Joydip De
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Explore the profile of Joydip De including associated specialties, affiliations and a list of published articles.
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Articles
19
Citations
36
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Recent Articles
1.
De J, De R, Bala I, Gupta S, Yadav R, Kumar Pandey U, et al.
Small Methods
. 2024 Dec;
:e2401634.
PMID: 39676445
The future of next-generation electronics relies on low-cost organic semiconductors that are tailored to simultaneously provide all requisite optoelectronic properties, focusing greatly on ambipolar charge-transport and solution processability. In this...
2.
Dos Santos J, Hall D, Basumatary B, Bryden M, Chen D, Choudhary P, et al.
Chem Rev
. 2024 Dec;
124(24):13736-14110.
PMID: 39666979
Since the seminal report by Adachi and co-workers in 2012, there has been a veritable explosion of interest in the design of thermally activated delayed fluorescence (TADF) compounds, particularly as...
3.
Kumar N, Sahu S, Paul H, Rout M, De J, Pal S, et al.
J Phys Chem B
. 2024 Aug;
128(32):7912-7919.
PMID: 39105702
Enhancing molecular self-assembly at the monolayer level offers significant potential for various applications. For monolayers made of π-conjugated discotic liquid crystal (DLC) molecule nanowires, achieving precise separation and alignment of...
4.
Kumar N, Samal P, Mahapatra A, De J, Pal S, Mishra P, et al.
Soft Matter
. 2023 Feb;
19(8):1513-1522.
PMID: 36727296
Understanding and control of molecular alignment at the nanoscale in self-assembled supramolecular structures is a prerequisite for the subsequent exploitation of molecules in functional devices. Here, we have clarified the...
5.
Wang T, De J, Wu S, Gupta A, Zysman-Colman E
Angew Chem Int Ed Engl
. 2022 Jun;
61(33):e202206681.
PMID: 35684990
Room-temperature phosphorescence (RTP) originating from higher-lying triplet excitons remains a rather rarely documented occurrence for purely organic molecular systems. Here, we report two naphthalene-based RTP luminophores whose phosphorescence emission is...
6.
De J, Sarkar I, Yadav R, Bala I, Gupta S, Siddiqui I, et al.
Soft Matter
. 2022 Jan;
18(4):922.
PMID: 35018961
Correction for 'Luminescent columnar discotics as highly efficient emitters in pure deep-blue OLEDs with an external quantum efficiency of 4.7%' by Joydip De , , 2022, DOI: 10.1039/d1sm01558c.
7.
De J, Sarkar I, Yadav R, Bala I, Gupta S, Siddiqui I, et al.
Soft Matter
. 2021 Dec;
18(22):4214-4219.
PMID: 34935025
Development of materials that serve as efficient blue emitters in solution-processable OLEDs is challenging. In this study, we report three derivatives of -symmetric 1,3,5-tris(thien-2-yl)benzene-based highly luminescent room temperature columnar discotic...
8.
De J, Yadav R, Yadav R, Gupta S, Joshi M, Roy Choudhury A, et al.
J Org Chem
. 2021 May;
86(10):7256-7262.
PMID: 33955757
A unique strategy for the attainment of a discotic nematic (N) mesophase is reported consisting of a central benzene core to which are attached two 4-alkylphenyl and two 4-pentylbiphenyl moieties...
9.
De J, Devi M, Shah A, Gupta S, Bala I, Singh D, et al.
J Phys Chem B
. 2020 Nov;
124(45):10257-10265.
PMID: 33136408
The high demand and scarcity of luminescent, photoconductive, and transparent gels necessitate its finding as they are potential components in photonic devices such as solar cell concentrators where optical losses...
10.
De J, M M A, Yadav R, Gupta S, Bala I, Chawla P, et al.
Chem Commun (Camb)
. 2020 Oct;
56(91):14279-14282.
PMID: 33125010
A multifunctional molecular design of fluorescent discotic liquid crystal (DLC) consisting of a tetraphenylethylene core is reported, which is found to serve as an excellent solid-state emitter in OLED devices...