Publications

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2024 | 2023 | 2022 | 2021 | 2020 | 2019 | 2018 | 2017 | 2016 | 2015 | 2014 | 2013 | 2012 | 2011 | 2010 | 2009 | 2008  | 2007  | 2006 | 2005 | 2004 | 2003 | 2002 | 2001 | 2000 | 1999 | 1998  | 1997  | 1996 | 1995 | 1994  | 1992 | 1991 | 1988 | 1985

2024

• “The Surprising Route to a Monoazaporphyrin and Full Characterization of its Complexes with Five Different 3d Metals”, Raslin, Z. Sercel, N. Fridman, I. Saltsman and Z. Gross, Inorg. Chem. 2024, accepted for publication.

2023

• “Text-Based Representations with Interpretable Machine Learning Reveal Structure-Property Relationships of Polybenzenoid Hydrocarbons”, S. Fite, A. Wahab, E. Paenurk, Z. Gross, and R. Gershoni-Poranne. 2023, J. Phys. Org. Chem.36e:4458.
• “Milestones in Corrole Chemistry: Historical Ligand Syntheses and Post-functionalization”, Kumar, D. Kim, A. Kumar, A. Mahammed, D. G. Churchill, and Z. Gross. 2023. Chem. Soc. Rev. 52, 573-600.
• ”Corrole nanoparticles for chemotherapy of castration resistant prostate cancer and as sonodynamic agents for treatment of pancreatic cancer”, M. Soll, V. Sharma, S. Khoury, Y. G. Assaraf and Z. Gross. 2023. J. Med. Chem. 66, 766−776.
• “Supramolecular control of photonic response and sensing of nitric oxide using iron(III) corrole monolayers and their stacks”. Graewe, M.L Hupfer, M. Schul, A. Mahammed, Z. Gross and M. Presselt. 2023, ChemPlusChem. e202200260 (7 pages).
• “Hallmarks of anticancer and antimicrobial activities of corroles”, K. Sharma, Y. G. Assaraf and Z. Gross. 2023. Drug Resistance Updates. 67, 100931.
• “Phosphorous Corroles: Tuning of their photophysical and Redox Properties via Axial Ligation and Macrocycle Modification”, W. Sinha, N. Fridman, A. Mahammed and Z. Gross. 2023. Israel J. Chem. e202300036 (5 pages). 
• “Milestones and Most Recent Advances in Corrole’s Science and Technology”, A. Mahammed and Z. Gross. 2023. J. Am. Chem. Soc. In press
• “Protein conjugated iron complexes for catalyzing asymmetric carbene insertions into S-H and Si-H bonds”,I. Saltsman and Z. Gross. J. Porphyrins Phthalocyanines 2023, 27: 1376–1381 (special contribution, honoring the 65^th birthday of Professor Jonathan Sessler).
• “Photophysics of corroles and closely related systems for emergent solar energy, medicinal, and materials science applications”, X. Zhan, D. Kim, Z. Ullah, W. Lee, Z. Gross and D. G. Churchill.coordination chemistry reviews. 2023, 495, 215363. 
• “Size and electronic effects on the performance of (corrolato) cobalt-modified electrodes for ORR catalysis”, A. Raslin, J. Douglin, A. Kumar, M. Fernandez-Dela-Mora, D. Dekel and Z. Gross. Inorg. Chem. 2023, 62, 14147–14151.
• “Beneficial Effects on the Cobalt-Catalyzed Hydrogen Evolution Reaction Induced by Corrole Chelation”, A. Kumar, S. Fite, A. Raslin, S. Kumar, A. Mizrahi, A. Mahammed, and Z. Gross. ACS Catal. 2023, 13, 13344-13353.
• K. Sharma, A. Saini, N. Fridma, H. B. Gray, and Z. Gross “Reversible Reactions of Nitric Oxide With a Binuclear Iron(III) Nitrophorin Mimic”, Chem. Eur. J. 2023, e202302860 (5 pages).

2022

• “Hydrogen Evolution Catalyzed by Corrole-Chelated Nickel Complexes, Characterized in all Catalysis-relevant Oxidation States”,Q.-C. Chen, S. Fite, N. Fridman, B. Tumanskii, A. Mahammed, and Z. Gross. 2022. ACS Catalysis. 12, 4310−4317.
• “Orthogonal Design of Fe-N4 Active Sites and Hierarchical Porosity in Hydrazine Oxidation Electrocatalysts”, Y. Shahaf, A. Mahammed, A. Raslin, A. Kumar, E. M. Farber, Z. Gross and D. Eisenberg. 2022. ChemElectroChem. 9, e202200045 (7 pages).
•  “Doubly Stimulated Corrole for Organelle-Selective Anti-Tumor Cytotoxicity”, V. Sharma, M. Stark, N. Fridman, Y. G. Assaraf, and Z. Gross. 2022, J. Med. Chem. 65, 6100−6115.
• “β-Bis-CF₃-substituted phosphorus corroles, theory and experiments”, X. Zhan, Z. Ullah, D. Kim, B. Mustafa, H. Kwon, D. G. Churchill, and Z. Gross. 2022. Inorg. Chem. Front. 9, 3319-3329.
• “Electronic Coupling and Electrocatalysis in Redox Active Fused Iron Corrole”, A. Mizrahi, S. Bhowmik, A. K. Manna, W. Sinha, A. Kumar, M. Saphier, A. Mahammed, M. Patra, N. Fridman, I. Zilbermann, L. Kronik, and Z. Gross. 2022. Inorg. Chem. 51, 20725–20733.

2021

• “Variables of the Analytical Electrochemical Data Acquisition for Boron Subphthalocyanines”, E. Bukuroshi, A. Mizrahi, Z. Gross and T. P. Bender. 2021, J. Inorg. Chem. 1090-1097.
• “A Synthetic SOD/Catalase Mimic Compound for the Treatment of ALS”, Soll, H. Goldshtein, R. Rotkopf, N. Russek-Blum, and Z. Gross. 2021, Antioxidants. 10, 827.
• “Trifluoromethyl Hydrolysis En Route to Corroles with Increased Druglikeness“, P. Yadav, S. Khoury, N. Fridman, V. K. Sharma, A. Kumar, M. Majdoub, A. Kumar, Y. Diskin-Posner, A. Mahammed and Z. Gross. 2021, Angew. Chem. 60, 12829 –12834.
• “Minding our P-block and Q-bands: Synthetic Progress and inroads into main group aspects of corroles and suggestions for fulfilling their potential“, W. Lee, X. Zhan, J. Palma, J. Vestfrid, Z. Gross, and D. G. Churchill. 2021, Chem. Commun. 57, 4605-4641.
• “Dimeric Corrole Analogs of Chlorophyll Special Pairs“, V. K. Sharma, A. Mahammed, A. Mizrahi, M. Morales, N. Fridman, H. B. Gray and Z. Gross. 2021, J. Am. Chem. Soc. 143, 9450–9460.
• “Solvent effects on the phosphorescence of gold (III) complexes chelated by β–multisubstituted corroles“, X. Zhan, W. Lee, K. Sudhakar, D. Kim, A. Mahammed, D. Churchill, and Z. Gross. 2021, Chem. 60, 8442–8446.
• “Custom Tokenization Dictionary, CUSTODI: A General, Fast, and Reversible Data-Driven Representation and Regressor“, S. Fite, O. Nitecki and Z. Gross. 2021, Chem. Inf. Model. 61, 3285-3291.
• “Hydrogen Evolution Catalysis, by Terminal Molybdenum-Oxo Complexes“, P. Yadav, I. Nigel-Etinger, A. Kumar, A. Mizrahi, A. Mahammed, N. Fridman, S. Lipstman, I. Goldberg, and Z. Gross. 2021, Iscience. 24, 102924.
• “Ultrafast electron transfer in a self-assembling sulfonated Al-corrole – methylviologen complex“,C. Zahn, T. Stensitzki, A. Berg, A. Mahammed, A. Zacarias, Z. Gross and K. Heyne. 2021, Phys. Chem. B. 125, 10571–10577.
• “Chromophore-Supported Structural and Functional Model of Dinuclear Copper Enzymes, for Facilitating Mechanism of Action Studies“,Q. C. Chen, N. Fridman, B. Tumanskii and Z. Gross. 2021, Chem. Science. 12, 12445-12450.
• “Corroles: The Hitherto Elusive Parent Macrocycle and its Metal Complexes”, A. Kumar, P. Yadav, M. Majdoub, I. Saltsman, N. Fridman, S. Kumar, A. Kumar, A. Mahammed and Z. Gross. 2021, Angew. Chem. 60, 25097-25103.

