The Endocrinology Branch of the Chinese Medical Association, in collaboration with the Jiangsu Medical Association, will hold the 21st Endocrinology Academic Conference in Suzhou from August 7th to 10th, 2024. As a top annual academic event in the field of endocrine and metabolic diseases research i

Ultra thin two-dimensional (2D) materials (including layered and non layered structures) are expected to become electrocatalysts. Their catalytic performance is limited by their natural electronic structure and 2D stacking. Adjusting the 2D structure with exotic atoms can modify the chemical affinit

The interaction between electrons and phonons guides the energy flow in photoexcited materials and controls the appearance of related phases. The tracking of electron or X-ray pulses in non-equilibrium structural dynamics reveals the strength of electron phonon interactions, decay channels of strong

Regenerative biomedicine has become a cutting-edge field in medical research, heralding the arrival of a new era of treatment strategies. This review provides an overview of the integration of two-dimensional materials (2DM) in the field of biomedical engineering, utilizing their superior physicoche

The Boltzmann tyranny, set by hot electron statistics data, specifies a lower limit of 60 mV/dec for the switching slope (SS) of MOSFETs, which is a fundamental obstacle for low dissipation electronic devices. A large S S can lead to voltage non scalability, severe leakage, and increased power consu

The intercalation of atoms, ions, and molecules is a powerful tool for altering or adjusting two-dimensional material properties (interlayer interactions, in-plane bonding configurations, Fermi level energy, electronic band structure, and spin orbit coupling). Insertion can cause changes in the prop