Materiały półprzewodnikowe i urządzenia optoelektroniczne

Zespół badawczy nr 26

Materiały półprzewodnikowe i urządzenia optoelektroniczne

Kierownik zespołu

dr hab. inż. Daniel Prochowicz, profesor Instytutu

+48 22 343 3072
dprochowicz@ichf.edu.pl

Tematyka badawcza

Tematyka badawcza zespołu koncentruje się na wytwarzaniu i badaniu właściwości fizykochemicznych laboratoryjnych ogniw słonecznych oraz fotodetektorów opartych na perowskitach halogenkowych.

Członkowie

  • Dr Silver Hamill Turren Cruz
  • Dr inż. Jan Nawrocki
  • Dr Apurba Mahapatra
  • mgr inż. Joanna Kruszyńska
  • mgr inż. Vishnu Anilkumar
  • mgr Muhammad Ans
  • mgr Jatin Yadav

Badania

  • Opracowanie metod wytwarzania cienkich filmów perowskitowych wykazujących wysoką stabilność w warunkach podwyższonej temperatury i dużej wilgotności
  • Rozwijanie metod otrzymywania wysokiej jakości warstw transportujących elektrony
  • Rozwijanie metod otrzymywania perowskitów halogenkowych w formie monokryształów
  • Wytwarzanie stabilnych i wydajnych urządzeń optoelektronicznych opartych na perowskitach halogenkowych

Publikacje

2023

A113. “Molecular engineering of azahomofullerene-based electron transporting materials for efficient and stable perovskite solar cells” R. D. Chavan, B. Bończak, J. Kruszyńska, A. Mahapatra, M. Ans, J. Nawrocki, K. Nikiforow, P. Yadav, J. Paczesny, F. Sadegh, M. Unal, S. Akin, D. Prochowicz Chem. Mater. 2023, 35, 8309−8320

A112. “Understanding the Origin and Evolution of Resistive Effects during Switching Action in MAPbBr3 Single Crystals” D. K. Purohit, S. V. Pandey, A. Kalam, S. Akin, S. Satapathi, D. Prochowicz, P. Yadav J. Phys. Chem. C 2023, 127, 18185–18191

A111. “Applications of Carbon-Based Materials for Improving the Performance and Stability of Perovskite Solar Cells” K. Patel, D. Prochowicz, S. Akin, A. Kalam, M. M. Tavakoli, P. Yadav Energy Technology 2023, 11, 2300228.

A110. “Deconvoluting the Impedance Response of Halide Perovskite Single Crystals: The Distribution of Relaxation Time Method” S. V. Pandey, N. Parikh, A. Mahapatra, A. Kalam, S. Akin, S. Satapathi, D. Prochowicz, P. Yadav, J. Phys. Chem. C. 2023, 127, 11609–11615.

A109. “Probing the Low-Frequency Response of Impedance Spectroscopy of Halide Perovskite Single Crystals Using Machine Learning” N. Parikh, S. Akin, A. Kalam, D. Prochowicz*, P. Yadav* ACS Appl. Mater. Interfaces 2023, 15, 27801−27808.

A108. “Transient Photocurrent Response in a Perovskite Single Crystal-Based Photodetector: A Case Study on the Role of Electrode Spacing and Bias” A. Mahapatra, V. Anilkumar, J. Nawrocki, S. V. Pandey, R. D. Chavan, P. Yadav, D. Prochowicz* Adv. Electron. Mater. 2023, 9, 2300226.

A107. “Design Potential and Future Prospects of Lead–free Halide Perovskites in Photovoltaic Devices” M. A. Afroz, A. Singh, R. K. Gupta, R. Garai, N. K. Tailor, Yukta, S. Choudhary, B. Sharma, P. Mahajan, B. Padha, S. Verma, S. Arya, V. Gupta, S. Akin, D. Prochowicz, M.M. Tavakoli, S. P. Singh. P. K. Iyer, P. Yadav, H. Hu, G. De and S. Satapathi J. Mater. Chem. A 2023, 11, 13133-13173.

A106. “Understanding the Origin of Light Intensity and Temperature Dependence of Photodetection Properties in a MAPbBr3 Single-Crystal-Based Photoconductor” A. Mahapatra, V. Anilkumar, R. D. Chavan, P. Yadav, D. Prochowicz ACS Photonics 2023, 10, 1424−1433.

A105. “Predicting the State Parameters of Lithium ion Batteries: The Race between Filter Based and Data Driven Approaches” S. V. Pandey, N. Parikh, D. Prochowicz, S. Akin, S. Satapathi, M. M. Tavakoli, A. Kalam, P. Yadav   Sustainable Energy Fuel 2023, 7, 598-628.

A104. “The Role of B-site Doping in All-inorganic CsPbIxBr3–x Absorbers on the Performance and Stability of Perovskite Photovoltaics” E. Akman, T. Ozturk, W. Xiang, F. Sadegh, D. Prochowicz, M. Mahdi Tavakoli, P. Yadav, M. Yilmaz, S. Akin Energy Environ. Sci. 2023, 16, 372-403.  

2022

A103. “Effect of 1,3-Disubstituted Urea Derivatives as Additives on the Efficiency and Stability of Perovskite Solar Cells” J. Kruszyńska, F. Sadegh, M. J. Patel, E. Akman, P. Yadav, M. M. Tavakoli, S. K. Gupta, P. N. Gajjar, S. Akin, D. Prochowicz ACS Appl. Energy Mater. 2022, 5, 13617–13626.