2020

• “Controllable and Stable Organometallic Redox Mediators for Lithium Oxygen Batteries”, J. Kwak, A. Mahammed, H. Kim, T. T. Nguyen, Z. Gross, D. Aurbach and Y.-K. Sun. 2020, Materials Horizons. 7, 214-222.
• “Hetero-Multifunctionalization” of Gallium Corroles: Facile Synthesis, Phosphorescence, Redox Tuning, and Photooxidative Catalytic Improvement”, X. Zhan, Y. Zini, N. Fridman, Q. C. Chen, D. G. Churchill, and Z. Gross. 2020, ChemPlusChem. 85, 163-8.
•  “Rhenium(I) sapphyrins: Remarkable difference between the C₆F₅ and CF₃-substituted derivatives”, P. Yadav, N. Fridman, A. Mizrahi and Z. Gross. 2020, Chem. Commun. 56, 980-983.
• “Copper Complexes of CF₃‐Substituted Corroles for Affecting Redox Potentials and Electrocatalysis”, K. Sudhakar, A. Mahammed, Q.-C. Chen, N. Fridman, B. Tumanskii and Z. Gross. 2020, ACS Appl. Energy Mater. 3, 2828-2836.
• “Axial/Peripheral Chloride/Fluoride-Substituted Boron Subphthalocyanines as Electron Acceptors”, A. Mizrahi, E. Bukuroshi, J. Vestfrid, T. Bender, and Z. Gross. 2020, Chem. 59, 2641-2645.
• “Water Oxidation Catalysis by Mono- and Binuclear Iron Corroles”, W. Sinha, A. Mahammed, N. Fridman and Z. Gross. 2020, ACS Catal. 10, 3764-3772.
• “Enhanced Synthetic Access to Tris-CF₃-Substituted Corroles”, P. Yadav, S. Khoury, A. Mahammed, M. Morales, S. C. Virgil, H. B. Gray and Z. Gross. 2020, Org. Lett. 22, 3119-3122.
• “Self-assembly of simple corroles, via hydrogen bonding and coordination”, V. K. Sharma, I. Saltsman, Q.-C. Chen, N. Fridman and Z. Gross. 2020, J. Org. Chem. 3142-3146.
• “Protein-coated corrole nanoparticles for the treatment of prostate cancer cells” , M. Soll, Q.-C. Chen, B. Zhitomirsky,P. Lim, J. Termini, H. B. Gray,Y. G. Assaraf and Z. Gross. 2020, Cell Death Discovery. 6, 67 (17 pages, doi.org/10.1038/s41420-020-0288-x).
•  “Palladium Complexes of Corroles and Sapphyrins”, Q. C. Chen, N. Fridman,Y. Diskin-Posner and Z. Gross. 2020, Chem. Eur. J. 26, 9481-9485.
• “Clean Ar–Me conversion to Ar–aldehyde with the aid of carefully designed metallocorrole photocatalysts” Zhan, S. Kolanu, S. Fite, Q. Chen, W. Lee, D. G. Churchill and Z. Gross. 2020, Photochem. Photobiol. Sci. 19, 996-1000.
• “Elucidation of Factors That Govern the 2e^–/2H⁺ vs. 4e^–/4H⁺ Selectivity of Water Oxidation by a Cobalt Corrole”, B. Mondal, S. Chattopadhyay, S. Dey, A. Mahammed, K. Mittra, A. Rana, Z. Gross and A. Dey. 2020, J. Am. Chem. Soc. 142, 21040-21049.

2019

• “Electropolymerization of PGM-free molecular catalyst for formation of 3D structures with high density of catalytic sites”, A. Friedman, I. Saltsman, Z. Gross, and L. Elbaz. 2019, Electrochimica Acta. 310, 13-19.
• “Maximizing Property Tuning of Phosphorus Corrole Photocatalysts through a Trifluoromethylation Approach”, X. Zhan, P. Teplitzky, Y. Diskin-Posner, M. Sundararajan, Z. Ullah, Q. C. Chen, L. JW. Shimon, I. Saltsman, A. Mahammed, M. Kosa, M. Baik, D. G. Churchill, and Z. Gross. 2019, Inorg. Chem. 58, 6184-6198.
• “Cell-Penetrating Protein/Corrole Nanoparticles”, M. Soll, T. K. Goswami, Q. C. Chen, I. Saltsman, R. D. Teo, M. Shahgholi, P. Lim, A. J. Di Bilio, S. Cohen, J. Termini, H. B Gray, and Z. Gross. 2019, Scientific reports. 9 (1), 2294.
• “Corroles as triplet photosensitizers”, A. Mahammed and Z. Gross. 2019, Coordination Chemistry Reviews. 379, 121-132.
• “Trifluoromethylation for affecting the structural, electronic and redox properties of cobalt corroles”, S. Kolanu, A. Mahammed, N. Fridman, and Z. Gross. 2019, Dalton Trans. 48, 4798-4810.
• “A catalytic antioxidant for limiting amyloid-beta peptide aggregation and reactive oxygen species generation”, L. MF. Gomes, A. Mahammed, K. E. Prosser, J. R. Smith, M. A. Silverman, C. J. Walsby, Z. Gross and T. Storr. 2019, Chemical science. 10 (6), 1634-1643.
• “Phosphorus Corrole Complexes: From Property Tuning to Applications in Photocatalysis and Triplet-Triplet Annihilation Upconversion”, A. Mahammed, K. Chen, J. Vestfrid, J. Zhao and Z. Gross. 2019, Chem. Science. 10, 7091-7103 (Edge Article).
• “Structures and Spectroscopic Properties of Metallocorrole Nanoparticles”, J. Oppenheim, M. H. B. Gray, A. J. Di Bilio, B. J. Brennan, L. M. Henling, P. Lim, M. Soll, J. Termini, S. C. Virgil, Z. Gross and H. B. Gray. 2019, Inorg. Chem. 58, 10287−10294.
• “Positive shift in corrole redox potentials leveraged by modest β-CF3-substitution helps achieve efficient photocatalytic C-H bond functionalization for group 13 complexes”, Zhan, P. Yadav, Y. Diskin-Posner, N. Fridman, M. Sundararajan, Z. Ullah, Q.-C. Chen, L. J. W. Shimon, A. Mahammed, D. G. Churchill, M.-H. Baik, and Z. Gross. 2019, Dalton Trans. 48, 12279-12286.
• “Tuning Chemical and Physical Properties of Phosphorus Corroles for Advanced Applications”, C. Chen, Z.-Y. Xiao, S. Fite, A. Mizrahi, N. Fridman, X. Zhan, O. Keisar, Y. Cohen, and Z. Gross. 2019, Chem. Eur. J .25, 11383-11388 (Hot paper and selected for cover page).
• “Superstructured Metallocorroles for Electrochemical CO₂ Reduction”,Sinha, N. Fridman, Y. Diskin-Posner, L. J. W. Shimon and Z. Gross. 2019, Chem. Commun. 55, 11912-11915.
• “Corroles and Corrole/Transferrin Nanoconjugates as Candidates for Sonodynamic Therapy”,V. K. Sharma, A. Mahammed, B. Tumanski, and Z. Gross. 2019, Chem. Commun. 55, 12789-12792.
• “Fluorinated boron subphthalocyanines: Lewis acid based templating chemistry facilitates random halide exchange, and fluoride versus chloride affects the basic photophysical properties and the solid-state arrangement”, E. Bukuroshi, J. Vestfrid, Z. Gross and T. P. Bender. 2019, New J. Chem. 43, 16730-16737.

