Article
Biochemistry & Molecular Biology
Vaibhav Khanna, John Ewart McGrady
Summary: The study shows strong evidence for static correlation in MC-SCF wavefunctions for three endohedral Mn/Si clusters, indicating that the GAS approach captures more of the static correlation, especially in high-symmetry cases. Important correlating pairs are similar across the series, suggesting that the electronic structure of the endohedral Mn-2 unit is largely independent of the size of the silicon cage.
Article
Chemistry, Physical
Jorge Alfonso Charry Martinez, Matteo Barborini, Alexandre Tkatchenko
Summary: The article introduces an accurate, efficient, and transferable variational ansatz based on a combination of electron-positron geminal orbitals and a Jastrow factor. This ansatz explicitly includes the electron-positron correlations and is optimized using variational Monte Carlo. The approach is applied to calculate binding energies for various atomic and molecular systems, showing improved accuracy compared to previous calculations.
JOURNAL OF CHEMICAL THEORY AND COMPUTATION
(2022)
Article
Chemistry, Physical
Mostafa Torabi, Fatemeh Yaghoobi, Reza Karimi Shervedani, Amirhosein Kefayat, Fatemeh Ghahremani, Parisa Rashidiyan Harsini
Summary: Nanocomposite systems with nanocarriers were synthesized for the treatment and imaging of B16F10 melanoma cells. The systems showed good stability and biocompatibility, and exhibited excellent imaging performance both in vitro and in vivo, with high selectivity towards B16F10 melanoma cells.
COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS
(2022)
Article
Chemistry, Multidisciplinary
Chengjie Sun, Zhaoxuan Yang, Peng Wu, Xiangjie Luo, Kun Liu, Binju Wang, Hongyu Lin, Jinhao Gao
Summary: In this study, multinuclear Mn(II) united-DOTA chelates are shown to have higher inertness and efficiency compared to Gd-based contrast agents. The unusual inertness is attributed to the multiplexed uniting of Mn(II) chelates, as demonstrated by controlled studies on model compounds. In vivo experiments further demonstrate that Mn(II) united-DOTA complexes provide more substantial and persistent contrast enhancement than both Mn-DOTA and Magnevist.
CELL REPORTS PHYSICAL SCIENCE
(2022)
Article
Chemistry, Multidisciplinary
Julia Rienmueller, Andreas Schmidt, Nathan J. Yutronkie, Rodolphe Clerac, C. Gunnar Werncke, Florian Weigend, Stefanie Dehnen
Summary: Lowering the charge of Zintl anions by (element-)organic substituents allows their use as sources of (semi)metal nanostructures. A new strategy was developed using low-coordinate 3d metal complexes as electrophiles, leading to the synthesis of Zintl clusters with uncommon electronic structures and magnetic coupling.
ANGEWANDTE CHEMIE-INTERNATIONAL EDITION
(2022)
Article
Engineering, Marine
Ulrik D. Nielsen, Raphael E. G. Mounet, Astrid H. Brodtkorb
Summary: This paper presents a simple and practical method to tune the transfer function for wave-ship interactions, improving prediction capability.
Article
Environmental Sciences
Bin Yao, Xia Chen, Kun Zhou, Zirui Luo, Peipei Li, Zihui Yang, Yaoyu Zhou
Summary: A novel biochar supported MnFe2O4 (MFB) was synthesized and used for the degradation of p-Arsanilic acid (p-ASA) and the simultaneous adsorption of released inorganic arsenic. The MFB/ persulfate (PS) system showed high efficiency in removing arsenic under a wide range of pH values.
Article
Chemistry, Physical
Milan R. Milovanovic, Jelena M. Zivkovic, Dragan B. Ninkovic, Snezana D. Zaric
Summary: This study investigates the properties of antiparallel water-water interactions and determines the most stable geometry and interaction energy. Compared to classical hydrogen bonds in water dimers, antiparallel water-water interactions are stronger and have more negative interaction energies.
JOURNAL OF MOLECULAR LIQUIDS
(2023)
Article
Nanoscience & Nanotechnology
Qianlin Huang, Puzhen Zhao, Weiwei Wang, Lu Lv, Weiming Zhang, Bingcai Pan
Summary: This study successfully synthesized Co-Fe-doped nanostructured 5-MnO2 catalysts, which exhibited high catalytic activity and robust durability. The co-doping of Co and Fe ions promoted the generation of oxygen vacancies and weakened the strength of the Mn-O bond, increasing the adsorbed oxygen and improving the mobility of lattice oxygen. The obtained catalyst also had a high surface area and three-dimensional mesoporous structure, facilitating diffusion and increasing the number of active sites.
