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Journal articles on the topic 'Perovskite-inspired materials'

Author: Grafiati
Published: 5 June 2025
Last updated: 1 August 2025

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1

Lee, Lana C., Tahmida N. Huq, Judith L. MacManus-Driscoll, and Robert L. Z. Hoye. "Research Update: Bismuth-based perovskite-inspired photovoltaic materials." APL Materials 6, no. 8 (2018): 084502. http://dx.doi.org/10.1063/1.5029484.

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2

Ünlü, Feray, Meenal Deo, Sanjay Mathur, Thomas Kirchartz, and Ashish Kulkarni. "Bismuth-based halide perovskite and perovskite-inspired light absorbing materials for photovoltaics." Journal of Physics D: Applied Physics 55, no. 11 (2021): 113002. http://dx.doi.org/10.1088/1361-6463/ac3033.

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Abstract The efficiency of organic-inorganic hybrid lead halide perovskite solar cells (PSCs) has increased over 25% within a frame of ten years, which is phenomenal and indicative of the promising potential of perovskite materials in impacting the next generation solar cells. Despite high technology readiness of PSCs, the presence of lead has raised concerns about the adverse effect of lead on human health and the environment that may slow down or inhibit the commercialization of PSCs. Thus, there is a dire need to identify materials with lower toxicity profile and comparable optoelectronic p
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3

Ünlü, Feray, Ashish Kulkarni, Khan Lê, et al. "Single- or double A-site cations in A3Bi2I9 bismuth perovskites: What is the suitable choice?" Journal of Materials Research 36, no. 9 (2021): 1794–804. http://dx.doi.org/10.1557/s43578-021-00155-z.

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Abstract Investigations on the effect of single or double A-site cation engineering on the photovoltaic performance of bismuth perovskite-inspired materials (A3Bi2I9) are rare. Herein, we report novel single- and double-cation based bismuth perovskite-inspired materials developed by (1) completely replacing CH3NH3+ (methylammonium, MA+) in MA3Bi2I9 with various organic cations such as CH(NH2)2+ (formamidinium, FA+), (CH3)2NH2+ (dimethylammonium, DMA+), C(NH2)3+ (guanidinium, GA+) and inorganic cations such as cesium (Cs+), rubidium (Rb+), potassium (K+), sodium (Na+) and lithium (Li+) and (2)
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4

Hoye, Robert L. Z., Philip Schulz, Laura T. Schelhas, et al. "Perovskite-Inspired Photovoltaic Materials: Toward Best Practices in Materials Characterization and Calculations." Chemistry of Materials 29, no. 5 (2017): 1964–88. http://dx.doi.org/10.1021/acs.chemmater.6b03852.

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5

Glück, Nadja, and Thomas Bein. "Prospects of lead-free perovskite-inspired materials for photovoltaic applications." Energy & Environmental Science 13, no. 12 (2020): 4691–716. http://dx.doi.org/10.1039/d0ee01651a.

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6

Fang, Hong, and Puru Jena. "Super-ion inspired colorful hybrid perovskite solar cells." Journal of Materials Chemistry A 4, no. 13 (2016): 4728–37. http://dx.doi.org/10.1039/c5ta09646d.

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Hybrid perovskites viewed as super alkali halides with alkali and halogen ions replaced by super alkalis and super halogens, respectively. The basic properties of these materials are determined by the bonding ionicity and effective ionic radii of the super-ions. New colorful hybrid perovskites can be invented with super-ions as the building block.
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7

Chacón-García, Antonio J., Baldovi Herme G, Mike Pols, et al. "Improving the Water Resistance of Bi-Based Perovskite-Inspired Materials for Vapor-Phase Photocatalytic Overall Water Splitting." Solar RRL 8, no. 14 (2024): 2400250. https://doi.org/10.1002/solr.202400250.