A102. “Rationalizing the Effect of Polymer-Controlled Growth of Perovskite Single Crystals on Optoelectronic Properties” N. Parikh, P. Sevak, S. J. Khanam, D. Prochowicz, S. Akin, S. Satapathi, M. M. Tavakoli, M. Banavoth, A. Kalam, P. Yadav ACS Omega 2022, 41, 36535–36542

A101. “Organic Ligand-Free ZnO Quantum Dots for Efficient and Stable Perovskite Solar Cells” R. D. Chavan, M. Wolska-Pietkiewicz, D. Prochowicz, M. Jędrzejewska, M. M. Tavakoli, P. Yadav, C. K. Hong, J. Lewiński
Adv. Funct. Mater. 2022, 32, 2205909

A100. “Facile NaF Treatment Achieves 20% Efficient ETL-Free Perovskite Solar Cells” Faranak Sadegh, Erdi Akman, Daniel Prochowicz, Mohammad Mahdi Tavakoli, Pankaj Yadav, and Seckin Akin ACS Appl. Mater. Interfaces 2022, 14, 38631–38641.

A99. "Revealing the Variation of Photodetectivity in MAPbI3 and MAPb(I0.88Br0.12)3 Single Crystal Based Photodetectors Under Electrical Poling-Induced Polarization" A. Mahapatra, R. Chavan, M. M. Tavakoli, P. Kumar, A. Kalam, D. Prochowicz, P. Yadav J. Phys. Chem. C 2022, 126, 13458–13466.

A98. “Probing the Surface and Bulk Electrical Response of MAPbBr3 Single Crystals” P. Yadav, N. Parikh, D. Prochowicz, A. Kalam, M. M. Tavakoli, S. Akin, M. Banavoth J. Phys. Chem. C 2022, 126, 12399–12404.

A97. “Interplay of Kinetic and Thermodynamic Reaction Control Explains Incorporation of Dimethylammonium Iodide into CsPbI3” A. Mishra, D. J. Kubicki, A. Boziki, R. D. Chavan, M. Dankl, M. Mladenović, D. Prochowicz, C. P. Grey, U. Rothlisberger, L. Emsley ACS Energy Lett. 2022, 7, 2745−2752.

A96. “Efficient and Less-Toxic Indium-Doped MAPbI3 Perovskite Solar Cells Prepared by Metal Alloying Technique” M. M. Tavakoli, Z. Fazel, R. Tavakoli, S. Akin, S. Satapathi, D. Prochowicz, P. Yadav Sol. RRL 2022 10.1002/solr.202200106.

A95. “Identifying Dominant Recombination Mechanisms in Spiro-based Conventional Perovskite Solar Cells: Roles of interface and bulk Recombination” N. Parikh, M. Pandey, M. Kumar, D. Prochowicz, A. Kalam, M. M. Tavakoli, S. Satapathi, P. Yadav Energy Reports, 2022, 8, 7957–7963.

A94. “Tetrahedral M4(μ4-O) motifs beyond Zn: Efficient one-pot synthesis of oxido-amidate clusters via a transmetalation/hydrolysis approach” P. Krupiński, M. Terlecki, A. Kornowicz, I. Justyniak, D. Prochowicz, J. van Leusen, P. Kögerler, J. Lewiński Inorg. Chem. 2022, 61, 7869−7877

A93. Kruszyńska, J., Ostapko, J., Ozkaya, V., Surucu, B., Szawcow, O., Nikiforow, K., Hołdyński, M., Tavakoli, M. M., Yadav, P., Kot, M., Kołodziej, G. P., Wlazło, M., Satapathi, S., Akin, S., & Prochowicz, D.
Atomic Layer Engineering of Aluminum-Doped Zinc Oxide Films for Efficient and Stable Perovskite Solar Cells.
Advanced Materials Interfaces, https://doi.org/10.1002/ADMI.202200575

A92. Parikh, N., Pandey, M., Prochowicz, D., Kalam, A., Tavakoli, M. M., Satapathi, S., Akin, S., & Yadav, P.
Investigation on the Facet-Dependent Anisotropy in Halide Perovskite Single Crystals.
The Journal of Physical Chemistry C, https://doi.org/10.1021/ACS.JPCC.2C01743

A91. “Cyclodextrin-templated Co(II) grids: Symmetry control over supramolecular topology and magnetic properties” A. Kornowicz, M. Terlecki, I. Justyniak, D. Prochowicz, J. van Leusen, P. Kögerler, J. Lewiński Inorg. Chem. 2022, 61, 2499−2508

A90. "Thiocyanate passivated diaminonaphthalene-incorporated Dion-Jacobson perovskite for highly efficient and stable solar cells" Yukta, R. D. Chavan, D. Prochowicz, P. Yadav, M. M. Tavakoli, S. Satapathi ACS Appl. Mater. Interfaces 2022, 14, 850-860

A89. “Recent Progress of Light Intensity Modulated Small Perturbation Techniques in Perovskite Solar Cells” N. Parikh, S. Narayanan, H. Kumari, D. Prochowicz, A. Kalam, S. Satapathi, S. Akin, M.M. Tavakoli, P. Yadav PSS RRL 2022, 16, 2100510

A88. “Band Alignment and Carrier Recombination Roles on the Open Circuit Voltage of ETL-Passivated Perovskite Photovoltaics” R. D. Chavan, N. Parikh, M. Mahdi Tavakoli, D. Prochowicz, A. Kalam, P. H. Bhoite, P. Yadav, C. K. Hong International Journal of Energy Research 2022, 46, 6022-6030.

