A review of the current state of magnetic force microscopy to unravel the magnetic properties of nanomaterials applied in biological systems and future directions for …
Magnetism plays a pivotal role in many biological systems. However, the intensity of the
magnetic forces exerted between magnetic bodies is usually low, which demands the …
magnetic forces exerted between magnetic bodies is usually low, which demands the …
Vanadium‐based metal‐organic frameworks and their derivatives for electrochemical energy conversion and storage
J Zhu, X Chen, AQ Thang, FL Li, D Chen, H Geng… - …, 2022 - Wiley Online Library
With the excessive consumption of nonrenewable resources, the exploration of effective and
durable materials is highly sought after in the field of sustainable energy conversion and …
durable materials is highly sought after in the field of sustainable energy conversion and …
Room-temperature quantitative quantum sensing of lithium ions with a radical-embedded metal–organic framework
Recent advancements in quantum sensing have sparked transformative detection
technologies with high sensitivity, precision, and spatial resolution. Owing to their atomic …
technologies with high sensitivity, precision, and spatial resolution. Owing to their atomic …
Using molecular design to enhance the coherence time of quintet multiexcitons generated by singlet fission in single crystals
Multiexciton quintet states, 5 (TT), photogenerated in organic semiconductors using singlet
fission (SF), consist of four quantum entangled spins, promising to enable new applications …
fission (SF), consist of four quantum entangled spins, promising to enable new applications …
[HTML][HTML] Magnetic molecules on surfaces: SMMs and beyond
In this critical review we cover the state of the art of surface deposition of complex magnetic
molecules. Deposition methods are reviewed, as well as the most used types of surfaces …
molecules. Deposition methods are reviewed, as well as the most used types of surfaces …
A perspective on scaling up quantum computation with molecular spins
Artificial magnetic molecules can contribute to progressing toward large scale quantum
computation by (a) integrating multiple quantum resources and (b) reducing the …
computation by (a) integrating multiple quantum resources and (b) reducing the …
Electronic spin qubit candidates arrayed within layered two-dimensional polymers
Molecular electronic spin qubits are promising candidates for quantum information science
applications because they can be reliably produced and engineered via chemical design …
applications because they can be reliably produced and engineered via chemical design …
Two‐Dimensional Metal‐Organic Frameworks Towards Spintronics
X Yan, X Su, J Chen, C Jin, L Chen - Angewandte Chemie, 2023 - Wiley Online Library
The intrinsic properties of predesignable topologies and tunable electronic structures,
coupled with the increase of electrical conductivity, make two‐dimensional metal–organic …
coupled with the increase of electrical conductivity, make two‐dimensional metal–organic …
Modular approach to creating functionalized surface arrays of molecular qubits
L Tesi, F Stemmler, M Winkler, SSY Liu… - Advanced …, 2023 - Wiley Online Library
The quest for developing quantum technologies is driven by the promise of exponentially
faster computations, ultrahigh performance sensing, and achieving thorough understanding …
faster computations, ultrahigh performance sensing, and achieving thorough understanding …
[HTML][HTML] Electronic structure and magnetic anisotropy design of functional metal complexes
A Raza, M Perfetti - Coordination Chemistry Reviews, 2023 - Elsevier
Chemical guidelines to target a well-defined electronic structure and magnetic anisotropy
are of primary importance in physics, chemistry and biology. Our literature overview …
are of primary importance in physics, chemistry and biology. Our literature overview …