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Lead halide perovskites are well known for their exceptional photophysical and electronic properties, which have placed them at the forefront of challenging optoelectronic applications and solar-to-fuel conversion. However, their air/water instability, combined with their toxicity, is still a critical problem that has slowed down their commercialization. In this sense, bismuth-based halide derivatives attract much interest as a potentially safer, air-stable alternative. Herein, a novel Bi-based perovskite-inspired material, IEF-19 (IEF stands for IMDEA Energy Framework), which contains a bulky
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8

Gao, Zhan, Xinyu Zhang, Junsheng Yu, and Xinge Yu. "Bio-inspired materials as interfacial layers for high performance perovskite photodetectors." Optical Materials Express 9, no. 10 (2019): 3968. http://dx.doi.org/10.1364/ome.9.003968.

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9

Zhan, Yan, Qunfeng Cheng, Jingsong Peng, et al. "Nacre inspired robust self-encapsulating flexible perovskite photodetector." Nano Energy 98 (July 2022): 107254. http://dx.doi.org/10.1016/j.nanoen.2022.107254.

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10

Qi, Jiabin, Linpeng Li, Hao Xiong, et al. "Highly efficient walking perovskite solar cells based on thermomechanical polymer films." Journal of Materials Chemistry A 7, no. 45 (2019): 26154–61. http://dx.doi.org/10.1039/c9ta09336b.

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11

Chin, Seokhyun. "Graph Neural Network Based Macroscale AI Model for Perovskite Solar Cell Power Conversion Efficiency Prediction." European Journal of Energy Research 5, no. 3 (2025): 7–14. https://doi.org/10.24018/ejenergy.2025.5.3.154.

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Perovskite solar cells have emerged as an alternative to traditional solar cells to solve the problem of low cost-effectiveness. Perovskites, being very flexible to produce, are difficult to test for every type. Therefore, a model that predicts the performance of perovskite solar cells is imperative for further development of these materials. In this study, we create a graph-neural network-inspired artificial intelligence model that can predict the power conversion efficiency of a perovskite solar cell based on the components of the perovskite solar cells. The data was retrieved from the Perov
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12

Sun, Shijing, Noor T. P. Hartono, Zekun D. Ren, et al. "Accelerated Development of Perovskite-Inspired Materials via High-Throughput Synthesis and Machine-Learning Diagnosis." Joule 3, no. 6 (2019): 1437–51. http://dx.doi.org/10.1016/j.joule.2019.05.014.

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13

Kim, Dongyeon, Seungsoo Jang, Seeun Oh та Kang Taek Lee. "Bimetal-Doped BaCoO3-δ Materials As Oxygen Electrodes for High-Performance Protonic Ceramic Electrochemical Cells". ECS Meeting Abstracts MA2022-02, № 47 (2022): 1789. http://dx.doi.org/10.1149/ma2022-02471789mtgabs.

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Protonic ceramic electrochemical cells (PCECs) have received considerable attention owing to their ability to reversibly convert chemical fuels into electricity and vice versa on demand at low temperatures below 600 °C. Unfortunately, the sluggish kinetics at the oxygen electrode induces the poor reaction activity and stability of cells. Hence, the development of a highly active oxygen electrode is greatly needed for the realization of high-performance PCECs. One effective strategy is to bimetal doping high-valence cations in the SrCoO3- 𝛿 lattice to improve the oxygen permeability and stabili
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14

Reddy, Sathy Harshavardhan, Ranadeep Raj Sumukam, and Banavoth Murali. "Can perovskite inspired bismuth halide nanocrystals outperform their lead counterparts?" Journal of Materials Chemistry A 8, no. 26 (2020): 12951–63. http://dx.doi.org/10.1039/d0ta03490h.