A87. “Is machine learning redefining the perovskite solar cells?” N. Parikh, M. Karamta, N. Yadav, M. M. Tavakoli, D. Prochowicz, S. Akin, A. Kalam, S. Satapathi, P. Yadav, Journal of Energy Chemistry 2022, 66, 74–90

2021

A86. “Effect of bromine doping on the charge transfer, ion migration and stability of the single crystalline MAPb(BrxI1−x)3 photodetector” A. Mahapatra, D. Prochowicz,*  J. Kruszyńska, S. Satapathi, S. Akin, H. Kumari,   P. Kumar, Z. Fazel, M. M. Tavakoli and P. Yadav, J. Mater. Chem. C 2021, 9, 15189-15200

A85. "Interface Engineering of Mesoscopic Perovskite Solar Cells by Atomic Layer Deposition of Ta2O5" Chavan, Rohit; Tavakoli, Mohammad Mahdi; Trivedi, Suverna; Prochowicz, Daniel; Kalam, Abul; Yadav, Pankaj; Bhoite, Pravin; Hong, Chang Kook, ACS Appl. Energy Mater. 2021, 4, 10433–10441.

A84. “In the Quest of Low Frequency Impedance Spectra of Efficient Perovskite Solar Cells” D. Prochowicz, S. Trivedi, N. Parikh, M. Saliba, A. Kalam, M. Mahdi Tavakoli, P. Yadav, Energy Technology 2021, 9, 2100229.

A83. “Decoupling the effects of defects on efficiency and stability through phosphonates in stable halide perovskite solar cells” H. Xie, Z. Wang, Z. Chen, C. Pereyra, M. Pols, K. Gałkowski, M. Anaya, S. Fu, X. Jia, P. Tang, D.J. Kubicki, A. Agarwalla, H.-S. Kim, D. Prochowicz, X. Borrisé, M. Bonn, C. Bao, X. Sun, S.M. Zakeeruddin, L. Emsley, J. Arbiol, F. Gao, F. Fu, H.I. Wang, K.-J. Tielrooij, S.D. Stranks, S. Tao, M. Grätzel, A. Hagfeldt, M. Lira-Cantu Joule 2021, 5, 1246-1266.

A82. “Azahomofullerenes as New n-Type Acceptor Materials for Efficient and Stable Inverted Planar Perovskite Solar Cells” R. D. Chavan, D. Prochowicz, B. Bończak, M. Fiałkowski, M. M. Tavakoli, P. Yadav, M. J. Patel, S. K. Gupta, P. N. Gajjar, C. K. Hong, ACS Appl. Mater. Interfaces 2021, 13, 20296–20304.

A81. “Development of all-inorganic lead halide perovskites for carbon dioxide photoreduction” S. Trivedi, D. Prochowicz,* A. Kalam, M. M. Tavakoli, P. Yadav, Renewable and Sustainable Energy Reviews 2021, 145, 111047.

A80. “Ambient Stable and Efficient Monolithic Tandem Perovskite/PbS Quantum Dots Solar Cells via Surface Passivation and Light Management Strategies” M. M. Tavakoli, H. T. Dastjerdi, P. Yadav, D. Prochowicz, H. Si, R. Tavakoli, Adv. Funct. Mater. 2021, 31, 2010623.

A79. “Mesoscopic TiO2/Nb2O5 Electron Transfer Layer for Efficient and Stable Perovskite Solar Cells” R. D. Chavan, N. Parikh, M. M. Tavakoli, D. Prochowicz, A. Kalam, P. Yadav, P. H. Bhoite, C. K. Hong, Adv. Mater. Interf. 2021, 8, 2100177.

A78. “Two-dimensional halide perovskite single crystals: principles and promises” N. Parikh, M. M. Tavakoli, M. Pandey, M. Kumar, D. Prochowicz, R. D. Chavan, P. Yadav, Emergent Mater. 2021, 4, 865-880.

A77. “Metal Halide Perovskites for Energy Storage Applications” S. Narayanan, N. Parikh, M. M. Tavakoli, M. Pandey, M. Kumar, A. Kalam, S. Trivedi, D. Prochowicz, P. Yadav, Eur. J. Inorg. Chem. 2021, 13, 1201-1212.

A76. “Role of spacer cation on the growth and crystal orientation of two-dimensional perovskite” N. Parikh, M. M. Tavakoli, M. K. Pandey, A. Kalam, D. Prochowicz,* P. Yadav, Sustain. Energy Fuels, 2021, 5, 1255-1279.

A75. “Recent Progress in Growth of Single-Crystal Perovskites for Photovoltaic Applications” S. Trivedi, D. Prochowicz, N. Parikh, A. Mahapatra, M. K. Pandey, A. Kalam, M. M. Tavakoli, Pankaj Yadav, ACS Omega 2021, 6, 1030-1042.

A74. “Efficient, Hysteresis‐Free and Flexible Inverted Perovskite Solar Cells Using All‐Vacuum Processing” M. M. Tavakoli, P. Yadav, D. Prochowicz, R. Tavakoli, Solar RRL 2021, 5, 2000552.

2020

A73. “Halide Mixing and Phase Segregation in Cs2AgBiX6 (X=Cl, Br, I) Double Perovskites from Cesium-133 Solid-State NMR and Optical Spectroscopy” D. J. Kubicki, M. Saski, S. MacPherson, K. Galkowski, J. Lewiński,
D. Prochowicz,* J. J. Titman, S. D. Stranks, Chem. Mater. 2020, 32, 8129-8138.

A72. “113Cd Solid-State NMR at 21.1 T Reveals the Local Structure and Passivation Mechanism of Cadmium in Hybrid and All-Inorganic Halide Perovskites” D. J. Kubicki, D. Prochowicz, A. Hofstetter, B. J Walder, L. Emsley ACS Energy Lett. 2020, 5, 2964-2971.