2018

• “In vitro photodynamic inactivation (PDI) of pathogenic germs inducing onychomycosis”, N. Shamali, A. Preuß, I. Saltsman, A. Mahammed, Z. Gross, G. Däschlein, and B. Röder. 2018, Photodiagnosis and photodynamic therapy. 24, 358-365.
• “Front Cover: Rhodium Complexes of a New‐Generation Sapphyrin: Unique Structures, Axial Chirality, and Catalysis”, Q. C. Chen, I. Saltsman, A. Kaushansky, Z. Y. Xiao, N. Fridman, X. Zhan, and Z. Gross. 2018, Chemistry–A European Journal. 24 (65), 17162-17162.
• “Rhodium Complexes of a New‐Generation Sapphyrin: Unique Structures, Axial Chirality, and Catalysis”, Q. C. Chen, I. Saltsman, A. Kaushansky, Z. Y. Xiao, N. Fridman, X. Zhan, and Z. Gross. 2018, Chemistry–A European Journal. 24 (65), 17255-17261.
• “Photophysical heavy-atom effect in iodinated metallocorroles: Spin–orbit coupling and density of states”, E. Pomarico, P. Pospisil, Marine EF Bouduban, J. Vestfrid, Z. Gross, S. Záliš, M. Chergui, and A. Vlcek. 2018, The Journal of Physical Chemistry A.122 (37), 7256-7266.
• “Electropolymerization of Metallo-Corroles: Formation of Highly Active Three-Dimensional Catalysts for Oxygen Reduction”, A. Friedman, Z. Gross, and L. Elbaz. 2018, Meeting Abstracts. 1532-1532.
• “Efficient Bio-Inspired Oxygen Reduction Electrocatalysis with Electropolymerized Cobalt Corroles”, A. Friedman, L. Landau, S. Gonen, Z. Gross, and L. Elbaz. 2018,  ACS Catalysis. 8 (6), 5024-5031.
• “Resistance to receptor-blocking therapies primes tumors as targets for HER3-homing nanobiologics”, J. D. Sims, J. M. Taguiam, F. A. Valenteen, J. Markman, H. Agadjanian, D. Chu, J. Lubow, R. Abrol, D. Srinivas, A. Jain, B. Han, Y. Qu, P. Mirzadehgan, J. Y. Hwang, A. Rentsendorj, A. Chung, J. Lester, B. Y. Karlan, H. B. Gray, Z. Gross, A. Giuliano, X. Cui, and L. K. Medina-Kauwe. 2018, Jurnal of Controlled Release. 271, 127-138.
• “One‐Pot Synthesis of Contracted and Expanded Porphyrins with meso‐CF3 Groups”, Q. C. Chen, M. Soll, A. Mizrahi, I. Saltsman, N. Fridman, M. Saphier, and Z. Gross. 2018, Angewandte Chemie. 130 (4), 1018-1022.
• “Singlet oxygen luminescence kinetics under PDI relevant conditions of pathogenic dermatophytes and molds”, T. Bornhütter, N. Shamali, I. Saltsman, A. Mahammed, Z. Gross, G. Däschlein, and B. Röder. 2018, Journal of Photochemistry and Photobiology, B: Biology. 178, 606-613.

2017

• “Reactive Intermediates Involved in Cobalt Corrole Catalyzed Water Oxidation (and Oxygen Reduction)”, W. Sinha, A. Mizrahi, A. Mahammed, B. Tumanskii, and Z. Gross. 2017, Inorganic chemistry 57 (1), 478-485.
• “Iodinated cobalt corroles”, K. Sudhakar, A. Mahammed, N. Fridman, and Z. Gross. 2017, Journal of Porphyrins and Phthalocyanines. 21 (12), 900-907.‏
• “Cover Picture: Switching Futile para‐Quinone to Efficient Reactive Oxygen Species Generator: Ubiquitin‐Specific Protease‐2 Inhibition, Electrocatalysis, and Quantification (ChemBioChem 17/2017)”, P. Gopinath, A. Mahammed, T. E. Shaffer, M. Nawatha, S. Ohayon, D. Shabat, Z. Gross, and A. Brik. 2017, ChemBioChem. 18 (17), 1669-1669.
• “Switching Futile para‐Quinone to Efficient Reactive Oxygen Species Generator: Ubiquitin‐Specific Protease‐2 Inhibition, Electrocatalysis, and Quantification”, P. Gopinath, A. Mahammed, T. E. Shaffer, M. Nawatha, S. Ohayon, D. Shabat, Z. Gross, and A. Brik. 2017, ChemBioChem. 18 (17), 1683-1687.‏
• “Effect of Selective CF₃ Substitution on the Physical and Chemical Properties of Gold Corroles”, K. Sudhakar, A. Mizrahi, M. Kosa, N. Fridman, B. Tumanskii, M. Saphier, and Z. Gross. 2017, Angewandte Chemie International Edition. 56 (33), 9837-9841.
• “Combinations of corroles and statins”, Z. Gross, M. Aviram, and A. Haber. 2017, US Patent. 9, 642,860.‏
• “Electrocatalysis of Oxygen Reduction with Elctropolymerized Metallo-Corroles”, L. Elbaz, A. Friedman, and Z. Gross. 2017, Meeting Abstracts, 871-871.
• “Earth Abundant Metal Corroles As Catalysts for Energy Relevant Processes”, Z. Gross, and A. Mahammed. 2017, Meeting Abstracts, 874.
• “Corrole Chelated Metal Complexes for HER and Oer”, A. Mahammed, and Z. Gross. 2017, Meeting Abstracts, 1417.
• “Introduction: Expanded, Contracted, and Isomeric Porphyrins”, J. L. Sessler, Z. Gross, and H. Furuta. 2017, Chemical reviews 117 (4), 2201-2202.‏
• “Method of treatment of disease”, Z. Gross, A. Haber, and I. Angel. 2017, US Patent. 9, 572,816.‏
• “The Planar Cyclooctatetraene Bridge in Bis-Metallic Macrocycles: Isolating or Conjugating?”, S. Bhowmik, M. Kosa, A. Mizrahi, N. Fridman, M. Saphier, A. Stanger, and Z. Gross. 2017, Inorganic chemistry 56 (4), 2287-2296.‏
• “Ultrafast Dynamics of Sb-Corroles: A Combined Vis-Pump Supercontinuum Probe and Broadband Fluorescence Up-Conversion Study”, C. Zahn, T. Stensitzki, M. Gerecke, A. Berg, A Mahammed, Z. Gross, and K. Heyne. 2017, Molecules. 22 (7), 1174.‏
• “Dioxygen bound cobalt corroles”, K. Mittra, B. Mondal, A. Mahammed, Z. Gross, and A Dey. 2017, Chemical Communications. 53 (5), 877-880.‏

2016

• “Oxidation catalysis via visible-light water activation of a [Ru(bpy)3]2+ chromophore BSA-metallocorrole couple”,C. Herrero, A. Quaranta, R. Ricoux, A. Trehoux, A. Mahammed, Z. Gross, F. Banse, and J.-P. Mahy. 2016, Dalton Trans. 45, 706-710.
• “Development of singlet oxygen luminescence kinetics during the photodynamic inactivation of green algae”,T. Bornhuetter, J. Pohl, C. Fischer, I. Saltsman, A. Mahammed, Z. Gross, and B. Roeder. 2016, Molecules. 21, 485 (doi:10.3390/molecules21040485), 11 pages.
• “Photometric Detection of Nitric Oxide Using a Dissolved Iron(III) Corrole as Sensitizer”, S. Fischer, J. Vestfrid, A. Mahammed, F. Herrmann-Westendorf, M. Schulz, J. Müller, O. Kiesewetter, B. Dietzek, Z. Gross, and M. Presselt. 2016, ChemPlusChem. 81, 594 – 603.
• “Intriguing Physical and Chemical Properties of Phosphorus Corroles” , J. Vestfrid, R. Kothari, A. Kostenko, I. Goldberg, B. Tumanskii, and Z. Gross. 2016, Inorg. Chem. 55, 6061-6067.
• “Ultrafast electronic and vibrational dynamics in brominated Aluminum corroles: Energy relaxation and triplet formation”,T. Stensitzki, Y. Yang, A. Berg, A. Mahammed, Z. Gross, and K. Heyne. 2016, Structural Dynamics 3, 043210-1 – 043210-9 (http://dx.doi.org/10.1063/1.4949363).
• “Metallocorroles as Non-Precious Metal Electrocatalysts for Highly Efficient Oxygen Reduction in Alkaline Media”, N. Levy, A. Mahammed, A. Friedman, B. Gavriel, Z. Gross, and L. Elbaz. 2016, ChemCatChem. 8, 2832-2837.
• “Metallocorroles as Electrocatalysts for the Oxygen Reduction Reaction (ORR)”,A. Mahammed and Z. Gross. 2016, Israel J. Chem. 56, 756– 762 (invited review in honor of H.B. Gray’s 80th birthday).
• “Neurorescue by a ROS Decomposition Catalyst”,M. Soll, O. Bar-am, A. Mahammed, I. Saltsman, S. Mandel, M. Youdim, and Z. Gross. 2016, ACS Chem. Neuroscience. 7, 1374−1382.
• “Understanding and predicting the potency of ROS-based enzyme inhibitors, exemplified by naphthoquinones and ubiquitin specific protease-2”, P. Gopinath, A. Mahammed, S. Ohayon, Z. Gross and A. Brik. 2016, Chem. Science. 7, 7079-7086 (Edge Article).
• “One pot conversion of fluorophores to phosphorophores”,M. Soll, K. Sudhakar, N. Fridman A. Müller, B. Röder, and Z. Gross. 2016, Org. Lett. 18, 5840-5843.