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In the quest for finding non-toxic and stable lead-free perovskite nanocrystals (NCs), bismuth halide perovskites (BHP) have emerged as a promising alternative. This perspective presents an overview, challenges, and future opportunities in BHP NCs.
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15

Maziviero, Fernando Velcic, Dulce M. A. Melo, Rodolfo L. B. A. Medeiros, et al. "Advancements and Prospects in Perovskite Solar Cells: From Hybrid to All-Inorganic Materials." Nanomaterials 14, no. 4 (2024): 332. http://dx.doi.org/10.3390/nano14040332.

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Hybrid perovskites, materials composed of metals and organic substances in their structure, have emerged as potential materials for the new generation of photovoltaic cells due to a unique combination of optical, excitonic and electrical properties. Inspired by sensitization techniques on TiO2 substrates (DSSC), CH3NH3PbBr3 and CH3NH3PbI3 perovskites were studied as a light-absorbing layer as well as an electron–hole pair generator. Photovoltaic cells based on per-ovskites have electron and hole transport layers (ETL and HTL, respectively), separated by an ac-tive layer composed of perovskite
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16

Voskanyan, Albert A., and Alexandra Navrotsky. "Shear Pleasure: The Structure, Formation, and Thermodynamics of Crystallographic Shear Phases." Annual Review of Materials Research 51, no. 1 (2021): 521–40. http://dx.doi.org/10.1146/annurev-matsci-070720-013445.

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A renaissance of interest in crystallographic shear structures and our recent work in this remarkable class of materials inspired this review. We first summarize the geometrical aspects of shear plane formation and possible transformations in ReO3, rutile, and perovskite-based structures. Then we provide a mechanistic overview of crystallographic shear formation, plane ordering, and propagation. Next we describe the energetics of planar defect formation and interaction, equilibria between point and extended defect structures, and thermodynamic stability of shear compounds. Finally, we emphasiz
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17

Huang, Yi-Teng, Seán R. Kavanagh, David O. Scanlon, Aron Walsh, and Robert L. Z. Hoye. "Corrigendum: Perovskite-inspired materials for photovoltaics and beyond—from design to devices (2021 Nanotechnology 32 132004)." Nanotechnology 32, no. 37 (2021): 379501. http://dx.doi.org/10.1088/1361-6528/ac074b.

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18

Zhan, Yan, Jingsong Peng, Can Cao, and Qunfeng Cheng. "A biomineralization-inspired strategy of self-encapsulation for perovskite solar cells." Nano Energy 101 (October 2022): 107575. http://dx.doi.org/10.1016/j.nanoen.2022.107575.

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19

Lee, Kyuho, Hyowon Han, Youngwoo Kim, et al. "Retina‐Inspired Structurally Tunable Synaptic Perovskite Nanocones (Adv. Funct. Mater. 52/2021)." Advanced Functional Materials 31, no. 52 (2021): 2170382. http://dx.doi.org/10.1002/adfm.202170382.

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20

Samuel, Shilpa Mariam, Sadasivan Shaji, David Avellaneda Avellaneda, and Bindu Krishnan. "Chalcogenide perovskites: enticing prospects across a wide range of compositions and optoelectronic properties for stable photodetector devices." Nano Express 6, no. 1 (2025): 015002. https://doi.org/10.1088/2632-959x/ad9b40.

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Abstract Photodetectors are indispensable components of many modern light sensing and imaging devices, converting photon energy into processable electrical signal through absorption, carrier generation and extraction using semiconducting thin films with appropriate optoelectronic properties. Recently, metal halide perovskites have demonstrated groundbreaking photodetector performance due to their exceptional properties originating from their perovskite structure. However, toxicity and stability remain challenges for their large-scale applications. Inspired by the perovskite structure, intense
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21

Mei, Jianjun, Maning Liu, Paola Vivo, and Vincenzo Pecunia. "Two‐Dimensional Antimony‐Based Perovskite‐Inspired Materials for High‐Performance Self‐Powered Photodetectors (Adv. Funct. Mater. 50/2021)." Advanced Functional Materials 31, no. 50 (2021): 2170373. http://dx.doi.org/10.1002/adfm.202170373.