A71. “Gold Nanoparticles Functionalized with Fullerene Derivative as an Effective Interface Layer for Improving the Efficiency and Stability of Planar Perovskite Solar Cells” R. D. Chavan, D. Prochowicz, B. Bończak, M. M. Tavakoli, P. Yadav, M. Fiałkowski, C. K. Hong, Adv. Mater. Interf. 2020, 7, 2001144.

A70. “Surface Treatment of Perovskite Layer with Guanidinium Iodide Leads to Enhanced Moisture Stability and Improved Efficiency of Perovskite Solar Cells” R. D. Chavan, D. Prochowicz, M. M. Tavakoli, P. Yadav, C. K. Hong Adv. Mater. Interf. 2020, 7, 2000105.

A69. "Changes in the Electrical Characteristics of Perovskite Solar Cells with Aging Time" A. Mahapatra, N. Parikh, P. Kumar, M. Kumar, D. Prochowicz,* A. Kalam, M. M. Tavakoli, P. Yadav, Molecules 2020, 25, 2299.

A68. “Reducing Ion Migration in Methylammonium Lead Tri-Bromide Single Crystal via Lead Sulfate Passivation” A. Mahapatra, N. Parikh, H. Kumari, M. K. Pandey, M. Kumar, D. Prochowicz, A. Kalam, M. M. Tavakoli, P. Yadav Journal of Applied Physics 2020, 127, 185501.

A67. “A Dopant‐Free Hole Transporting Layer for Efficient and Stable Planar Perovskite Solar Cells” M. M. Tavakoli, H. Si, P. Yadav, D. Prochowicz, R. Tavakoli, PSS RRL 2020, 14, 2000147.

A66. “Elucidation of the Role of Guanidinium Incorporation in Single Crystalline MAPbI3 Perovskite on Ion Migration and Activation Energy” A. Mahapatra, R. Runjhun, J. Nawrocki, J. Lewinski, A. Kalam, P. Kumar, S. Trivedi, M. M. Tavakoli, D. Prochowicz,* P. Yadav, Phys. Chem. Chem. Phys. 2020, 22, 11467-11473.

A65. “Local structure and dynamics in methylammonium, formamidinium and cesium tin(II) mixed−halide perovskites from 119Sn solid−state NMR” D. J. Kubicki, D. Prochowicz, E. Salager, A. Rakhmatullin, C. P. Grey, L. Emsley, S. D. Stranks J. Am. Chem. Soc. 2020, 142, 7813-7826.

A64. “Efficient Perovskite Solar Cells Based on CdSe/ZnS Quantum Dots Electron Transporting Layer with Superior UV Stability” M. M. Tavakoli, D. Prochowicz, P. Yadav, R. Tavakoli PSS RRL 2020, 14, 2000062.

A63. “Atomic Layer Deposition of an Effective Interface Layer of TiN for Efficient and Hysteresis-Free Mesoscopic Perovskite Solar Cells” R. D. Chavan, M. M. Tavakoli, D. Prochowicz, P. Yadav, S. S. Lote, S. P. Bhoite, A. Nimbalkar, C. K. Hong ACS Appl. Mater. Interfaces 2020, 12, 8098−8106.

A62. “Interpretation of Resistance, Capacitance, Defect Density and Activation Energy Levels in Single-Crystalline MAPbI3” A. Kalam, R. Rashmi, M. Apurba, M. M. Tavakoli, T. Suverna, H. T. Dastjerdi, K. Pawan, J. Lewiński, M. Pandey, D. Prochowicz,* P. Yadav, J. Phys. Chem. C 2020, 124, 3496-3502.

A61. “Development of SBU‐based mechanochemical approach for drug‐loaded MOFs” J. Nawrocki, D. Prochowicz, A. Wiśniewski, I. Justyniak, P. Goś, J. Lewiński, Eur. J. Inorg. Chem. 2020, 10, 782.

A60. “Suppressing Recombination in Perovskite Solar Cells via Surface Engineering of TiO2 ETL”
D. Prochowicz, M. M. Tavakoli, M. Wolska-Pietkiewicz, M. Jędrzejewska, S. Trivedi, M. Kumar, S. M. Zakeeruddin, J. Lewiński, M. Graetzel, P. Yadav, Solar Energy 2020, 197, 50-57.

A59. “A New Look on Octet‐Compliant Macrocyclic Organoaluminium Carboxylates as Dormant Poly‐Lewis Acids“ M. Terlecki, I. Justyniak, D. Prochowicz, J. Lewiński, Eur. J. Inorg. Chem. 2020, 119-127.

A58. “A Review of Aspects of Additive Engineering in Perovskite Solar Cells” A. Mahapatra, D. Prochowicz, M. M. Tavakoli, S. Trivedi, P. Kumar, P. Yadav, J. Mater. Chem. A 2020, 8, 27-54.

A57. “Double Layer Mesoscopic Electron Contact for Efficient Perovskite Solar Cells” R. D. Chavan, P. Kumar Yadav, M. M. Tavakoli, D. Prochowicz, A. S. Nimbalkar, S. P. Bhoite, P. N. Bhosale, C. K. Hong, Sustain. Energy Fuels 2020, 4, 843-851.

A56. “Tuning Areal Density and Surface Passivation of ZnO Nanowire Array Enable Efficient PbS QDs Solar Cells with Enhanced Current Density” H. T. Dastjerdi, D. Prochowicz, P. Yadav, M. M. Tavakoli, Adv. Mater. Interf. 2020, 7, 1901551.

2019

A55. “Synergistic ligand exchange and UV curing of PbS quantum dots for effective surface passivation” H. T. Dastjerdi, D. Prochowicz, P. K. Yadav, M. M. Tavakoli, Nanoscale 2019, 11, 22832-22840.