ACS APPLIED MATERIALS & INTERFACES
(2022)
Article
Chemistry, Physical
Remco W. A. Havenith, Ana V. Cunha, Johannes E. M. N. Klein, Francesca Perolari, Xintao Feng
Summary: The study reveals that the C-CO bond in carbon suboxide is a unique bond with a mixture of electron sharing and dative components, along with a high contribution of ionic character.
PHYSICAL CHEMISTRY CHEMICAL PHYSICS
(2021)
Article
Engineering, Environmental
Zheng Fang, Yang Liu, Ping Chen, Daguang Li, Haijin Liu, Zhenjun Xiao, Yixun Zheng, Zifeng Lin, Jin Luo, Wenying Lv, Guoguang Liu
Summary: In this study, carbon quantum dots-doped perylene diimide supramolecular nanofibers were synthesized and demonstrated to have efficient catalytic activity in the photocatalytic degradation of naproxen. The degradation mechanism and influencing factors were investigated, providing fundamental data for the remediation of contaminants in water and wastewater. Additionally, a PDI/CQDs cellulose acetate membrane was synthesized and its stability and efficiency were evaluated under different water conditions.
CHEMICAL ENGINEERING JOURNAL
(2023)
Review
Chemistry, Inorganic & Nuclear
Danfeng Zhao, Xiangjun Li, Kaiyue Zhang, Junzhen Guo, Xiubing Huang, Ge Wang
Summary: Metal-Organic Frameworks (MOFs) are highly versatile catalytic platforms for hydrogenation reactions due to their tunable pore size, structural diversity, large specific surface area, and functional tunability. MOFs can integrate various hydrogenation active sites, including metal nodes, organic ligands, and diverse pore structure-constrained guest species, such as metal nanoparticles. Additionally, MOFs can serve as templates/precursors for the synthesis of porous carbon materials, metal-based compounds, and their composites, leading to single-atom catalysts with superior activity. This review summarizes the progress in MOFs-based materials for catalytic hydrogenation, focusing on preparation strategies, structural design, and the synergy between active sites and structural properties, as well as the theoretical simulation studies of hydrogenation reaction pathways.
COORDINATION CHEMISTRY REVIEWS
(2023)
Article
Chemistry, Physical
Hua Deng, Yuqin Lu, Tingting Pan, Lian Wang, Changbin Zhang, Hong He
Summary: A novel manganese oxide catalyst was developed by incorporating different metals, showing flexible activity in the removal of various volatile organic compounds. The addition of different metal ions resulted in their uniform dispersion in the catalyst and improved catalytic activity.
APPLIED CATALYSIS B-ENVIRONMENTAL
(2023)
Article
Chemistry, Physical
Maria de las Nieves Pina, Jeroni Morey, Antonio Frontera, Antonio Bauza
Summary: In this study, Ag and Au nanoparticles were utilized to capture aromatic VOCs through noncovalent interactions. Computational modeling and thermal desorption experiments confirmed the presence of noncovalent interactions between the nanoparticles and VOCs. These findings are significant for materials science research, expanding the knowledge and usage of Ag and Au nanoparticles, as well as developing new nanomaterials for capturing volatile compounds.
JOURNAL OF MATERIALS CHEMISTRY A
(2023)
Article
Engineering, Environmental
Qianlin Huang, Puzhen Zhao, Lu Lv, Weiming Zhang, Bingcai Pan
Summary: In this study, monolithic MnO2-O-v/CF catalysts were fabricated by the in situ growth of CuFePBA over copper foam followed by a redox-etching route. The as-synthesized catalyst displayed superior low-temperature activity and robust durability for toluene elimination. The study provides new insights into the development of highly active monolithic catalysts for the low-temperature oxidation of VOCs.
ENVIRONMENTAL SCIENCE & TECHNOLOGY
(2023)
Article
Chemistry, Physical
Oskar Weser, Leon Freitag, Kai Guther, Ali Alavi, Giovanni Li Manni
Summary: Stochastic-CASSCF and DMRG procedures were used to quantify the role of electron-correlation mechanisms in an Fe-porphyrin model system. The development of a Stochastic Generalized Active Space Self-Consistent Field method allowed for further assessment of the pi backdonation stabilizing effect. Excitations between metal and ligand orbitals were selectively removed, leading to a quantitative measure of the correlation-enhanced pi backdonation in the triplet state.