2015

• “Catalytic Antioxidant Therapy by Metallodrugs: Lessons from Metallocorroles”, A. Haber and Z. Gross. 2015, Chem. Commun. 51, 5812-5827.
• “Reaction mechanism for the highly efficient catalytic decomposition of peroxynitrite by the amphipolar iron(III) corrole 1-Fe”,S. Avidan-Shlomovich and Z. Gross. 2015, Dalton Trans. 44, 12234 – 12243.
• “Porphyrins and Corroles with 2,6-Pyrimidyl Substituents”,I. Saltsman, I. Goldberg, and Z. Gross. 2015, Org. Lett. 17, 3214-3217.
• “Corrole-Decorated Porphyrin Dendrimer and its Selective Metallation”,N. Semenishyn, A. Mahammed and Z. Gross. 2015, Eur. J. Org. Chem. 5079-5083.
• “A corrole nanobiologic elicits tissue-activated MRI contrast enhancement and tumor-targeted toxicity”,J. D. Sims, J. Y. Hwang, S. Wagner, F. Alonso-Valenteen, C. Hanson, J. M. Taguiam, R. Polo, I. Harutyunyan, G. Karapetyan, K. Sorasaenee, A. Ibrahim, E. Marban, R. Moats, H. B. Gray, Z. Gross, and L. K. Medina-Kauwe. 2015, J. Controlled Release 217, 92-101.
• “Metallocorroles as photocatalysts for driving endergonic reactions, exemplified by bromide to bromine conversion”, A. Mahammed and Z. Gross. 2015, Angew. Chem. 54, 12370–12373.
• “Computational predictions of corroles as a class of Hsp90 inhibitors”,R. D. Teo, S. S. Dong, Z. Gross, H. B. Gray, and W. A. Goddard. 2015,  Mol. BioSys.  11, 2907-2914.
• “Metallocorroles as Non-Precious Metal Catalysts for Oxygen Reduction”,N. Levy, A. Mahammed, M. Kosa, D. T. Major, Z. Gross, and L. Elbaz. 2015, Angew. Chem. 54, 14080 –14084.

 

2014

•  “The Cobalt Corrole Catalyzed Hydrogen Evolution Reaction: Surprising Electronic Effects and Characterization of Key Reaction Intermediates”, A. Mahammed, B. Mondal, A. Rana, A. Dey, and Z. Gross. 2014, Chem. Commun. 50, 2725-2727.
• “Photoinactivation of mold fungi spores by newly developed charged corroles”, A. Preuß, I. Saltsman, A. Mahammed, M. Pfitzner, I. Goldberg, Z. Gross and B. Röder. 2014, J. Photochem. Photobiol. B: Biol. 133, 39-46.
• “Tuning the photophysical and redox properties of metallo-corroles by iodination”, J. Vestfrid, I. Goldberg, and Z. Gross. 2014, Inorg. Chem. 53, 10536.
• “Cytotoxic and Cytostatic Gold(III) Corrole”, R. D. Teo, H. B. Gray, P. Lim, J. Termini, E. Domeshek, and Z. Gross. 2014, Chem. Commun. 50, 13789-13792.
• “Inhibition of green algae growth by corrole-based photosensitizers”, J. Pohl, I. Saltsman, A. Mahammed, Z. Gross and B. Röder. 2014, J. Appl. Microbiol. 118, 305-312.

2013

•  “Lanthanide-corrole conjugates”,N. Semenishyn and Z. Gross. 2013, Dalton Trans. 42, 3775-3778.
•  “Cobalt Corrole Catalyst for Efficient Hydrogen Evolution Reaction from H2O under Ambient Conditions: Reactivity, Spectroscopy and DFT Calculations”,B. Mondal, K. Sengupta, A. Mahammed, M. Botoshansky, S. G. Dey, Z. Gross, and A. Dey. 2013, Inorg. Chem. 52, 3381-3387.
•  “Intriguing Chemistry of Molybdenum Corroles”,I. Nigel-Etinger, I. Goldberg, and Z. Gross. 2013, Inorg. Chem. 52, 4139-4341.
• “Combating diabetes complications by 1-Fe, a corrole-based catalytic antioxidant”,A. Haber, I. Angel, A. Mahammed and Z. Gross. 2013, J. Diabetes Complications 27, 316-321.
•  “Expected and Unexpected Transformations of manganese(III) tris(4-nitrophenyl)corrole”, P. Singh, G. Dutta, I. Goldberg, A. Mahammed and Z. Gross. 2013, Inorg. Chem. 52, 9349-9355.
•  “Allosteric inhibitors of HMG-CoA reductase, the key enzyme involved in cholesterol biosynthesis”,A. Haber, A. Abu-Younis Ali, M. Aviram, and Z. Gross. 2013, Chem. Commun. 49, 10917-10919. Highlighted in Chemistry World (rsc.org/chemistryworld/2013/08/antioxidant-statin-alternative-cholesterol).

2012

•  “Four-Electron Oxygen Reduction by Brominated Cobalt Corrole”,A. Schechter, M. Stanevsky, A. Mahammed, and Z. Gross. 2012, Inorg. Chem. 51, 22-24.
• “Variables that influence cellular uptake and cytotoxic/cytoprotective effects of macrocyclic iron complexes”,A. Haber, M. Aviram, and Z. Gross. 2012, Inorg. Chem. 51, 28-30.
• “Investigating photoexcitation-induced mitochondrial damage by chemotherapeutic corroles using multimode optical imaging”, J. Y. Hwang, D. J. Lubow, J. D. Sims, H. B. Gray, A. Mahammed, Z. Gross, L. K. Medina-Kauwe, and D. L. Farkas. 2012, J. Biomed. Opt. 17, 015003-1 – 015003-11.
• “Assignment of Aluminum Corroles Absorption Bands to Electronic Transitions by Femtosecond Polarization Resolved VIS-Pump IR-Probe Spectroscopy”, Y. Yang, D. Jones, T. von Haimberger, M. Linke, L. Wagnert, A. Berg, H. Levanon, A. Zacarias, A. Mahammed, Z. Gross, and K. Heyne. 2012, J. Phys. Chem. A. 116, 1023-1029.
• “5d Early Transition-Metal Corroles: a Trioxo-Bridged Binuclear Tungsten(VI) Derivative”,  I. Nigel-Etinger, I. Goldberg, and Z. Gross. 2012, Inorg. Chem. 51, 1983-1985.
• “Differential Cytostatic and Cytotoxic Action of Metallocorroles Against Human Cancer Cells: Potential Platforms for Anticancer Drug Development”, P. Lim, A. Mahammed, Z. Okun, I. Saltsman, Z. Gross, H. B. Gray, and J. Termini. 2012, Chem. Res. Toxicol. 25, 400-409.
• “Superoxide signaling and cell death in retinal ganglion cell axotomy: Effects of metallocorroles”, M.-M. Catrinescu, W. Chan, A. Mahammed, Z. Gross, and L. A. Levin. 2012, Exp. Eye Res. 97, 31-35.
• “Iron complexes of tris(4-nitrophenyl)corrole, with emphasis on the (nitrosyl)iron complex”, P. Singh, I. Saltsman, A. Mahammed, I. Goldberg, B. Tumanskii, and Z. Gross. 2012, J. Porphyrins Phthalocyanines  16, 663-673.
• “Fine Tuning the Reactivity of Corrole-Based Catalytic Antioxidants”, Z. Okun and Z. Gross. 2012, Inorg. Chem. 51, 8083-8090.
• “Chlorinated Corroles”,A. Mahammed, M. Botoshansky, and Z. Gross. 2012, Dalton Trans. 41, 10938-10940.
• “A Multimode Optical Imaging System for Preclinical Applications In Vivo: Technology Development, Multiscale Imaging and Chemotherapy Assessment”, J. Y. Hwang, S. Wachsmann-Hogiu, V. K. Ramanujana, J. Ljubimova, Z. Gross, H. B. Gray, L. K. Medina-Kauwe, and D. L. Farkas. 2012, Molecular Imaging & Biology 14, 431-442.
• “Time-Resolved EPR and Phosphorescence Studies of the Lowest Excited Triplet States of Rh(III) Corrole Complexes”, M. Tanabe, H. Matsuoka, Y. Ohba, S. Yamauchi, K. Sugisaki, K. Toyota, K. Sato, T. Takui, I. Goldberg, I. Saltsman, and Z. Gross. 2012, J. Phys. Chem. A. 116, 9662.
• “Photoexcitation of tumor-targeted corrole induces singlet oxygen-mediated augmentation of cytotoxicity”, J. Y. Hwang, J. Lubow, D. Chu, J. Sims, F. Alonso-Valenteen, H. B. Gray, Z. Gross, D. L. Farkas, and L. K. Medina-Kauwe. 2012, J. Controlled Release 163, 368-373.

