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Theory predicts that weyl spin-momentum locking can only be realized in chiral cubic crystals in the vicinity of multifold fermions. We show through Spin-ARPES Weyl spin-momentum locking in TMS PtGa. nature.com/articles/s4146… with Niels Schröter Iñigo Robredo Max Planck Institute CPfS - TQC DIPC

Al doping in Ni–Fe hydroxide nanosheet enhances #oxygenevolutionreaction via increasing the gain in exchange energy of FeIV–NiIV, and strengthens operational stability by suppressing lattice oxygen contribution. #wateroxidation Max Planck Institute CPfS - TQC #Openaccess: go.acs.org/9wW

Topological phases of matter consistent with a generalization of the framework of the quantum Hall effect to that of the quantum skyrmion Hall effect. Work by Ashley Cook MPI-PKS Dresden Max Planck Institute CPfS - TQC now published Physical Review B: journals.aps.org/prb/abstract/1….

In our recent paper, we observed Giant Room‐Temperature Topological Hall Effect in a Square‐Net Ferromagnet LaMn2Ge2 published in Advanced Materials Wiley onlinelibrary.wiley.com/doi/10.1002/ad… Claudia Felser C. Shekhar, Ph D Maia G. Vergniory Max Planck Institute CPfS - TQC Dept of Chemistry, IISER Bhopal IISER Bhopal

Just out in Nature Nanotechnology: NCCR Bio-Inspired Materials article from AMI Physics and @BodoWilts in collaboration with PSI Paul Scherrer Institut, Wiesner Group, Max Planck Institute CPfS - TQC, Tohoku University - Unlocking the secrets of nanoscale networks bit.ly/NCCR_nanotomog… #physics #nanofabrication

Many body physics in heavy fermions. Hybridization of the electrons energy scheme in a sample made of YbPtBi, ytterbium (Yb), lead (Pt), and bismuth (Bi) under controlled symmetry-breaking and uniaxial pressure. YbPtBi has been hypothesized to possess one of the highest

New Nanocomposites Derived from Cation-Nonstoichiometric Bax(Co, Fe, Zr, Y)O3−δ as Efficient Electrocatalysts for Water Oxidation in Alkaline Solution By Xiaomin Xu, Zongping Shao et al. Curtin University The Hong Kong Polytechnic University (PolyU) Max Planck Institute CPfS - TQC Read the paper 👉 go.acs.org/ak7

Structural Analysis and Redox Properties of Oxygen-“Breathing” A(Mn1–xCux)O3 (A = La, Pr) Perovskites By Annette Trunschke et al. Fritz Haber Institute of the Max Planck Society MPI-CEC Max Planck Institute CPfS - TQC Read the paper 👉 go.acs.org/aod

Another big paper from Chiara Devescovi and Antonio Morales on axion topology in photonic crytals, co-supervised with Aitzol garcia-etxarri 🏳️‍🌈 . More to come soon ;) DIPC Max Planck Institute CPfS - TQC nature.com/articles/s4146…

Excited to share a groundbreaking paper showing 2D and 3D magnetic imaging of samples too thick to be measured until now. From spintronics to paleomagnetism. Happy that Helmholtz-Zentrum Berlin could make a small contribution to the work lead by the Spin3D group Max Planck Institute CPfS - TQC physics.aps.org/articles/v17/s…

Nice work by Robin Guehne on ScV6Sn6 Kagome, revealing orbital selective modulations of the local density of states. Max Planck Institute CPfS - TQC DIPC Claudia Felser nature.com/articles/s4146…

Orbital Angular Momentum behaves like a monopole in topological chiral metals and it can be controlled through the structural handedness. DIPC Max Planck Institute CPfS - TQC @UShbrooke Institut quantique nature.com/articles/s4156…

#WeAreHiring – #PhD positions available 🙌 Are you excited about Quantum Materials Research? We are looking for highly motivated PhD students! 📷 imprs-cpqm.mpg.de/apply-now Apply by 30 November 2024 Planck Academy #joboffer #maxplanck #imprs

🌊🔋Breakthrough in Clean #hydrogen - Scientists have developed spin-powered chiral crystals that boost water splitting efficiency by 200x. This leap in renewable energy tech brings us closer to a #CleanEnergy future. 🌍 cpfs.mpg.de/3695333/202411…

Claudia Felser receives the #VonHippelAward 🏆 and is named a 2024 Clarivate Highly Cited Researcher! Her groundbreaking work in topological #quantumMaterials reshapes condensed matter science. Congratulations on this well-deserved recognition! 👏 cpfs.mpg.de/3694669/202411…

Xia Wang, Binghai Yan Claudia Felser and colleagues Max Planck Institute CPfS - TQC use topological semimetals with intrinsic chirality to control spin in oxygen evolution catalysts and explore the role of spin-orbit coupling in determining activity. buff.ly/3OxAlNQ

The 2024 Von Hippel Award recipient & director at Max Planck Institute CPfS - TQC, Claudia Felser joins us to talk about her work connecting some of the universe’s biggest mysteries to chirality & topological quantum materials. Materials Research Society (MRS) #F24MRS youtu.be/pMS0paT1VmU

Applying a magnetic field to the topological material Bi88Sb12 enhances the Seebeck coefficient, resulting in a high thermoelectric figure of merit zT of 1.7 at 180 K and 0.7 T. Claudia Felser Max Planck Institute CPfS - TQC nature.com/articles/s4156…

Congrats to the 2025 #ForWomenInScience Laureates! Special cheers to our Director, Claudia Felser, honored for her work on topological quantum materials & advocacy for women in STEM. 👏 Baker, Wang, Felser, Dova & Finlayson-Pitts — true role models! UNESCO 🏛️ #Education #Sciences #Culture 🇺🇳 Fondation L'Oréal