INTERNATIONAL JOURNAL OF QUANTUM CHEMISTRY
(2021)
Article
Biochemistry & Molecular Biology
Meagan S. Oakley, Laura Gagliardi, Donald G. Truhlar
Summary: The study utilized CAS and SP wave functions to simulate the bond dissociation of transition metal silicides and predict experimental results, with typical errors of 0.2 eV and 0.3 eV, respectively. The ground and low-lying excited states were explored to predict state ordering for each molecule, and potential energy curves were calculated for comparison to experimental results. English Summary: The study utilized CAS and SP wave functions to simulate the bond dissociation of transition metal silicides and predict experimental results, with typical errors of 0.2 eV and 0.3 eV, respectively.
Article
Chemistry, Multidisciplinary
Hannah Kurz, Gerald Horner, Oskar Weser, Giovanni Li Manni, Birgit Weber
Summary: Three new zinc(II) coordination units were synthesized using planar-directing tetradentate Schiff base-like ligands. The solid-state structures showed a tendency to overcome the square-planar coordination sphere by axial ligation. Extended spectroscopic studies in solution revealed the affinity towards axial ligation and the mechanism of green emission when exposed to Lewis bases.
CHEMISTRY-A EUROPEAN JOURNAL
(2021)
Article
Chemistry, Physical
Werner Dobrautz, Oskar Weser, Nikolay A. Bogdanov, Ali Alavi, Giovanni Li Manni
Summary: This work demonstrates efficiently computing reduced density matrices in spin-adapted full configuration interaction quantum Monte Carlo method, and using it as a spin-pure CI eigensolver within the CASSCF procedure, highlighting the importance of orbital relaxation. The method is applied to investigate spin ladder systems and shows the stabilization of lower-spin states through orbital relaxation and deviations in CASSCF eigenvalues that require the inclusion of biquadratic terms in the model Hamiltonian.
JOURNAL OF CHEMICAL THEORY AND COMPUTATION
(2021)
Article
Chemistry, Physical
Giovanni Li Manni, Werner Dobrautz, Nikolay A. Bogdanov, Kai Guther, Ali Alavi
Summary: The catalytic activity of PNTM clusters is attributed to their multiple spin states and stable oxidation states, making the characterization of their electronic structure a challenge in modern chemistry. A theoretical framework proposed in this study enables the resolution of targeted electronic states and predicts magnetic coupling constants that demonstrate predictive power in understanding spin interactions and geometrical distortions. The complexes are intrinsically frustrated anti-ferromagnets, and the obtained spin structures along with the geometrical distortions represent two possible ways to release spin frustration.
JOURNAL OF PHYSICAL CHEMISTRY A
(2021)
Article
Chemistry, Physical
Oskar Weser, Kai Guther, Khaldoon Ghanem, Giovanni Li Manni
Summary: The algorithm utilizes the FCIQMC algorithm based on Slater determinants as the eigensolver, allowing optimization of preselected truncated configuration interaction wave functions to reduce costs or explore specific electron correlation pathways. It supports selection of multiple active subspaces, occupation number constraints, and efficient encoding of constraints using precomputed probability distributions.
JOURNAL OF CHEMICAL THEORY AND COMPUTATION
(2022)
Article
Physics, Multidisciplinary
Nikolay A. Bogdanov, Giovanni Li Manni, Sandeep Sharma, Olle Gunnarsson, Ali Alavi
Summary: Cuprates exhibit exotic states due to the interplay between spin, charge, and orbital degrees of freedom. Ab initio calculations reveal that the orbital expansion mechanism plays a key role in the magnetic properties of cuprates. Additionally, the electronic properties of cuprates are highly sensitive to the presence and displacement of apical oxygens perpendicular to the CuO2 planes, influencing the nearest-neighbour superexchange antiferromagnetic coupling.
Article
Chemistry, Physical
Eugenio Vitale, Giovanni Li Manni, Ali Alavi, Daniel Kats
Summary: A tailored approach based on the distinguishable E cluster method and the stochastic FCIQMC solver has been extended to open-shell molecular systems. The method was used to calculate spin gaps of Fe(II) complexes, showing that the tailored distinguishable cluster with singles and doubles gives more accurate results compared to the tailored coupled cluster with singles and doubles.
JOURNAL OF CHEMICAL THEORY AND COMPUTATION
(2022)
Article
Chemistry, Physical
Oskar Weser, Niklas Liebermann, Daniel Kats, Ali Alavi, Giovanni Li Manni
Summary: In this article, a first-order spin penalty scheme is demonstrated to be efficiently applied to the Slater determinant based FCIQMC algorithm for spin purification. Two applications are presented to validate the scheme's validity and robustness. The strategy can be coupled to other algorithms and provides spin-adaptation and spin-resolved reduced density matrices, making it important for the investigation of spin-dependent properties.