A54. “Mechanoperovskites for Photovoltaic Applications: Preparation, Characterization, and Device Fabrication” D. Prochowicz, M. Saski, P. Yadav, M. Grätzel, J. Lewiński, Acc. Chem. Res. 2019, 52, 3233-3243.

A53. “Luminescence down-shifting enables UV-stable and efficient ZnO nanowire-based PbS quantum dot solar cells with Jsc exceeding 33 mAcm-2” H. Tavakoli Dastjerdi, D. Prochowicz, P. Yadav, M. M. Tavakoli, Sustain. Energy Fuels 2019, 3, 3128-3134.

A52. “Atomic-Level Microstructure of Efficient Formamidinium-Based Perovskite Solar Cells Stabilized by 5-Ammonium Valeric Acid Iodide Revealed by Multinuclear and Two-Dimensional Solid-State NMR” A. Q. Alanazi, D. J. Kubicki, D. Prochowicz, E. A. Alharbi, Marine EF Bouduban, F. Jahanbakhshi, M. Mladenovic, Jovana V Milic, F. Giordano, D. Ren, A. Y Alyamani, H. Albrithen, A. Albadri, M. H. Alotaibi, Jacques-E Moser, S. M Zakeeruddin, U. Rothlisberger, L. Emsley, M. Grätzel, J. Am. Chem. Soc. 2019, 141, 17659-17669.

A51. “Effect of CsCl Additive on the Morphological and Optoelectronic Properties of Formamidinium Lead Iodide Perovskite” R. D Chavan, D. Prochowicz, P. Yadav, M. Mahdi Tavakoli, A. Nimbalkar, S. P. Bhoite, C. K. Hong, Solar RRL 2019, 3, 1900294.

A50. “Synthesis, structure and magnetic properties of a novel high-nuclearity oxo-carboxylate [ZnxCo13–x(μ4-O) 4(O2CPh)18] cluster” J. Nawrocki, D. Prochowicz, I. Justyniak, J. van Leusen, A. Kornowicz, P. Kögerler, J. Lewiński, Dalton Trans. 2019, 48, 12828.

A49. “Charge Accumulation, Recombination, and Their Associated Time Scale in Efficient (GUA)x(MA)1–xPbI3-Based Perovskite Solar Cells” D. Prochowicz, M. Mahdi Tavakoli, A. Q. Alanazi, S. Trivedi, H. Tavakoli Dastjerdi, S. M Zakeeruddin, M. Grätzel, P. Yadav, ACS Omega 2019, 4, 16840.

A48. “Oxygen Plasma-Induced p-Type Doping Improves Performance and Stability of PbS Quantum Dot Solar Cells” H. T. Dastjerdi, R. Tavakoli, P. Yadav, D. Prochowicz, M. Saliba, M. Mahdi Tavakoli, ACS Appl. Mater. Interfaces 2019, 11, 26047.

A47. „Highly efficient and stable inverted perovskite solar cells using down-shifting quantum dots as a light management layer and moisture-assisted film growth” M. M. Tavakoli, H. Tavakoli Dastjerdi, D. Prochowicz, P. Yadav, R. Tavakoli, M. Saliba, Z. Fan, J. Mater. Chem. A 2019, 7, 14753.

A46. “Controllable Perovskite Crystallization via Antisolvent Technique Using Chloride Additives for Highly Efficient Planar Perovskite Solar Cells” Mohammad M. Tavakoli, P. Yadav, D. Prochowicz, M. Sponseller, A. Osherov, V. Bulović, J. Kong, Adv. Energy Mater. 2019, 9, 1803587.

A45. „Mechanosynthesis, Optical, and Morphological Properties of MA, FA, Cs-SnX3 (X = I, Br) and Phase-Pure Mixed-Halide MASnIxBr3–x Perovskites” M. Saski, D. Prochowicz, W. Marynowski, J. Lewiński, Eur. J. Inorg. Chem. 2019, 22, 2680.

A44. „Influence of A-site cations on the open-circuit voltage of efficient perovskite solar cells: a case of rubidium and guanidinium additives” D. Prochowicz, M. M. Tavakoli, A. Kalam, R. D. Chavan, S. Trivedi, M. Kumarh, P. Yadav, J. Mater. Chem. A 2019, 7, 8218.

A43. „Engineering of Perovskite Materials Based on Formamidinium and Cesium Hybridization for High-Efficiency Solar Cells” D. Prochowicz, R. Runjhun, M. M. Tavakoli, P. Yadav, M. Saski, A. Q. Analazi, D. J. Kubicki, Z. Kaszkur, S. M. Zakeeruddin, J. Lewiński, M. Grätzel, Chem. Mater. 2019, 31, 1620-1627.

A42. “Doping and phase segregation in Mn2+- and Co2+-doped lead halide perovskites from 133Cs and 1H NMR relaxation enhancement” D. J. Kubicki, D. Prochowicz, A. Pinon, G. Stevanato, A. Hofstetter, S. M. Zakeeruddin, M. Grätzel, L. Emsley, J. Mater. Chem. A 2019, 7, 2236.

A41. “Correlation of recombination and open circuit voltage in planar heterojunction perovskite solar cells” D. Prochowicz, M. M. Tavakoli, A. Solanki, T. W. Goh, T. C. Sum, P. Yadav, J. Mater. Chem. C 2019, 7, 1273.

A40. „Multilayer evaporation of MAFAPbI3-xClx for the fabrication of efficient and large-scale device perovskite solar cells” M. M. Tavakoli, P. Yadav, D. Prochowicz, R. Tavakoli, M. Saliba, J. Phys. D: Appl. Phys. 2019, 52, 034005.

