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Simulations reveal previously unknown 2D phthalocyanine monolayers combining structural stability, high mobility, and direct ...

A tripodal triptycene supramolecular scaffold developed by researchers at Science Tokyo could lead to significant advancements in the design of two-dimensional (2D) molecular assemblies.

The manufacture of high-efficiency solar cells with layers of 2D and 3D perovskites may be simplified by solvents that allow solution deposition of one layer without destroying the other.

An innovative analysis of two-dimensional (2D) materials from engineers at the University of Surrey could boost the development of next-generation solar cells and LEDs.

Oct 01, 2024: Novel 2D molecular scaffold technique boosts solar cell efficiency (Nanowerk News) Research in the field of material science and electronics relies on the innovative arrangement of ...

Solar installers can use OpenSolar’s end-to-end platform to manage and grow their businesses all in one place with class-leading solar design accuracy, interactive custom proposals, and a ...

Rice University engineers have shown the manufacture of high-efficiency solar cells with layers of 2D and 3D perovskites may be simplified by solvents that allow solution deposition of one layer ...

HOUSTON, February 04, 2025--Sunnova Energy International, Inc. ("Sunnova") (NYSE: NOVA), an industry-leading adaptive energy services company, announced today a strategic partnership with ...