2011

• “Multimodal wide-field two-photon excitation imaging: characterization of the technique for in vivo applications”,J. Y. Hwang, S. Wachsmann-Hogiu, V. K. Ramanujan, A. G. Nowatzyk, Y. Koronyo, L. K. Medina-Kauwe, Z. Gross, H. B. Gray, and D. L. Farkas. 2011, Biomed. Opt. Exp. 2, 356-364.
• “Protecting the beneficial functionality of lipoproteins by 1-Fe, a corrole-based catalytic antioxidant”,  A. Haber, M. Aviram, and Z. Gross. 2011, Chemical Science 2, 295-302. For a highlight of this work, see: http://www.rsc.org/Publishing/ChemScience/Volume/2010/12/iron_complex.asp.
• “Electronic Structures of Group 9 Metallocorroles with Axial Ammines”,S. S. Dong, R. J. Nielsen, J. H. Palmer, H. B. Gray, Z. Gross, S. Dasgupta, and W. A. Goddard III. 2011, Inorg. Chem. 50, 764-770.
• “Coordination chemistry of corroles with focus on main group elements”,I. Aviv-Harel and Z. Gross ,2011, ord. Chem. Rev. 255, 717-736.
• “Cellular uptake and organ accumulation of amphipolar metallocorroles with cytoprotective and cytotoxic properties”, Z. Okun, L. Kuperschmidt, M. B. H. Youdim and Z. Gross. 2011, Anti Cancer Agents in Medicinal Chemistry. 11, 380-384.
• “Ratiometric spectral imaging for fast tumor detection and chemotherapy monitoring in vivo”,J. Y. Hwang, Z. Gross, H. B. Gray, L. K. Medina-Kauwe, and D. L. Farkas. 2011,  J. Biomed. Opt. 16, 066007-1 – 066007-6.
• “The importance of developing metal complexes with pronounced catalase-like activity”,A. Mahammed and Z. Gross. 2011, Cat. Sci.Tech. 1, 535-540 (Perspective article).
• “Covalent versus non-covalent (biocatalytic) approaches for enantioselective sulfoxidation catalyzed by corrole metal complexes”,I. Nigal-Etinger, A. Mahammed, and Z. Gross. 2011, Cat. Sci.Tech. 1, 578-581.
• “Iodinated Aluminum(III) Corroles with Long-Lived Triplet Excited States”,J. Vestfrid, M. Botoshansky, J. H. Palmer, A. C. Durrell, H. B. Gray, and Z. Gross. 2011, J. Am. Chem. Soc. 133, 12899–12901.
• “Nitrogen Insertion into a Corrole Ring: Iridium Monoazaporphyrins”,J. H. Palmer, T. Brock-Nannestad, A. Mahammed, A. C. Durrell, D. VanderVelde, S. Virgil, Z. Gross, and H. B. Gray. 2011, Angew Chem. 50, 9433-9436.
• “Gold(I) and Gold(III) Corroles”,E. Rabinovich, I. Goldberg, and Z. Gross. 2011, Chem. Eur. J. 17, 12294-12301.
• “A mechanistic study of tumor-targeted corrole toxicity”, J. Y. Hwang, J. Lubow, D. Chu, J. Ma, H. Agadjanian, J. Sims, H. B. Gray, Z. Gross, D. L. Farkas, and L. K. Medina-Kauwe ,2011, ACS Mol. Pharmaceutics. 8, 2233-2243.
• “Effect of bromination on the electrochemistry, frontier orbitals, and spectroscopy of metallocorroles”, A. Mahammed, B. Tumanskii, and Z. Gross, 2011,  J. Porphyrins Phthalocyanines. 15, 1275-1286.

 

2010

• “Metallocorroles as cytoprotective agents against oxidative and nitrative stress in cellular models of neurodegeneration” , L. Kupershmidt , Z. Okun, T. Amit , S. Mandel , I. Saltsman, A. Mahammed, O. Bar-Am , Z. Gross, and M. B. H. Youdim. 2010, J. Neurochem. 113, 363-373.
• “Time-resolved EPR study of rhodium(III) corrole excited states”,  L. Wagnert, A. Berg, I. Saltsman, Z. Gross, and V. Rozenshtein. 2010, J. Phys. Chem. A. 2059-2072.
• “Chemiluminescence Enhancement and Energy Transfer by the Aluminum(III) Complex of an Amphiphilic/Bipolar and Cell-Penetrating Corrole”, A. Mahammed and Z. Gross. 2010, Dalton Trans. 39, 2998-3000.
• “Neuroprotection against superoxide anion radical by metallocorroles in cellular and murine models of optic neuropathy”,A. Kanamori, M.-M. Catrinescu, A. Mahammed, Z. Gross, and L. A. Levin. 2010, J. Neurochem. 114, 488-498.
• “Near-IR Phosphorescence of Iridium(III) Corroles at Ambient Temperature”, J. H. Palmer, A. C. Durrell, Z. Gross, J. R. Winkler, and H. B. Gray. 2010, J. Am. Chem. Soc. 132, 9230-9231.
• “Water-soluble manganese(III) corroles and corresponding (nitrido)manganese(V) complexes”, I. Saltsman, I. Goldberg and Z. Gross. 2010, J. Porphyrins Phthalocyanines. 14, 615-620.
• “Highly Efficient Catalase Acitivity of Metallcorroles”, A. Mahammed and Z. Gross. 2010, Chem. Commun. 46, 7040-7042.
• “Photoexcited Triplet State Properties of Brominated and non-Brominated Ga(III)-Corroles as Studied by Time-Resolved EPR”, L. Wagnert, R. Rubin, A. Berg, A. Mahammed, Z. Gross and H. Levanon. 2010, J. Phys. Chem. B. 114, 14303-14308.
• “Oxygen Atom Transfer Reactions from Isolated (Oxo)manganese(V) Corroles to Sulfides”, A. Kumar, I. Goldberg, M. Botoshansky, Y. Buchman, and Z. Gross. 2010, J. Am. Chem. Soc. 132, 15233-15245.
• “Chlorosulfonated Corrole: a versatile synthon for advanced materials”,  A. Mahammed and Z. Gross. 2010, J. Porphyrins Phthalocyanines  14, 911-923. Selected for coverpage.

 

2009

• “Fe L- and K-edge XAS of Low-Spin Ferric Corrole: Bonding and Reactivity Relative to Low-Spin Ferric Porphryin”, R. K. Hocking, S. DeBeer George, Z Gross, F. A. Walker, K. O. Hodgson, B. Hedman, and E. I. Solomon. 2009,  Inorg. Chem. 48, 1678-1688.
• “Ground and Excited States Dynamics of Aluminum and Gallium Corroles”, D. Kowalska, X. Liu, U. Tripathy, A. Mahammed, Z. Gross, S. Hirayama and R. P. Steer. 2009, Inorg. Chem. 48, 2670-2676.
• “Tumor detection and elimination by a targeted gallium corrole”, H. Agadjanian, J. Ma, A. Rentsendorj, V. Valluripalli, J. Youn Hwang, A. Mahammed, D. L. Farkas, H. B. Gray, Z. Gross, and L. K. Medina-Kauwe. 2009, Proc. Nat. Acad. Sci. 106, 6100-6105.
• “Aura of corroles”, I. Aviv and Z. Gross. 2009, Chem. Eur. J. 15, 8382-8394 (Concept Article).
• “Superoxide Dismutase Activity of Corrole Metal Complexes”, M. Eckshtain, I. Zilbermann, A. Mahammed, I. Saltsman, Z. Okun, E. Maimon, H. Cohen, D. Meyerstein, and Z. Gross. 2009, Dalton Trans. 7879-7882.
• “Structures and Reactivity Patterns of Group 9 Metallocorroles”,  J. H. Palmer, A. Mahammed, K. M. Lancaster, Z. Gross, and H. B. Gray. 2009, Inorg. Chem. 48, 9308-9315.
• “Manganese corroles prevent intracellular nitration and subsequent death of insulin producing cells”, Z. Okun, L. Kupershmidt, T. Amit, S. Mandel, O. Bar-Am, M. B. H. Youdim and Z. Gross. 2009,  ACS Chem. Biol. 4, 910-914.

