Tellurium (Te) is a rare element in trace amounts of about one part per billion, comparable to
that of platinum and ranked 75th in the abundance of the elements in the earth crust. Te …

Due to the ultrathin thickness and dangling‐bond‐free surface, 2D materials have been
regarded as promising candidates for future nanoelectronics. In recent years, group‐VI …

Experimental demonstrations of one-dimensional (1D) van der Waals material tellurium (Te)
have been presented by Raman spectroscopy under strain and magneto-transport. Raman …

Tellurium (Te) films with monolayer and few-layer thickness are obtained by molecular beam
epitaxy on a graphene/6H-SiC (0001) substrate and investigated by in situ scanning …

Selenium has attracted intensive attention as a promising material candidate for future
optoelectronic applications. However, selenium has a strong tendency to grow into nanowire …

Van der Waals epitaxy (vdWE) is of great interest due to its extensive applications in the
synthesis of ultrathin two-dimensional (2D) layered materials. However, vdWE of nonlayered …

As commercial interest in flexible power‐conversion devices increases, the demand for high‐
performance alternatives to brittle inorganic thermoelectric (TE) materials is growing. As an …

Monolayer tellurium (Te) or tellurene has been suggested by a recent theory as a new two-
dimensional (2D) system with great electronic and optoelectronic promises. Here we present …

Quantum Hall effect (QHE) is a macroscopic manifestation of quantized states that only
occurs in confined two-dimensional electron gas (2DEG) systems. Experimentally, QHE is …

Recent calculations predict a super-thermal-conductivity of $2000 WmÀ1 KÀ1, comparable
to that of diamond, in cubic boron arsenide (BAs) crystals, which may offer inexpensive …