JOURNAL OF PHYSICAL CHEMISTRY A
(2022)
Article
Chemistry, Physical
Giovanni Li Manni, Daniel Kats, Niklas Liebermann
Summary: In this study, ground and excited electronic states of Heisenberg cluster models were characterized using the spin adapted Graphical Unitary Group Approach. It was found that an optimal lattice site ordering reflecting the internal symmetries of the model resulted in a unique block-diagonal structure of the Hamiltonian matrix in the spin-adapted basis. This block-diagonal structure allowed for the selective optimization of electronic excited states and the obtaining of more compact many-body wave functions.
JOURNAL OF CHEMICAL THEORY AND COMPUTATION
(2023)
Article
Chemistry, Physical
Giovanni Li Manni, Ignacio Fdez. Galvan, Ali Alavi, Flavia Aleotti, Francesco Aquilante, Jochen Autschbach, Davide Avagliano, Alberto Baiardi, Jie J. Bao, Stefano Battaglia, Letitia Birnoschi, Alejandro Blanco-Gonzalez, Sergey I. Bokarev, Ria Broer, Roberto Cacciari, Paul B. Calio, Rebecca K. Carlson, Rafael Carvalho Couto, Luis Cerdan, Liviu F. Chibotaru, Nicholas F. Chilton, Jonathan Richard Church, Irene Conti, Sonia Coriani, Juliana Cuellar-Zuquin, Razan E. Daoud, Nike Dattani, Piero Decleva, Coen de Graaf, Mickael G. Delcey, Luca De Vico, Werner Dobrautz, Sijia S. Dong, Rulin Feng, Nicolas Ferre, Michael Filatov (Gulak), Laura Gagliardi, Marco Garavelli, Leticia Gonzalez, Yafu Guan, Meiyuan Guo, Matthew R. Hennefarth, Matthew R. Hermes, Chad E. Hoyer, Miquel Huix-Rotllant, Vishal Kumar Jaiswal, Andy Kaiser, Danil S. Kaliakin, Marjan Khamesian, Daniel S. King, Vladislav Kochetov, Marek Krosnicki, Arpit Arun Kumaar, Ernst D. Larsson, Susi Lehtola, Marie-Bernadette Lepetit, Hans Lischka, Pablo Lopez Rios, Marcus Lundberg, Dongxia Ma, Sebastian Mai, Philipp Marquetand, Isabella C. D. Merritt, Francesco Montorsi, Maximilian Morchen, Artur Nenov, Vu Ha Anh Nguyen, Yoshio Nishimoto, Meagan S. Oakley, Massimo Olivucci, Markus Oppel, Daniele Padula, Riddhish Pandharkar, Quan Manh Phung, Felix Plasser, Gerardo Raggi, Elisa Rebolini, Markus Reiher, Ivan Rivalta, Daniel Roca-Sanjuan, Thies Romig, Arta Anushirwan Safari, Aitor Sanchez-Mansilla, Andrew M. Sand, Igor Schapiro, Thais R. Scott, Javier Segarra-Marti, Francesco Segatta, Dumitru-Claudiu Sergentu, Prachi Sharma, Ron Shepard, Yinan Shu, Jakob K. Staab, Tjerk P. Straatsma, Lasse Kragh Sorensen, Bruno Nunes Cabral Tenorio, Donald G. Truhlar, Liviu Ungur, Morgane Vacher, Valera Veryazov, Torben Arne Voss, Oskar Weser, Dihua Wu, Xuchun Yang, David Yarkony, Chen Zhou, J. Patrick Zobel, Roland Lindh
Summary: This article describes the developments of the open-source OpenMolcas chemistry software environment since spring 2020, focusing on the novel functionalities in the stable branch and interfaces with other packages. These developments cover a wide range of topics in computational chemistry and provide an overview of the chemical phenomena and processes that OpenMolcas can address.
JOURNAL OF CHEMICAL THEORY AND COMPUTATION
(2023)
Article
Chemistry, Physical
Ruocheng Han, Sandra Luber, Giovanni Li Manni
Summary: Strong electron correlation effects pose a major challenge in quantum chemistry. This study employs forefront techniques like density matrix renormalization group (DMRG), full configuration interaction quantum Monte Carlo (FCIQMC), and multiconfiguration pair-density functional theory (MCPDFT) to investigate magnetic interactions in a [Co(II)3Er(III)-(OR)4] model cubane water oxidation catalyst. The findings provide crucial insights on the spin interactions in this model system and its catalytic activity in the water-splitting reaction.