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22

Park, Jongyeop, G. Murali, Binhee Kwon, et al. "Mussel‐Inspired Polymer Grafting on CsPbBr 3 Perovskite Quantum Dots Enhancing the Environmental Stability." Particle & Particle Systems Characterization 36, no. 12 (2019): 1900332. http://dx.doi.org/10.1002/ppsc.201900332.

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23

Xu, Zhongwei, Chaoxing Wu, Yangbin Zhu, et al. "Bio-inspired smart electronic-skin based on inorganic perovskite nanoplates for application in photomemories and mechanoreceptors." Nanoscale 13, no. 1 (2021): 253–60. http://dx.doi.org/10.1039/d0nr06550a.

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24

Zhang, Teng, Baohua Zhao, Zhi Li, et al. "Inspired from Spiro-OMeTAD: developing ambipolar spirobifluorene derivatives as effective passivation molecules for perovskite solar cells." Journal of Materials Chemistry C 10, no. 4 (2022): 1357–64. http://dx.doi.org/10.1039/d1tc04925a.

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25

Ustinova, Marina I., Sergey D. Babenko, Sergey Yu Luchkin, et al. "Experimental evaluation of indium(i) iodide as a lead-free perovskite-inspired material for photovoltaic applications." Journal of Materials Chemistry C 10, no. 9 (2022): 3435–39. http://dx.doi.org/10.1039/d1tc05583f.

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Low structural dimensionality and the anisotropy of carrier transport in In I films are the main reasons why they show modest performances in solar cells (PCE = 1%) but demonstrate high photodetectivity (>103) in lateral photodetectors.
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26

Chi, Wenhao, Yuexu Zhu, Zhengyi Fu, and Jingjing Xie. "Bioprocess-inspired Fabrication of Lead Iodide Coexisting with Crystalline Nanosheet and Amorphous Nanorod for Perovskite Solar Cells." Journal of Wuhan University of Technology-Mater. Sci. Ed. 36, no. 3 (2021): 358–63. http://dx.doi.org/10.1007/s11595-021-2417-7.

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27

Peng, Yueheng, Tahmida N. Huq, Jianjun Mei, et al. "Indoor Photovoltaics: Lead‐Free Perovskite‐Inspired Absorbers for Indoor Photovoltaics (Adv. Energy Mater. 1/2021)." Advanced Energy Materials 11, no. 1 (2021): 2170005. http://dx.doi.org/10.1002/aenm.202170005.

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28

Qi, Jiabin, Hao Xiong, Chengyi Hou, Qinghong Zhang, Yaogang Li, and Hongzhi Wang. "A kirigami-inspired island-chain design for wearable moistureproof perovskite solar cells with high stretchability and performance stability." Nanoscale 12, no. 6 (2020): 3646–56. http://dx.doi.org/10.1039/c9nr10691j.

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29

Hoye, Robert. "Perovskite-Inspired Materials for Energy Applications." Nanotechnology, June 25, 2023. http://dx.doi.org/10.1088/1361-6528/ace171.

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Abstract Lead-halide perovskites have come to dominate the emerging photovoltaics research scene over the past decade. But whilst perovskite photovoltaics exhibit exceptional efficiencies, their limited stability, as well as the toxicity of their lead component remain challenges. This Focus Collection captures a snapshot of the efforts in the community to address these challenges, from modifications to the synthesis and device structure of perovskite photovoltaics to improve their stability, through to efforts to understand, develop, and improve lead-free perovskite-inspired materials (PIMs).
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30

Kazim, Samrana, M. P. U. Haris, and Shahzada Ahmad. "Peptide‐Perovskite Based Bio‐Inspired Materials for Optoelectronics Applications." Advanced Science, January 28, 2025. https://doi.org/10.1002/advs.202408919.