 

2008

• “Microwave-assisted synthesis of non-substituted tripyrrane, tetrapyrrane, and pentapyrrane”,  I. Saltsman and Z. Gross. 2008, Tetrahedron Lett. 49, 247-249.
• “Coroles that bind with high affinity to both apo and holo Transferrin”, A. Haber, H. Agadjanian, L. K. Medina-Kauwe and Z. Gross. 2008,  J. Inorg. Biochem. 102, 446-457.
• “The Groves-Spiro Dioxomanganese(V) Story”, Z. Gross. 2008, Angew. Chem. Int. Ed. 47, 2737 – 2739 (Highlight article).
• “Iron(III) corroles and porphyrins as superior catalysts for the reactions of diazoacetates with nitrogen- or sulfur-containing nucleophilic substrates: synthetic uses and mechanistic insights”, Aviv and Z. Gross. 2008, I. Aviv and Z. Gross, Chem. Eur. J. 14, 3995-4005.
• “Facile Synthesis of Ortho-Pyridyl Substituted Corroles and Molecular Structures of Analogous Porphyrins”,  I. Saltsman, M. Botoshansky and Z. Gross. 2008, Tetrahedron Lett. 49, 4163–4166.
• “Photophysics of Soret-Excited tetrapyrroles in solution. III. Porphyrin Analogues: Aluminum and gallium corroles”, X. Liu, A. Mahammed, U. Tripathy, Z. Gross and R. P. Steer. 2008, Chem. Phys. Lett. 459, 113-118.
• “Large Field of View Scanning Fluorescence Lifetime Imaging System for Multimode Optical Imaging of Small Animals”, J. Y. Hwang, H. Agadjanian, L. K. Medina-Kauwe, Z. Gross, H. B. Gray, K. Sorasaenee, and D. L. Farkas. 2008, Proc. SPIE.  6859, 68590G (8 pages, DOI:10.1117/12.769305).
• “Probing the Photoexcited States of Rhodium Corroles by Time-Resolved Q-Band EPR. Observation of Strong Spin-Orbit Coupling Effects”, V. Rozenshtein, L. Wagnert, A. Berg, E. Stavitski, T. Berthold, G. Kothe, I. Saltsman, Z. Gross, and H. Levanon. 2008, J. Phys. Chem. A. 112, 5338-5343.
• “Iridium Corroles”, J. H. Palmer, M. W. Day, A. D. Wilson, L. M. Henling, Z. Gross, and H. B. Gray. 2008, J. Am. Chem. Soc. 130, 7786-7787.
• “Amphiphilic/bipolar metallocorroles that catalyze the decomposition of reactive oxygen and nitrogen species, rescue lipoproteins from oxidative damage, and attenuate atherosclerosis in mice”, A. Haber, A. Mahammed, B. Fuhrman, N. Volkova, R. Coleman, T. Hayek, M. Aviram and Z. Gross. 2008, Angew. Chem. Int. Ed. 47, 7896-7900.
• “The Electronic Structure of Iron Corroles: A Combined Experimental and Quantum Chemical Study”, S. Ye, T. Tuttle, E. Bill, L. Simkhovich, Z. Gross, W. Thiel, and F. Neese. 2008, Chem. Eur. J. 14, 10839-10851.

 

2007

• “Porphine and Pyrrole-substituted Porphyrin from Cyclocondensation of Tripyrrane with Mono-substituted Pyrroles”, I. Saltsman, I. Goldberg, Y. Balasz, and Z. Gross. 2007, Tetrahedron Lett. 48, 239-244.
• “Amphiphilic Aluminum(III) and Gallium(III) Corrole”,K. Sorasaenee, P. Taqavi, L. M. Heling, H. B. Gray, E. Tkachenko, A, Mahammed, and Z. Gross. 2007, J. Porphyrins Phthalocyanines 11, 189-197.
• “DNA Binding and Catalytic Properties of Positively-Charged Corroles”, Z. Gershman, I. Goldberg and Z. Gross. 2007, Angew. Chem. Int. Ed. 46, 4320-4324.
• “Corrole-based Applications”, I. Aviv and Z. Gross. 2007, Chem. Commun, 1987-1999 (Feature Article).
• “Structure-function relationship in antimony corrole photosensitizers. Time-resolved electron paramagnetic resonance and optical study”, L. Wagnert, A. Berg, E. Stavitski, I. Luobeznova, Z. Gross, and H. Levanon. 2007, J. Porphyrins Phthalocyanines 11, 645-651.

 

2006

• “Synthesis and Full Characterization of Molybdenum and Antimony Corroles and Utilization of the Latter Complexes as Very Efficient Catalysts for Highly Selective Aerobic Oxygenation Reactions”, I. Luobeznova, M. Raizman, I. Goldberg, and Z. Gross. 2006, Inorg. Chem. 45, 386-394.
• “Specific Delivery of Corroles to Cells via Noncovalent Conjugates with Viral Proteins”, H. Agadjanian, J. J. Weaver, A. Mahammed, A. Rentsendorj, S. Bass, J. Kim, I. J. Dmochowski, R. Margalit, H B. Gray, Z. Gross, and L. K. Medina-Kauwe. 2006, Pharmaceutical Res. 23, 367-377.
• “Iron Corroles and Porphyrins as Very Efficient and Highly Selective Catalysts for the Reactions of -Diazo Esters with Amines”, I. Aviv and Z. Gross, 2006, Synlett, 951-953.
• “Synthesis, Spectroscopy, and Structures of Chiral Rhodium(I) Corrole Complexes”, I. Saltsman, Y. Balazs, I. Goldberg, and Z. Gross. 2006, J. Mol. Cat. A: Chemical  251, 263-269.
• “How do corroles stabilize high valent metals?”, Z. Gross and H. B. Gray. 2006, Comm. Inorg. Chem 27, 61-72.
• “Synthesis of a Corrole with Small and Electron-withdrawing Substitutents, 5,15-bistrifluromethyl- 10-pentafluorophenylcorrole”, R. Goldschmidt, I. Goldberg, Y. Balazs, and Z. Gross. 2006, J. Porphyrins Phthalocyanines 10, 76-86.
• “Iron and Manganese corroles are very potent catalysts for decomposition of peroxynitrite”, A. Mahammed and Z. Gross. 2006, Angew. Chem. Int. Ed. 45, 6544-6547.
• “Iron Porphyrins Catalyze the Synthesis of Non-Protected Amino Acid Esters from Ammonia and Diazoacetates”, I. Aviv and Z. Gross. 2006, Chem. Commun. 4477-4479.
• “Exploring the photoexcited triplet states of aluminum and tin corroles by time-resolved Q-band EPR”,  L. Wagnert, A. Berg E. Stavitski, T. Berthold, G. Kothe, I. Goldberg, A. Mahammed, L. Simkhovich, Z. Gross, and H. Levanon. 2006, Appl. Magn. Reson. 30, 591-604.
• “Corrole-Sensitized TiO2 Solar Cells”, D.Walker, S. Chappel, A. Mahammed, B. S. Brunschwig, J. R. Winkler, H. B. Gray, A. Zaban, and Z. Gross. 2006, J. Porphyrins Phthalocyanines 10, 1259-1262.

 

2005

• “Albumin-Conjugated Corrole Metal Complexes: Extremely Simple, Yet very Efficient Biomimetic Oxidation Systems”, A. Mahammed and Z. Gross. 2005, J. Am. Chem. Soc. 127, 2883-2887.
• “Nitrogen Atom Transfer between Manganese Complexes of Salen, Porphyrin, and Corrole and Characterization of a (Nitrido)manganese(VI) Corrole”, G. Golubkov and Z. Gross. 2005, J. Am. Chem. Soc. 127, 3258-3259.

2004

• “Electronic structures and Reactivities of Copper-Corrole Complexess”, I. Luobeznova, L. Simkhovich, I. Goldberg, and Z. Gross. 2004, Eur. J. Inorg. Chem. 1724-1732.
• “High Resolution NMR Spectroscopic Trends of Corrole Complexes: Assignment Rules of Metal-free, Metallated, and Substituted Corroles”, Y. S. Balazs, I. Saltsman, A. Mahammed, E. Tkachenko, G. Golubkov, J. Levine, and Z. Gross. 2004, Magn. Reson. Chem. 42, 624-635.
• “Electron Spin Dynamics in Photoexcited Diamagnetic and Paramagnetic Corroles”, E. Stavitski, A. Berg, T. Ganguly, A. Mahammed, Z. Gross, and H. Levanon. 2004, J. Am. Chem. Soc 126, 6886-6890.
• “Synthesis, Spectroscopy, and Structures of New Rhodium(I) and Rhodium(III) Corroles and Catalysis Thereby”,  I. Saltsman, L. Simkhovich, Y. S. Balazs, I. Goldberg, and Z. Gross. 2004, Inorg. Chim. Acta 357, 3038-3046.
• “Amphiphilic Corroles Bind Tightly to Human Serum Albumin”, A. Mahammed, H. B. Gray, J. J. Weaver, K. Sorasaenee, and Z. Gross. 2004, Bioconj. Chem. 15, 738-746.
• “Oxidations Catalyzed by Metallocorroles”, Z. Gross and H. B. Gray. 2004, Adv. Syn. Cat. 346, 165-170.
• “Halogeno-Coordinated Iron Corroles”, L. Simkhovich and Z. Gross. 2004, Inorg. Chem.43, 6136-6138.
• “Gallium(III) Corroles”, J. J. Weaver, K. Sorasaenee, M. Sheikh, R. Goldschmidt, E. Tkachenko, Z. Gross, and H. B. Gray. 2004, J. Porphyrins Phthalocyanines 8, 76-81.