A39. „Europium-Doped CsPbI2Br for Stable and Highly Efficient Inorganic Perovskite Solar Cells”

W. Xiang, Z. Wang, D. J Kubicki, W. Tress, J. Luo, D. Prochowicz, S. Akin, L. Emsley, J. Zhou, G. Dietler, M. Grätzel, A. Hagfeldt, Joule, 2019, 3, 205.

2018

A38. “One-step mechanochemical incorporation of an insoluble cesium additive for high performance planar heterojunction solar cells” D. Prochowicz, P. Yadav, M. Saliba, D. J. Kubicki, M. M. Tavakoli, S. M. Zakeeruddin, J. Lewiński, L. Emsley, M. Grätzel, Nano Energy 2018, 49, 523-528.

A37. “Understanding the effect of chlorobenzene and isopropanol anti-solvent treatments on the recombination and interfacial charge accumulation in efficient planar perovskite solar cells” D. Prochowicz, M. M. Tavakoli, A. Solanki, T. W. Goh, K. Pandey, T. Chien Sum, M. Saliba, P. Yadav, J. Mater. Chem. A 2018, 6, 14307-14314.

A36. “Phase Segregation in Potassium-Doped Lead Halide Perovskites from 39K Solid-State NMR at 21.1 T” D. J. Kubicki, D. Prochowicz, A. Hofstetter, S. M. Zakeeruddin, M. Grätzel, L. Emsley, J. Am. Chem. Soc. 2018, 140, 7232-7238.

A35. „Facile Mechanosynthesis of the Archetypal Zn-Based Metal-Organic Frameworks” D. Prochowicz, J. Nawrocki, M. Terlecki, W. Marynowski, J. Lewiński, Inorg. Chem. 2018, 57, 13437.

A34 “Blue and red wavelength resolved impedance response of efficient perovskite solar cells” D. Prochowicz, M. M. Tavakoli, S.-H. Turren-Cruz, K. Pandey, M. Saliba, P. Yadav, Sustain Energy Fuels, 2018, 2. 2407.

A33. „Surface modification of a hole transporting layer for an efficient perovskite solar cell with an enhanced fill factor and stability” M. M. Tavakoli, R. Tavakoli, D. Prochowicz, P. Yadav, M. Saliba Mol. Syst. Des. Eng. 2018, 3, 717

A32. „Elucidation of Charge Recombination and Accumulation Mechanism in Mixed Perovskite Solar Cells” P. Yadav, S. H. Turren Cruz, D. Prochowicz, M. M. Tavakoli, K. Pandey, S. M. Zakeeruddin, M. Grätzel, A. Hagfeldt, M. Saliba, J. Phys. Chem. C. 2018, 122, 15149.

A31. „Straightforward Synthesis of Single-Crystalline and Redox-Active Cr(II)-carboxylate MOFs” M. Leszczyński, A. Kornowicz, D. Prochowicz, I. Justyniak, K. Noworyta, J. Lewinski, Inorg. Chem. 2018, 57, 4803.

A30. „Zinc Stannate Nanorod as an Electron Transporting Layer for Highly Efficient and Hysteresis-less Perovskite Solar Cells” M. M. Tavakoli, D. Prochowicz, P. Yadav, R. Tavakoli, M. Saliba, Eng. Sci. 2018, 3, 48.

A29. „Formation of stable mixed guanidinium-methylammonium phases with exceptionally long carrier lifetimes for high efficiency lead iodide-based perovskite photovoltaics” D. J. Kubicki, D. Prochowicz, A. Hofstetter, M. Saski, P. Yadav, D. Bi, N. Pellet, J. Lewinski, S. M. Zakeeruddin, M. Grätzel, L. Emsley. J. Am. Chem. Soc. 2018, 140, 3345.

2017

A28. „Interactions of native cyclodextrins with metal ions and inorganic nanoparticles: Fertile landscape for chemistry and materials science” D. Prochowicz, A. Kornowicz, J. Lewiński. Chem. Rev. 2017, 117, 13461–13501.

A27. „Phase Segregation in Cs-, Rb- and K-Doped Mixed-Cation (MA)x(FA)1-xPbI3 Hybrid Perovskites from Solid-State NMR” D. J. Kubicki, D. Prochowicz, A. Hofstetter, S. M. Zakeeruddin, M. Grätzel, L. Emsley. J. Am. Chem. Soc. 2017, 139, 14173.

A26. „Cation Dynamics in Mixed-Cation (MA)x(FA)1-xPbI3 Hybrid Perovskites from Solid-State NMR” D.  J. Kubicki, D.  Prochowicz, A. Hofstetter, P.  Pechy, S.  M. Zakeeruddin, M.  Grätzel, L.  Emsley. J. Am. Chem. Soc. 2017, 139, 10055.

A25. “Reduction in the Interfacial Trap Density of Mechanochemically Synthesized MAPbI3” D. Prochowicz, P. Yadav, M. Saliba, M. Saski, S. M. Zakeeruddin, J. Lewinski, M. Grätzel. ACS Appl. Mater. Interfaces 2017, 9, 28418–28425.

A24. “Intrinsic and interfacial kinetics of perovskite solar cells under photo and bias-induced degradation and recovery” P. Yadav, D. Prochowicz, E. A Alharbi, S. M. Zakeeruddin, M. Grätzel. J. Mater. Chem. C 2017, 5, 7799.

A23. “Interfacial kinetics of efficient perovskite solar cells” P. Yadav, D. Prochowicz, M. Saliba , P. P. Boix, S. M. Zakeeruddin, M. Grätzel. Crystals 2017, 7, 252.