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AbstractThe growing demand for environmentally friendly semiconductors that can be tailored and developed easily is compelling researchers and technologists to design inherently bio‐compatible, self‐assembling nanostructures with tunable semiconducting characteristics. Peptide‐based bioinspired materials exhibit a variety of supramolecular morphologies and have the potential to function as organic semiconductors. Such biologically or naturally derived peptides with intrinsic semiconducting characteristics create new opportunities for sustainable biomolecule‐based optoelectronics devices. Affab
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31

Park, Dong‐Am, and Nam‐Gyu Park. "Perovskite‐Inspired Materials (PIMs): Exploring Their Potential for Photovoltaic Applications." SusMat, May 15, 2025. https://doi.org/10.1002/sus2.70018.

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ABSTRACTPerovskite‐inspired materials (PIMs) have been investigated as alternatives to organic lead halide perovskites in order to explore novel lead‐free materials for photovoltaics. This review describes the structural and optoelectronic properties of PIMs including double perovskites, chalcohalides, rudorffites, bismuth halides, and defect‐ordered A3B2X9. Efforts have been recently made to overcome high carrier effective mass, non‐radiative recombination, and large bandgaps of PIMs, limiting the photovoltaic performance of PIM‐based solar cells. By analyzing the basis for the inferior perfo
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32

Huang, Ling, Qifei Ying, Tingwei Hua, et al. "Synthesis and Optical Properties of CsCu2Br3-Cu0 Nanoheterojunctions." Journal of Materials Chemistry C, 2022. http://dx.doi.org/10.1039/d2tc03214g.

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The purposely fabricated heterojunctions have proved to be able to bring novel functionalities and improved performance for advanced materials. Herein, inspired by the excellent absorption of halide perovskite materials, we...
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33

Singh, Mohit, Akash, and J. P. Tiwari. "Solar Cells Based on Pb-Free and Perovskite-Inspired Materials: Futuristic of Perovskite Solar Cells." ACS Applied Energy Materials, November 11, 2024. http://dx.doi.org/10.1021/acsaem.4c02047.

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34

Huang, Yi-Teng, Seán R. Kavanagh, David O. Scanlon, Aron Walsh, and Robert Hoye. "Perovskite-Inspired Materials for Photovoltaics and Beyond – From Design to Devices." Nanotechnology, December 1, 2020. http://dx.doi.org/10.1088/1361-6528/abcf6d.

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35

Kahmann, Simon. "Pathways, Probes, and Puzzles of Broadband Luminescence in “Perovskite-Inspired” Materials." ACS Materials Letters, April 2, 2025, 1732–36. https://doi.org/10.1021/acsmaterialslett.5c00274.

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36

Nandishwara, Kshithij Mysore, Shuan Cheng, Pengjun Liu, et al. "Data-driven microstructural optimization of Ag-Bi-I perovskite-inspired materials." npj Computational Materials 11, no. 1 (2025). https://doi.org/10.1038/s41524-025-01701-7.

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Abstract Microstructural design is crucial yet challenging for thin-film semiconductors, creating barriers for new materials to achieve practical applications in photovoltaics and optoelectronics. We present the Daisy Visual Intelligence Framework (Daisy), which combines multiple AI models to learn from historical microscopic images and propose new synthesis conditions towards desirable microstructures. Daisy consists of an image interpreter to extract grain and defect statistics, and a reinforcement-learning-driven synthesis planner to optimize thin-film morphology. Using Ag-Bi-I perovskite-i
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37

Han, Jiye, Ying Tian, and Il Jeon. "Natural and Nature‐Inspired Biomaterial Additives for Metal Halide Perovskite Optoelectronics." Advanced Materials, November 10, 2024. http://dx.doi.org/10.1002/adma.202410327.

