS (2020)

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Review Chemistry, Multidisciplinary

Interfacial Dipole in Organic and Perovskite Solar Cells

Qi Chen et al.

JOURNAL OF THE AMERICAN CHEMICAL SOCIETY (2020)

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Article Multidisciplinary Sciences

Impact of strain relaxation on performance of α-formamidinium lead iodide perovskite solar cells

Gwisu Kim et al.

SCIENCE (2020)

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Review Chemistry, Physical

Self-Assembled Monolayers as Interface Engineering Nanomaterials in Perovskite Solar Cells

Seo Yeon Kim et al.

ADVANCED ENERGY MATERIALS (2020)

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Article Chemistry, Physical

Outstanding Passivation Effect by a Mixed-Salt Interlayer with Internal Interactions in Perovskite Solar Cells

Bowen Yang et al.

ACS ENERGY LETTERS (2020)

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Article Chemistry, Physical

Triple Interface Passivation Strategy-Enabled Efficient and Stable Inverted Perovskite Solar Cells

Zhi-Wen Gao et al.

SMALL METHODS (2020)

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Article Chemistry, Multidisciplinary

Regulating Surface Termination for Efficient Inverted Perovskite Solar Cells with Greater Than 23% Efficiency

Fengzhu Li et al.

JOURNAL OF THE AMERICAN CHEMICAL SOCIETY (2020)

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Article Chemistry, Multidisciplinary

Electron-enriched thione enables strong Pb-S interaction for stabilizing high quality CsPbI3 perovskite films with low-temperature processing

Xiaojia Xu et al.

CHEMICAL SCIENCE (2020)

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Article Materials Science, Multidisciplinary

Interface modification of sputtered NiOx as the hole-transporting layer for efficient inverted planar perovskite solar cells

Xiaolu Zheng et al.

JOURNAL OF MATERIALS CHEMISTRY C (2020)

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Review Chemistry, Multidisciplinary

Halide Perovskites: Is It All about the Interfaces?

Philip Schulz et al.

CHEMICAL REVIEWS (2019)

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Review Chemistry, Multidisciplinary

Halide Perovskite Photovoltaics: Background, Status, and Future Prospects

Ajay Kumar Jena et al.

CHEMICAL REVIEWS (2019)

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Article Multidisciplinary Sciences

Efficient metal halide perovskite light-emitting diodes with significantly improved light extraction on nanophotonic substrates

Qianpeng Zhang et al.

NATURE COMMUNICATIONS (2019)

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Article Multidisciplinary Sciences

Strain engineering in perovskite solar cells and its impacts on carrier dynamics

Cheng Zhu et al.

NATURE COMMUNICATIONS (2019)

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Article Chemistry, Physical

Alkali Chlorides for the Suppression of the Interfacial Recombination in Inverted Planar Perovskite Solar Cells

Wei Chen et al.

ADVANCED ENERGY MATERIALS (2019)

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Article Chemistry, Physical

Dopamine-crosslinked TiO2/perovskite layer for efficient and photostable perovskite solar cells under full spectral continuous illumination

Yiqiang Zhang et al.

NANO ENERGY (2019)

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Article Chemistry, Multidisciplinary

Dual Interfacial Design for Efficient CsPbI2Br Perovskite Solar Cells with Improved Photostability

Jingjing Tian et al.

ADVANCED MATERIALS (2019)

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Article Chemistry, Multidisciplinary

Solution-Phase Epitaxial Growth of Perovskite Films on 2D Material Flakes for High-Performance Solar Cells

Guanqi Tang et al.

ADVANCED MATERIALS (2019)

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Article Optics

Surface passivation of perovskite film for efficient solar cells

Qi Jiang et al.

NATURE PHOTONICS (2019)

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Article Chemistry, Multidisciplinary

FAPbI3 Flexible Solar Cells with a Record Efficiency of 19.38% Fabricated in Air via Ligand and Additive Synergetic Process

Cuncun Wu et al.

ADVANCED FUNCTIONAL MATERIALS (2019)

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Article Chemistry, Multidisciplinary

Overcoming Zinc Oxide Interface Instability with a Methylammonium-Free Perovskite for High-Performance Solar Cells

Kelly Schutt et al.

ADVANCED FUNCTIONAL MATERIALS (2019)

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Article Chemistry, Multidisciplinary

Water-Resistant and Flexible Perovskite Solar Cells via a Glued Interfacial Layer

Zengqi Huang et al.

ADVANCED FUNCTIONAL MATERIALS (2019)

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Article Chemistry, Multidisciplinary

Polarized Ferroelectric Polymers for High-Performance Perovskite Solar Cells

Cong-Cong Zhang et al.

ADVANCED MATERIALS (2019)

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