A22. “Mechanosynthesis of pure phase mixed-cation MAxFA1-xPbI3 hybrid perovskite: Characterization and the corresponding photovoltaic performance” D. Prochowicz, Y. P. Kumar, M. Saliba, M. Saski, S. M. Zakeeruddin, J. Lewiński, M. Grätzel. Sustainable Energy Fuels 2017, 1, 689–693.

A21. “Structure investigations of group 13 organometallic carboxylates” I. Justyniak, D. Prochowicz, A. Tulewicz, W. Bury, P. Goś, J. Lewiński. Dalton Trans. 2017, 46, 669.

A20. “Assemblies based on Schiff Base Chemistry” J. Lewiński, D. Prochowicz in J. L. Atwood, (ed.) Comprehensive Supramolecular Chemistry II, vol. 6, 279–304. Oxford: Elsevier, 2017.

A.19. “Synthesis, structure and magnetic properties of mononuclear chiral bis-aminoalkoxide(acetate)Mn(III) complex” A. Kornowicz, M. Terlecki, D. Prochowicz, C. Pichon, I. Justyniak, W. Bury, Z. Wróbel, J.-P. Sutter, J. Lewiński. Eur. J. Inorg. Chem. 2017, 1392.

2016

A18. “Molecularly Imprinted Polymer (MIP) Film with Improved Surface Area Developed by Using Metal–Organic Framework (MOF) for Sensitive Lipocalin (NGAL) Determination” Z. Iskierko, P. S. Sharma, D. Prochowicz, K. Fronc, F. D’Souza, D. Toczydłowska, F. Stefaniak, K Noworyta. ACS Appl. Mater. Interfaces 2016, 8, 19860.

A17. “Trinuclear cage-like Zn(II) macrocyclic complexes: enantiomeric self-sorting and gas adsorption properties” J. Janczak, D. Prochowicz, J. Lewiński, D. Fairen-Jimenez, T. Bereta, J. Lisowski Chem. Eur. J. 2016, 2, 598.

A16. „Metal complexes based on cyclodextrins: synthesis and structural diversity” D. Prochowicz, A. Kornowicz, I. Justyniak, J. Lewiński, Coord. Chem. Rev. 2016, 306, 331-345.

2015

A15. “Mechanosynthesis of the hybrid perovskite CH3NH3PbI3: Characterization and the Corresponding Solar Cell Efficiency” D. Prochowicz, M. Franckevičius, A. M. Cieślak, S. M. Zakeeruddin, M. Grätzel, J. Lewiński, J. Mater. Chem. A 2015, 3, 20772.

A14. “Hollow microtubes made of carbon, boron and gold: novel semiconducting nanocomposite material for applications in electrochemistry and temperature sensing” J. Paczesny, K. Wybrańska, J. Niedziółka-Jönsson, E. Roźniecka, M. Wadowska, P. Zawal, I. Malka, I. Dzięcielewski, D. Prochowicz, R. Hołyst, M. Fiałkowski, RSC Adv. 2015, 5, 64083.

A13. ”A mechanochemical strategy for IRMOF assembly based on pre-designed oxo-zinc precursors” D. Prochowicz, K. Sokołowski, I. Justyniak, A. Kornowicz, D. Fairen-Jimenez, T. Friščić, J. Lewiński, Chem. Commun. 2015, 51, 4032.

2014

A12. ”Supramolecular control over molecular magnetic materials: γ-cyclodextrin-templated grid of Co(II) single-ion magnets” N. Nedelko, A. Kornowicz, I. Justyniak, P. Aleshkevych, D. Prochowicz, P. Krupiński, O. Dorosh, A. Ślawska-Waniewska, J. Lewiński, Inorg. Chem. 2014, 53, 12870.

A11. ”Synthesis and structure of an arylmanganese(II) 8-hydroxyquinolinate tetranuclear cluster” I. Justyniak, A. Kornowicz, D. Prochowicz, K. Sokołowski, J. Lewiński, Zeitschrift für anorganische und allgemeine Chemie 2014, 640, 11.

A10. ”Toward Coordination Polymers Based on Fine-Tuneable Group 13 Organometallic Phthalates” I. Justyniak, W. Bury, D. Prochowicz, K. Wójcik, J. Zachara, J. Lewiński, Inorg. Chem. 2014, 53, 7270. 

A9. “A solvothermal and mechanochemical strategy for the construction of chiral N,N-ditopic metalloligands: Oxygenation process of Cu(I)X/Quinine systems” D. Prochowicz, I. Justyniak, A. Kornowicz, S. Komorski, J. Lewiński, Inorg. Chem. Commun. 2014, 46, 216.

A8. “Zinc hydroxides and oxides supported by organic ligands: Synthesis and structural diversity” D. Prochowicz, K. Sokołowski, J. Lewiński Coord. Chem. Rev. 2014, 270-271, 112-126.

2013

A7. “Permanent Porosity Derived From the Self-Assembly of Highly Luminescent Molecular Zinc Carbonate Nanoclusters” K. Sokołowski, W. Bury, D. Fairen-Jimenez, I. Justyniak, K. Sołtys, D. Prochowicz, S. Yang, M. Schröder, J. Lewiński, Angew. Chem. Int. Ed. 2013, 52, 13414.

2012

A6. “New Insights into Cinchonine-Aluminium Complexes and Their Application as Chiral Building Blocks: Unprecedented Ligand-Exchange Processes in the Presence of ZnR2 Compounds” T. Kaczorowski, I. Justyniak, D. Prochowicz, K. Zelga, A. Kornowicz, J. Lewiński Chem. Eur. J. 2012, 18, 13460.

A5. “Oxozinc Carboxylate Complexes: A New Synthetic Approach and the Carboxylate Ligand Effect on the Non-Covalent Interactions-Driven Self-Assembly” W. Bury, I. Justyniak, D. Prochowicz, A. Rola-Noworyta, J. Lewiński Inorg. Chem. 2012, 51, 7410.