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AbstractThis comprehensive review meticulously categorizes and discusses the applications of diverse biomaterials, specifically natural and nature‐inspired synthetic materials in metal halide perovskite optoelectronics. Applications range from solar cells to light‐emitting diodes, photodetectors, and X‐ray detectors. Emphasis is placed on the intricate interactions between bio‐additives and perovskite crystals, highlighting their influence on the grain size, crystal orientation, grain boundaries, and surface passivation. This review also explores the advantages and disadvantages of each natura
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38

Liu, Yujin, Zhong Ji, Guobiao Cen, et al. "Perovskite-based color camera inspired by human visual cells." Light: Science & Applications 12, no. 1 (2023). http://dx.doi.org/10.1038/s41377-023-01072-y.

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AbstractThere are two primary types of photoreceptor cells in the human eye: cone cells and rod cells that enable color vision and night vision, respectively. Herein, inspired by the function of human visual cells, we develop a high-resolution perovskite-based color camera using a set of narrowband red, green, blue, and broadband white perovskite photodetectors as imaging sensors. The narrowband red, green, and blue perovskite photodetectors with color perceptions mimic long-, medium-, and short-wavelength cones cells to achieve color imaging ability. Also, the broadband white perovskite photo
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39

Lamminen, Noora, Joshua Karlsson, Ramesh Kumar, et al. "The Promise of Operational Stability in Pnictogen-Based Perovskite-Inspired Solar Cells." EES Solar, 2025. https://doi.org/10.1039/d5el00029g.

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Perovskite-inspired materials (PIMs) are gaining increasing attention among emerging photovoltaic absorbers due to their inherent air stability and low-toxicity potential. However, operational stability, the Achille’s heel of all emerging photovoltaics,...
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Singh, Kuntal, Mozakkar Hossain, Pabitra Kumar Nayak, et al. "Benign Mid-Gap Halide Vacancy States in 2D Bismuth-Based Halide Perovskite Microcrystals for Enhanced Broadband Photodetectors." Materials Horizons, 2025. https://doi.org/10.1039/d4mh01532k.

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Lead halide perovskites are widely recognized for their exceptional defect tolerance, setting the benchmark for high-performance optoelectronic applications. Conversely, low-toxicity perovskite-inspired materials (PIMs) typically exhibit suboptimal optoelectronic performance, primarily due...
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Lee, Kyuho, Hyowon Han, Youngwoo Kim, et al. "Retina‐Inspired Structurally Tunable Synaptic Perovskite Nanocones." Advanced Functional Materials, August 7, 2021, 2105596. http://dx.doi.org/10.1002/adfm.202105596.

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42

Guo, Yixin, Fei Zhao, Peizhi Yang, et al. "DMAI-drived all-inorganic antimony-based perovskite-inspired solar cells with record open-circuit voltage." Journal of Materials Chemistry A, 2023. http://dx.doi.org/10.1039/d2ta07971b.

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The emergence of all-inorganic antimony (Sb)-based perovskite-inspired solar cells (PISCs) attracts much attention due to their good stability and non-toxicity compared with lead (Pb)-based perovskite solar cells (PSCs). However, it...
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43

Grandhi, G. Krishnamurthy, David Hardy, Mokurala Krishnaiah, et al. "Wide‐Bandgap Perovskite‐Inspired Materials: Defect‐Driven Challenges for High‐Performance Optoelectronics." Advanced Functional Materials, October 2, 2023. http://dx.doi.org/10.1002/adfm.202307441.

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AbstractThe remarkable success of lead halide perovskites (LHPs) in photovoltaics and other optoelectronics is significantly linked to their defect tolerance, although this correlation remains not fully clear. The tendency of LHPs to decompose into toxic lead‐containing compounds in the presence of humid air calls for the need of low‐toxicity LHP alternatives comprising of cations with stable oxidation states. To this aim, a plethora of low‐dimensional and wide‐bandgap perovskite‐inspired materials (PIMs) are proposed. Unfortunately, the optoelectronic performance of PIMs currently lags behind
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44

Schmitz, Fabian, Ribhu Bhatia, Francesco Lamberti, Simone Meloni, and Teresa Gatti. "Heavy pnictogens-based perovskite-inspired materials: Sustainable light-harvesters for indoor photovoltaics." APL Energy 1, no. 2 (2023). http://dx.doi.org/10.1063/5.0161023.

