Pratyush Ghosh

Sep 15, 2024 | nature.com | Junzhi Ye |Navendu Mondal |Ben P. Carwithen |Linjie Dai |Jian Qiang Mao |Pratyush Ghosh | +8 more

AbstractDefect tolerance is a critical enabling factor for efficient lead-halide perovskite materials, but the current understanding is primarily on band-edge (cold) carriers, with significant debate over whether hot carriers can also exhibit defect tolerance. Here, this important gap in the field is addressed by investigating how intentionally-introduced traps affect hot carrier relaxation in CsPbX3 nanocrystals (X = Br, I, or mixture).

Aug 20, 2024 | nature.com | Hanbo Yang |Alexander J. Gillett |Flurin D. Eisner |Pratyush Ghosh |Daniel G. Congrave |Jenny Nelson

AbstractControl of the molecular configuration at the interface of an organic heterojunction is key to the development of efficient optoelectronic devices. Due to the difficulty in characterizing these buried and (probably) disordered heterointerfaces, the interfacial structure in most systems remains a mystery. Here we demonstrate a synthetic strategy to design and control model interfaces, enabling their detailed study in isolation from the bulk material.

Jun 19, 2024 | nature.com | Hwan-Hee Cho |Sebastian Gorgon |Giacomo Londi |Samuele Giannini |Changsoon Cho |Pratyush Ghosh | +8 more

AbstractThe development of luminescent organic radicals has resulted in materials with excellent optical properties for near-infrared emission. Applications of light generation in this range span from bioimaging to surveillance. Although the unpaired electron arrangements of radicals enable efficient radiative transitions within the doublet-spin manifold in organic light-emitting diodes, their performance is limited by non-radiative pathways introduced in electroluminescence.

May 8, 2024 | nature.com | Pratyush Ghosh |Antonios M. Alvertis |Petri Murto |Alexander J. Gillett |Shengzhi Dong |Hwan-Hee Cho | +5 more

AbstractThe coupling of excitons in π-conjugated molecules to high-frequency vibrational modes, particularly carbon–carbon stretch modes (1,000–1,600 cm−1) has been thought to be unavoidable1,2. These high-frequency modes accelerate non-radiative losses and limit the performance of light-emitting diodes, fluorescent biomarkers and photovoltaic devices.

Jul 27, 2023 | pubs.acs.org | Alison Goldingay |Alexandra N. Stuart |Pratyush Ghosh |suraj yadav

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