A4. “Oxozinc Carboxylates: A Predesigned Platform for Modelling Prototypical Zn-MOFs’ Reactivity Toward Water and Donor Solvents” W. Bury, I. Justyniak, D. Prochowicz, Z. Wróbel, J. Lewiński Chem. Commun, 2012, 48, 7362.

A3. „Construction of porous homochiral coordination polymer with two types of CunIn alternating units linked by quinine: A solvothermal and a mechanochemical approach” D. Prochowicz, I. Justyniak, A. Kornowicz, T. Kaczorowski, Z. Kaszkur, J. Lewiński Chem. Eur. J. 2012, 18, 7367.


2011

A2. "Development of chiral N,N-ditopic metalloligands based on a Cinchona alkaloids' backbone for constructing homochiral coordination polymers" J. Lewiński, T. Kaczorowski, D. Prochowicz, I. Justyniak Chem. Commun. 2011, 47, 950.

2010

A1. "Cinchona Alkaloid–Metal Complexes: Noncovalent Porous Materials with Unique Gas Separation Properties" J. Lewiński, T. Kaczorowski, D. Prochowicz, T. Lipińska, I. Justyniak, Z. Kaszkur, J. Lipkowski, Angew. Chem. Int. Ed. 2010, 49, 7035.

Współpraca

  • Prof. Michael Graetzel (École Polytechnique Fédérale de Lausanne)
  • Prof. Michael Saliba (University of Stuttgart)
  • Dr. Pankaj Yadav (Pandit Deendayal Petroleum University)
  • Dr. Mahdi Tavakoli (Massachusetts Institute of Technology)
  • Dr. Dominik Kubicki (University of Cambridge)
  • Dr. Seckin Akin (Karamanoglu Mehmetbey University)

Finansowanie

Projekt nr 2020/39/B/ST5/01497 (OPUS-20) pt. „Badanie relacji pomiędzy strukturą a właściwościami monokrystalicznych perowskitów ołowiowo-halogenkowych do zastosowań w fotodetekcji” finansowany przez Narodowe Centrum Nauki. Kierownik: Daniel Prochowicz (1 094 340 PLN). Okres trwania 01.10.2021 – 30.09.2024.

Publikacje:

  1. A. Mahapatra, D. Prochowicz, J. Kruszyńska, S. Satapathi, S. Akin, H. Kumari, P. Kumar, Z. Fazel, M. M. Tavakoli, P. Yadav, J. Mater. Chem. C 2021, 9, 15189-15200
  2. A. Mahapatra, R. Chavan, M. M. Tavakoli, P. Kumar, A. Kalam, D. Prochowicz, P. Yadav J. Phys. Chem. C 2022, 126, 13458–13466 
  3. A. Mahapatra, V. Anilkumar, R. D. Chavan, P. Yadav, D. Prochowicz ACS Photonics 2023, 10, 1424−1433
  4. A. Mahapatra, V. Anilkumar, J. Nawrocki, S. V. Pandey, R. D. Chavan, P. Yadav, D. Prochowicz Adv. Electron. Mater. 2023, 9, 2300226
  5. A. Mahapatra, V. Anilkumar, J. Kruszyńska, N. Mrkyvkova, P. Siffalovic, P. Yadav and D. Prochowicz  J. Mater. Chem. C 2024, 12, 2953-2960
  6. V. Anilkumar, A. Mahapatra, J. Nawrocki, R. D. Chavan, P. Yadav, D. Prochowicz Adv. Opt. Mater. 2024, 12, 2302032

Projekt nr 2020/38/E/ST5/00267 pt. „Opracowanie i rozwijanie metod wytwarzania stabilnych ogniw perowskitowych” finansowany przez Narodowe Centrum Nauki.  Kierownik projektu: Daniel Prochowicz (2 632 760 PLN). 2021-2025

Publikacje:

  1. J. Kruszyńska, J. Ostapko, V. Ozkaya, B. Surucu, O. Szawcow, K. Nikiforow, M. Hołdyński, M. M. Tavakoli, P. Yadav, M. Kot, G. P. Kołodziej, M. Wlazło, S. Satapathi, S. Akin, D. Prochowicz* Adv. Mater. Interf. 2022, 9, 2200575
  2. A. Mishra, D. J. Kubicki, A. Boziki, R. D. Chavan, M. Dankl, M. Mladenović, D. Prochowicz, C. P. Grey, U. Rothlisberger, L. Emsley ACS Energy Lett. 2022, 7, 2745−2752
  3. J. Kruszyńska, F. Sadegh, M. J. Patel, E. Akman, P. Yadav, M. M. Tavakoli, S. K. Gupta, P. N. Gajjar, S. Akin, D. Prochowicz* ACS Appl. Energy Mater. 2022, 5, 13617–13626
  4. R. D. Chavan, B. Bończak, J. Kruszyńska, A. Mahapatra, M. Ans, J. Nawrocki, K. Nikiforow, P. Yadav, J. Paczesny, F. Sadegh, M. Unal, S. Akin, D. Prochowicz Chem. Mater. 2023, 35, 8309−8320

Program Visegrad Group (V4)-Japan Joint Research Program on Advanced Materials

Projekt: „Szerokopasmowe detektory oparte na perowskitowych kropkach kwantowych – od kropki kwantowej do funkcjonalnego detektora” 2021-2024. Daniel Prochowicz (644 325 PLN)

Projekt nr V4-JAPAN/2/14/PeDET/2022 finansowany przez Narodowe Centrum Badań i Rozwoju (NCBR).