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The need for self-powered electronics is progressively growing in parallel with the flourishing of the Internet of Things (IoT). Although batteries are dominating as powering devices, other small systems, such as piezoelectric, thermoelectric, and photovoltaic systems, are attracting attention. These last ones can be adapted from their classical outdoor configuration to work preferentially under indoor illumination, i.e., by harvesting the spectrum emitted by LEDs and/or fluorescent lamps. However, crystalline silicon, the classical photovoltaic material for solar panels, has a bandgap not sui
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45

Peng, Yueheng, Tahmida N. Huq, Jianjun Mei, et al. "Lead‐Free Perovskite‐Inspired Absorbers for Indoor Photovoltaics." Advanced Energy Materials, November 3, 2020, 2002761. http://dx.doi.org/10.1002/aenm.202002761.

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46

Annurakshita, Shambhavee, Maning Liu, Paola Vivo, and Godofredo Bautista. "Probing compositional engineering effects on lead-free perovskite-inspired nanocrystal thin films using correlative nonlinear optical microscopy." Nanoscale, 2024. http://dx.doi.org/10.1039/d3nr05137d.

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We introduce the use of correlative third-harmonic generation and multiphoton-induced luminescence microscopy to investigate the impact of manganese (Mn) doping to bismuth (Bi)-based perovskite-inspired nanocrystal thin films. The technique was...
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47

Mercier, Nicolas, Maria Maniadi, Alla Skorokhod, et al. "Quasi 3D electronic structures of Dion-Jacobson layered perovskites with exceptional short interlayer distances." Journal of Materials Chemistry C, 2023. http://dx.doi.org/10.1039/d3tc03807f.

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In the field of perovskite solar cells (PSCs), 3D/2D heterostructures are a promising route to obtain highly efficient and stable devices. Herein, inspired by dications which have afforded rare layered...
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48

Ustinova, Marina I., Sergey D. Babenko, Sergey Yu Luchkin, et al. "Correction: Experimental evaluation of indium(i) iodide as a lead-free perovskite-inspired material for photovoltaic applications." Journal of Materials Chemistry C, 2023. http://dx.doi.org/10.1039/d3tc90021e.

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Correction for ‘Experimental evaluation of indium(i) iodide as a lead-free perovskite-inspired material for photovoltaic applications’ by Marina I. Ustinova et al., J. Mater. Chem. C, 2022, 10, 3435–3439, https://doi.org/10.1039/D1TC05583F.
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Mei, Jianjun, Maning Liu, Paola Vivo, and Vincenzo Pecunia. "Two‐Dimensional Antimony‐Based Perovskite‐Inspired Materials for High‐Performance Self‐Powered Photodetectors." Advanced Functional Materials, August 12, 2021, 2106295. http://dx.doi.org/10.1002/adfm.202106295.

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50

Vidal, Rosario, Noora Lamminen, Ville Holappa, et al. "Assessing the Environmental Impact of Pnictogen‐based Perovskite‐Inspired Materials for Indoor Photovoltaics." Advanced Energy Materials, November 17, 2024. http://dx.doi.org/10.1002/aenm.202403981.

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Abstract:
AbstractThe development of eco‐friendly indoor photovoltaics (IPVs) for Internet‐of‐Things (IoT) devices is booming. Emerging IPVs, especially those based on lead halide perovskites (LHPs), outperform the industry standard of amorphous hydrogenated silicon (a‐Si:H). However, the toxic lead in LHPs drives the search for safer alternatives. Perovskite‐inspired materials (PIMs) containing bismuth (Bi) and antimony (Sb) have shown promise, achieving indoor power conversion efficiencies (PCE) approaching 10% despite early research stages. This is promising due to their eco‐friendlier light‐harvesti
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