 

2003

• “Mono- and Binuclear Ruthenium Corroles: Synthesis, Spectroscopy, Electrochemistry, and Structural Characterization”,  L. Simkhovich, I. Luobeznova, I. Goldberg, and Z. Gross. 2003, Chem. Eur. J. 9, 201-208.
• “Aerobic Oxidations Catalyzed by Chromium Corroles”, A. Mahammed, H. B. Gray, A. E. Meier-Callahan, and Z. Gross. 2003, J. Am. Chem. Soc. 125, 1162-1163.
• “How Acidic are Corroles and Why?”, A. Mahammed, H. B. Gray, J. Weaver, and Z. Gross. 2003, Tetrahedron Lett. 44, 2077-2079.
• ”Easy Preparation of Cobalt Corrole and Hexaphyrin and Isolation of New Oligopyrroles in the Solvent-Free Condensation of Pyrrole with Pentafluorobenzaldehyde”,  L. Simkhovich, I. Goldberg, and Z. Gross. 2003, Org. Lett. 5, 1241-1244.
• “One-step Conversions of a Simple Corrole into Chiral and Amphiphilic Derivatives”, I. Saltsman, I. Goldberg, and Z. Gross. 2003, Tetrahedron Lett. 44, 5669-5673.
• “Chromium(V) and Chromium(VI) Nitrido Complexes of Tris(pentafluorophenyl)corrole”, G. Golubkov and Z. Gross. 2003, Angew. Chem. Int. Ed. 42, 4507-4510.

2002

• “Aluminum Corrolin, a Novel Chlorophyll Analogue”, A. Mahammed and Z. Gross. 2002, m. 88J. Inorg. Bioche, 305-309.
• “Inhibition of Vascular Smooth Muscle Cell Proliferation by a Novel Fibroblast Growth Factor Receptor Antagonist”, A. Segev, D. Aviezer, M. Safran, Z. Gross, and A. Yayon. 2002, Cardiovasc. Res. 53, 232-241.
• “Reduction of Cobalt and Iron Corroles and Catalyzed Photoreduction of CO2”, J. Grodkowski, P. Neta, E. Fujita, A. Mahammed, L. Simkhovich, and Z. Gross. 2002, J. Phys. Chem. A 106, 4772-4778.
• “Structure and Chemistry of N-substituted Corroles and their Rhodium(I) and Zinc(II) Metal-Ion Complexes”, L. Simkhovich, P. Iyer, I. Goldberg, and Z. Gross. 2002, Chem. Eur. J. 8, 2595-2601.
• “Selective Substitution of Corroles: Nitration, Hydroformylation, and Chlorosulfonation”,  I. Saltsman, A. Mahammed, I. Goldberg, E. Tkachenko, M. Botoshansky, and Z. Gross. 2002, J. Am. Chem. Soc. 124, 7411-7420.
• “Iron(III) and Iron(IV) Corroles: Synthesis, Spectroscopy, Structures, and no Indications for Corrole Radicals”,  L. Simkhovich, I. Goldberg, and Z. Gross. 2002, Inorg. Chem.  41, 5433-5439.
• “The Effects of Bulky ortho-Aryl Substituents in Corroles, Tested by X-ray Crystallography of the Rhodium Complexes and Catalysis thereby”, L. Simkhovich, I. Goldberg, and Z. Gross. 2002, J. Porphyrins Phthalocyanines 6, 439-444.
• “Selective Sulfonation and Deuteration of Free-base Corroles”, Z. Gross and A. Mahammed. 2002, J. Porphyrin Phthalocyanines  6, 553-555.

 

2001

• “Synthesis and Characterization of Germanium, Tin, Phosphorous, Iron, and Rhodium Complexes of Tris(pentafluorophenyl)corrole, and the Utilization of the Iron and Rhodium Corroles as Cyclopropanation Catalysts”, L. Simkhovich, A. Mahammed, I. Goldberg, and Z. Gross. 2001, Chem. Eur. J. 7, 1041-1055.
• “High Valent Manganese Corroles and the First Perhalogenated Corrole-Based Catalyst”, G. Golubkov, J. Bendix, H. B. Gray, A. Mahammed, I. Goldberg, A. J. DiBilio, and Z. Gross. 2001, Angew. Chem. Int. Ed. Eng.40, 2132-2134.
• “Facile Synthesis of a Novel Sapphyrin and its Rhodium(I) Complex”, L. Simkhovich, S. Rosenberg, and Z. Gross. 2001, Tetrahedron Lett. 42, 4929-4931.
• “High Valent Corrole Metal Complexes”, Z. Gross. 2001, J. Biol. Inorg. Chem. 6, 733-738.
• “Synthesis and Structural Characterization of a Novel Covalently-Bound Corrole Dimer “, A. Mahammed, I. Giladi, I. Goldberg, and Z. Gross. 2001, Chem. Eur. J. 7, 4259-4265.
• “Iron(IV) Corroles are Potent Catalysts for Aziridination of Olefins by Chloramine-T”,  L. Simkhovich and Z. Gross. 2001, Tetrahedron Lett. 42, 8089-8092.
• “Highly Selective Chlorosulfonation of Tris(pentafluorophenyl)corrole as a Synthetic Tool for the Preparation of Amphiphilic Corroles and Metal Complexes of Chiral Planarity”, A. Mahammed, I. Goldberg, and Z. Gross. 2001,Org. Lett. 3, 3443-3446.
• “What is the Difference Between the Manganese Porphyrin and Corrole Analogs of Cytochrome P450’s Compound I”, S.P. de Visser, F. Ogliaro, Z. Gross and S. Shaik. 2001, Chem. Eur. J. 7, 4954-4960.
• “Chromium Corroles in Four Different Oxidation States”, A. E. Meier-Callahan, A. J. Di Bilio, L. Simkhovich, A. Mahammed, I. Goldberg, H. B. Gray, and Z. Gross. 2001, Inorg. Chem. 40, 6788-6793.

 

2000

• “Porphyrin Analogues as Novel Antagonists of Fibroblast Growth Factor and Vascular Endotherial Growth Factor Receptor Binding that Inhibit Endothelial Cell Proliferation, Tumor Progression, and Metastasis”, D. Aviezer, S. Cotton, M. David, A. Segev, N. Khaselev, N.Galili, Z. Gross, and A. Yayon. 2000, Cancer Research 60, 2973-2980.
• “Coordination Chemistry of the Novel 5,10,15-tris(pentafluorophenyl)corrole: Synthesis, Spectroscopy, and Structural Characterization of its Cobalt(III), Rhodium(III), and Iron(IV) Complexes”, L. Simkhovich, N. Galili, I. Saltsman, I. Goldberg, and Z. Gross. 2000, Inorg. Chem. 39, 2704-5.
• “First Syntheses and X-ray Structures of a Meso-alkyl Substituted Corrole and its Ga(III) Complex”, L. Simkhovich, I. Goldberg, and Z. Gross. 2000, J. Inorg. Biochem. 80, 235-238.
• “Stabilization of High-Valent Metals by Corroles: Oxo[Tris(pentafluorophenyl)corrolato]chromium(V)”, A. E. Meier-Callahan, H. B. Gray, and Z. Gross. 2000, Inorg. Chem., 39, 3605-3607.
• “Epoxidation Catalysis by a Manganese(III) Corrole and Isolation of an Oxomanganese(V) Corrole”, Z. Gross, G. Golubkov, and L. Simkhovich. 2000, Angew. Chem. Int. Ed. Eng. 39, 4045-4047.
• “High Field (High Frequency) EPR Spectroscopy and Structural Characterization of a Novel Manganese(III) corrole”, J. Bendix, G. Golubkov, H. B. Gray, and Z. Gross. 2000, J. Chem. Soc., Chem. Commun. 1957-1958.
• “Structural, Electrochemical, and Photophysical Properties of Gallium(III) 5,10,15-tris(pentafluorophenyl)corrole”, J. Bendix, I. J. Dmochowski, H. B. Gray, A. Mahammed, L. Simkhovich, and Z. Gross. 2000, Angew. Chem. Int. Ed. Eng. 39, 4048-4051.