JOURNAL OF CHEMICAL THEORY AND COMPUTATION
(2023)
Article
Chemistry, Physical
Giovanni Li Manni, Ignacio Fdez. Galvan, Ali Alavi, Flavia Aleotti, Francesco Aquilante, Jochen Autschbach, Davide Avagliano, Alberto Baiardi, Jie J. Bao, Stefano Battaglia, Letitia Birnoschi, Alejandro Blanco-Gonzalez, Sergey I. Bokarev, Ria Broer, Roberto Cacciari, Paul B. Calio, Rebecca K. Carlson, Rafael Carvalho Couto, Luis Cerdan, Liviu F. Chibotaru, Nicholas F. Chilton, Jonathan Richard Church, Irene Conti, Sonia Coriani, Juliana Cuellar-Zuquin, Razan E. Daoud, Nike Dattani, Piero Decleva, Coen de Graaf, Mickael G. Delcey, Luca De Vico, Werner Dobrautz, Sijia S. Dong, Rulin Feng, Nicolas Ferre, Michael Filatov(Gulak), Laura Gagliardi, Marco Garavelli, Leticia Gonzalez, Yafu Guan, Meiyuan Guo, Matthew R. Hennefarth, Matthew R. Hermes, Chad E. Hoyer, Miquel Huix-Rotllant, Vishal Kumar Jaiswal, Andy Kaiser, Danil S. Kaliakin, Marjan Khamesian, Daniel S. King, Vladislav Kochetov, Marek Krosnicki, Arpit Arun Kumaar, Ernst D. Larsson, Susi Lehtola, Marie-Bernadette Lepetit, Hans Lischka, Pablo Lopez Rios, Marcus Lundberg, Dongxia Ma, Sebastian Mai, Philipp Marquetand, Isabella C. D. Merritt, Francesco Montorsi, Maximilian Morchen, Artur Nenov, Vu Ha Anh Nguyen, Yoshio Nishimoto, Meagan S. Oakley, Massimo Olivucci, Markus Oppel, Daniele Padula, Riddhish Pandharkar, Quan Manh Phung, Felix Plasser, Gerardo Raggi, Elisa Rebolini, Markus Reiher, Ivan Rivalta, Daniel Roca-Sanjuan, Thies Romig, Arta Anushirwan Safari, Aitor Sanchez-Mansilla, Andrew M. Sand, Igor Schapiro, Thais R. Scott, Javier Segarra-Marti, Francesco Segatta, Dumitru-Claudiu Sergentu, Prachi Sharma, Ron Shepard, Yinan Shu, Jakob K. Staab, Tjerk P. Straatsma, Lasse Kragh Sorensen, Bruno Nunes Cabral Tenorio, Donald G. Truhlar, Liviu Ungur, Morgane Vacher, Valera Veryazov, Torben Arne Voss, Oskar Weser, Dihua Wu, Xuchun Yang, David Yarkony, Chen Zhou, J. Patrick Zobel, Roland Lindh
Summary: This article describes the recent developments in the open-source chemistry software environment, OpenMolcas, since spring 2020. It focuses on the new functionalities and interfaces with other packages. The article presents various topics in computational chemistry, including electronic structure theory, electronic spectroscopy simulations, molecular structure optimizations, ab initio molecular dynamics, and other new features. Overall, it highlights the capabilities of OpenMolcas in addressing chemical phenomena and processes, making it an attractive platform for advanced atomistic computer simulations.
JOURNAL OF CHEMICAL THEORY AND COMPUTATION
(2023)
Article
Materials Science, Multidisciplinary
Werner Dobrautz, Vamshi M. Katukuri, Nikolay A. Bogdanov, Daniel Kats, Giovanni Li Manni, Ali Alavi
Summary: This study uses a novel approach that combines unitary and symmetric groups to investigate the spin-1/2 Heisenberg model and related Fermionic systems. The results show that combining these groups leads to a more compact representation of the ground-state wave function. Additionally, the compression of the wave function allows for the study of larger lattices.
Article
Chemistry, Physical
Giovanni Li Manni
Summary: This study applies a quantum chemical framework to rationalize the electronic spectrum and magnetic properties of a model of the oxygen-evolving center in photosystem II. By compressing and selectively targeting wave functions, the study successfully explains magnetic interactions and electron correlation effects, providing a rigorous description of noncollinearity of local spins.
PHYSICAL CHEMISTRY CHEMICAL PHYSICS
(2021)
