Zhengxu Cai scite author profile

Developing highly efficient photocatalyts for water splitting is one of the grand challenges in solar energy conversion. Here, we report the rational design and synthesis of porous conjugated polymer (PCP) that photocatalytically generates hydrogen from water splitting. The design mimics natural photosynthetics systems with conjugated polymer component to harvest photons and the transition metal part to facilitate catalytic activities. A series of PCPs have been synthesized with different light harvesting chromophores and transition metal binding bipyridyl (bpy) sites. The photocatalytic activity of these bpy-containing PCPs can be greatly enhanced due to the improved light absorption, better wettability, local ordering structure, and the improved charge separation process. The PCP made of strong and fully conjugated donor chromophore DBD (M4) shows the highest hydrogen production rate at ∼33 μmol/h. The results indicate that copolymerization between a strong electron donor and weak electron acceptor into the same polymer chain is a useful strategy for developing efficient photocatalysts. This study also reveals that the residual palladium in the PCP networks plays a key role for the catalytic performance. The hydrogen generation activity of PCP photocatalyst can be further enhanced to 164 μmol/h with an apparent quantum yield of 1.8% at 350 nm by loading 2 wt % of extra platinum cocatalyst.

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Wide‐Range Color‐Tunable Organic Phosphorescence Materials for Printable and Writable Security Inks

Lei

et al. 2020

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Organic materials with long‐lived, color‐tunable phosphorescence are potentially useful for optical recording, anti‐counterfeiting, and bioimaging. Herein, we develop a series of novel host–guest organic phosphors allowing dynamic color tuning from the cyan (502 nm) to orange red (608 nm). Guest materials are employed to tune the phosphorescent color, while the host materials interact with the guest to activate the phosphorescence emission. These organic phosphors have an ultra‐long lifetime of 0.7 s and a maximum phosphorescence efficiency of 18.2 %. Although color‐tunable inks have already been developed using visible dyes, solution‐processed security inks that are temperature dependent and display time‐resolved printed images are unprecedented. This strategy can provide a crucial step towards the next‐generation of security technologies for information handling.

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Recent Progress in Pure Organic Room Temperature Phosphorescence of Small Molecular Host–Guest Systems

Guo

Dai

Chen

et al. 2021

ACS Materials Lett.

203

167

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Figure 2. Steroid based host matrix in realizing RTP emission. (a) Chemical structures of steroid host and second amino-substituted deuterated carbon as well as the design principle in realizing the RTP emission. Reproduced with permission. 39 Copyright 2013, Wiley. (b) Chemical structures of host 4, guest 3, and dispersant 5 as well as the application in thermal reversible recording materials. Reproduced with permission. 40 Copyright 2013, Wiley. (K r = phosphorescent decay rate, K q = rate of quenching long-lived triplet excitons).

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Remarkable enhancement of charge carrier mobility of conjugated polymer field-effect transistors upon incorporating an ionic additive

et al. 2016

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Zhengxu Cai

Rational Design of Porous Conjugated Polymers and Roles of Residual Palladium for Photocatalytic Hydrogen Production

Wide‐Range Color‐Tunable Organic Phosphorescence Materials for Printable and Writable Security Inks

Recent Progress in Pure Organic Room Temperature Phosphorescence of Small Molecular Host–Guest Systems

Remarkable enhancement of charge carrier mobility of conjugated polymer field-effect transistors upon incorporating an ionic additive

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