1999

• “Metalloporphyrin Catalyzed Asymmetric Cyclopropanation of Olefins”, Z. Gross, N. Galili, and L. Simkhovich. 1999, Tetrahedron Lett. 40, 1571-4.
• “Dual Role of Pyridine N-oxides in Ruthenium Porphyrin Catalyzed Asymmetric Epoxidation of Olefins.”, Z. Gross and S. Ini. 1999, Inorg. Chem. 38, 1446-9.
• “Corroles, Ligands of the Future”, Z. Gross, N. Galili, and L. Simkhovich. 1999, J. Inorg. Biochem. 74, 27.
• “The First Direct Synthesis of Corroles from Pyrrole”, Z. Gross, N. Galili, and I. Saltsman. 1999, Angew. Chem. Int. Ed. Eng. 38, 1427-9.
• “First Catalysis by Corrole Metal Complexes: Epoxidation, Hydroxylation, and Cyclopropanation”,  Z. Gross, L. Simkhovich, and N. Galili. 1999,  J. Chem. Soc., Chem. Commun. 599-600.
• “Novel Reactivities of Iodosylbenzene in the Catalytic Oxygenation of Olefins”,  Z. Gross and A. Mahammed. 1999, J. Mol. Cat.  142, 367-372.
• “N-Substituted Corroles, a Novel Class of Chiral Ligands”, Z. Gross and N. Galili. 1999, Angew. Chem. Int. Ed. Eng. 38, 2366-2369.
• “Solvent-Free Condensation of Pyrrole and Pentafluorobenzaldehyde: A Novel Synthetic Pathway to Corrole and Oligopyrromethenes”, Z. Gross, N. Galili, L. Simkhovich, I. Saltsman, M. Botoshansky, D. Bläser, R. Boese, and I. Goldberg. 1999, Org. Lett. 11, 599-602.
• “Asymmetric Catalysis by a Chiral Ruthenium Porphyrin: Epoxidation, Hydroxylation and Partial Kinetic Resolution of Hydrocarbons”, Z. Gross and S. Ini. 1999, Org. Lett.  1, 2077-2080.

 

1998

• “Halogen to Metal p-Donation in Metalloporphyrins”, Z. Gross, A. Mahammed, and C. M. Barzilay. 1998, J. Chem. Soc., Chem. Commun. 1105-6.
• “Hydroxylation of Simple Alkanes by Iodosylbenzene is Catalyzed more Efficiently by Second than by Third Generation Iron(III) Porphyrins”,  Z. Gross and L. Simkhovich. 1998, Tetrahedron Lett.  39, 8171-4.
• “Inhibition of Vascular Smooth Cell Proliferation by a Novel Fibroblast Growth Factor Receptor Antagonists.”, A. Segev, D. Aviezer, Z. Gross, and A. Yayon. 1998, 70th Am. Heart Assoc. A104549.

 

1997

• “Ozone as Primary Oxidant in Iron(III) Porphyrin Catalyzed Hydroxylation of Hydrocarbons”, Z. Gross and L. Simkhovich. 1997, J. Mol. Cat. 117, 243-8.
• “The First Metal Chelation by a Neutral Porphyrin Analogue”,  Z. Gross, I. Saltsman, R. P. Pandian, and C. M. Barzilay. 1997, Tetrahedron Lett. 38, 2383-6.
• “Spin Transition in a Manganese(III) Porphyrin Cation Radical, Its Transformation to a Dichloromanganese(IV) Porphyrin, and Chlorination of Hydrocarbons by the Latter”,  L. Kaustov, M. E. Tal, A. I. Shames, and Z. Gross. 1997, Inorg. Chem.36, 3503-3511.
• “Remarkable Effects of Metal, Solvent, and Oxidant on Metalloporphyrin Catalyzed Enantioselective Epoxidation of Olefins”, Z. Gross and S. Ini. 1997, J. Org. Chem.62, 5514-5521.
• “Reaction Profile of the Epoxidation of Olefins by Oxoiron(IV) Porphyrin Cation Radical Complexes, Models of the Last Step in Cytochrome P-450 Catalysis”, . Gross, S. Nimri, C. M. Barzilay, and L. Simkhovich. 1997, J. Biol. Inorg. Chem. 2, 492-505.
• “Thermodynamic and Kinetic Effects of Axial Ligands in Compound I Analogues of Cytochrome P-450.”, Z. Gross. 1997, FASEB J. 11, A780.

 

1996

• “Self Assembly Assisted Preparation of a Homochiral Porphyrin”, S. Ini, M. Kapon, S. Cohen, and Z. Gross. 1996, Tetrahedron: Asymmetry 7, 659-62.
• “Direct Resonance Raman Evidence for a Trans Influence on the Ferryl Fragment in Models of Compound I Intermediates of Heme Enzymes”, K. Czarnecki, S. Nimri, Z. Gross, L. M. Proniewicz, and J. R. Kincaid. 1996, J. Am. Chem. Soc.118, 2929-35.
• “First Utilization of a Homochiral Ruthenium Porphyrin as Enantioselective Epoxidation Catalyst”, Z. Gross, S. Ini, M. Kapon, and S. Cohen. 1996, Tetrahedron Lett.37, 7325-8.
• “The Effect of Axial Ligands on the Reactivity and Stability of the Oxoferryl Moiety in Model Complexes of Compound I of Heme-dependant Enzymes”, Z. Gross. 1996, J. Biol. Inorg. Chem. 1, 368-71.
• “Iron Porphyrin Catalyzed Hydroxylation of Ethylbenzene by Ozone”, Z. Gross, S. Nimri, and L. Simkhovich. 1996, J. Mol. Cat. 113, 231-8.
• “One-pot Synthesis of Dihalo(porphyrinato)osmium(IV) Complexes. Evidence for Monohalo(carbonyl)osmium(III) Intermediates”, Z. Gross and A. Mahammed. 1996, Inorg. Chem. 35, 7260-3.

 

1995

• “Elucidation of Factors Affecting the Electronic Structures of Magnesium(II) and Zinc(II) Tetraarylporphyrin Cation Radicals”, C. M. Barzilay, S. A. Sibilia, T. G. Spiro, and Z. Gross. 1995, Chem. Eur. J. 1, 222-231.
• “On the Mechanism of Epoxidation and Hydroxylation Catalyzed by Iron Porphyrins. Evidence for Non-Intersecting Reaction Pathways”, J. T. Groves and Z. Gross. 1995, Bioinorganic Chemistry: An Inorganic Perspective of Life, D. P. Kessissoglou, Ed., Kluwer Academic Publishers, Dordtrecht, NATO ASI Series, Vol. 459, 39-47.
• “A Novel Facile Synthesis of Dihalogenoruthenium(IV) Porphyrins”, Z. Gross and C. M. Barzilay, 1995, J. Chem. Soc., Chem. Commun.  1287-8.
• “New Efficient Routes for the Preparation of Deuterated Tetraarylporphyrins”, Z. Gross and L. Kaustov, 1995, Tetrahedron Lett. 36, 3735-6.
• “Seeing the Long Sought Intermediate in the Reaction of Oxoiron(IV) Porphyrin Cation Radicals with Olefins”,  Z. Gross and S. Nimri, 1995, J. Am. Chem. Soc. 117, 8021-2.
• “Tuning the Intramolecular Spin Coupling in Metalloporphyrin Cation Radicals”, C. M. Barzilay, S. A. Sibilia, T. G. Spiro, and Z. Gross, 1995, J. Inorg. Biochem. 59, 517.

 

1994

• “A Pronounced Axial Ligand Effect on the Reactivity of Oxoiron(IV) Porphyrin Cation Radicals.”, Z. Gross and S. Nimri, 1994, Inorg. Chem. 33, 1731-2.
• “Preparation and Reactivity of Oxoiron(IV) Porphyrins.”, J. T. Groves, Z. Gross and M. K. Stern, 1994, Inorg. Chem. 33, 5065 – 5072.
• “Preparation of Bis-Pocket Porphyrins with Carboxylic Acid Synthons.”, Z. Gross and I. Toledano, 1994, J. Org. Chem. 59, 8312-5.

 

1992

• “Curve Crossing Analysis of LFER Data in Michael Addition Reactions.”, Z. Gross and S. Hoz. 1992, Can. J. Chem. 70, 1022 – 1027.
• “Spectroscopic Characterization of Two Types of Tetraarylporphyrin Cation Radicals.”, Z. Gross and C. Barzilay. 1992, Angew. Chem. Int. Ed. Eng. 1992, 31, 1615 – 1617. Angew. Chem. 104, 1672 – 1674.

 

1991

• “Curve Crossing Analysis and Rate – 13C Chemical Shift Correlation in Michael Reaction.”,  Z. Gross and S. Hoz. 1991, Tetrahedron Lett. 32, 5163 – 5166.

 

1988

• “Radical-anionic Nature of the Transition State in the Michael Addition Reaction.”,  Z. Gross and S. Hoz. 1988, J. Am. Chem. Soc.  110, 7489 – 7493.

 

1985

• “Nucleophilicity: The Effect of Charge Delocalization on the Efficiency of Internal Displacements in E1cB Reactions.”,  S. Hoz, Z. Gross and D. Cohen. 1985, J. Org. Chem. 50, 832 – 836.
• “Nucleophilic Attacks on LL (Low LUMO) Substrates. Part 3. Molecular Stacking of 9-methylenefluorene Derivatives as a Source of Zero-order Reactions.”, S. Hoz, Z. Gross and D. Speizman. 1985, J. Chem. Soc., Perkin Trans. 2, 1143 – 1146.