Chunbo Jiang scite author profile

The targeted synthesis of deep-ultraviolet (deep-UV) nonlinear optical (NLO) materials, especially those with non-π-conjugated sulfates, has experienced considerable difficulties due to the need to reconcile the oft-competing requirements for deep-UV transparency and strong second-harmonic generation (SHG). We report herein the designed synthesis of the first rare-earth metal-based deep-UV sulfate La(NH 4 )-(SO 4 ) 2 by a double-salt strategy involving introduction of complementary cations, together with optical studies that reveal a short-wavelength deep-UV absorption edge (below 190 nm) and the strongest SHG response among deep-UV NLO sulfates (2.4 × KDP). Theoretical calculations and crystal structure analysis suggest that the excellent balance between SHG response and deep-UV transparency can be attributed to a synergistic interaction of the hetero-cations La 3 + and [NH 4 ] + , which optimize alignment of the [SO 4 ] tetrahedra and highly polarizable [LaO 8 ] polyhedra.

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Distribution of the surface partial pressure of CO2 in the southern Yellow Sea and its controls

Zhang

Xue

Song

et al. 2010

Continental Shelf Research

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Toward Large Second-Harmonic Generation and Deep-UV Transparency in Strongly Electropositive Transition Metal Sulfates

Jiang

Wei

et al. 2023

J. Am. Chem. Soc.

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The development of deep-ultraviolet (DUV)/solarblind UV nonlinear optical (NLO) crystals simultaneously possessing wide UV transparency, strong second-harmonic generation (SHG) response, and suitable birefringence is a major challenge in advanced laser technology. We herein propose a "cation compensation" strategy for strong optical nonlinearity in inorganic solids that is exemplified by the introduction of strongly electropositive transition metals (TMs). Following this strategy, the first d 0 TM UV-transparent NLO sulfates, MF 2 (SO 4 ) (M = Zr (ZFSO), Hf (HFSO)), have been synthesized. Short UV cutoff edges of 206 nm and below 190 nm are observed for bulk ZFSO and HFSO crystals, respectively, together with the strongest powder SHG responses (3.2 × (ZFSO) and 2.5 × KDP (HFSO)) for solar-blind UV/DUV NLO sulfates, as well as suitable birefringence. This work provides a new and efficient approach to the development of urgently needed high-performance NLO materials for applications in the short-wavelength UV region.

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Isoreticular Design of KTiOPO₄-Like Deep-Ultraviolet Transparent Materials Exhibiting Strong Second-Harmonic Generation

Jiang

et al. 2022

J. Am. Chem. Soc.

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Second-harmonic generation (SHG) is of great technological importance for applications in nonlinear optics, but it remains challenging to engineer large SHG responses in the short-wavelength ultraviolet (UV) region owing to competing microstructure requirements. Herein, we report the first examples of d0 transition-metal-based (TM-based) deep-UV-transparent nonlinear optical (NLO) crystals MOF4H2 (M = Zr (ZOF), Hf (HOF)), which exhibit unprecedented short UV absorption edges (below 190 nm). Evolving from the KTiOPO4 (KTP) structure by an isoreticular node substitution strategy, the three-dimensional frameworks of ZOF and HOF consist of corner-sharing [MO2F6] moieties that are new functional units in deep-UV NLO material design, conferring wide UV transparency and strong phase-matchable SHG response (2.2 × KH2PO4 (ZOF) and 1.8 × KH2PO4 (HOF) at 1064 nm). Such d0-TM-based [MO2F6] polyhedra preclude deleterious d–d electronic transitions, resulting in significantly blue-shifted UV absorption edges of ZOF and HOF (<190 nm). The d0-TM-based [MO2F6] polyhedra introduced in this work offer a new perspective in the construction of deep-UV transparent NLO materials, demonstrating the feasibility of an isoreticular design strategy in developing functional NLO materials.

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Experimental study and simulation of water quality purification of urban surface runoff using non-vegetated bioswales

Jiang

Lei³

et al. 2016

Ecological Engineering

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Chunbo Jiang

A Lanthanum Ammonium Sulfate Double Salt with a Strong SHG Response and Wide Deep‐UV Transparency

Distribution of the surface partial pressure of CO2 in the southern Yellow Sea and its controls

Toward Large Second-Harmonic Generation and Deep-UV Transparency in Strongly Electropositive Transition Metal Sulfates

Isoreticular Design of KTiOPO₄-Like Deep-Ultraviolet Transparent Materials Exhibiting Strong Second-Harmonic Generation

Experimental study and simulation of water quality purification of urban surface runoff using non-vegetated bioswales

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Chunbo Jiang

A Lanthanum Ammonium Sulfate Double Salt with a Strong SHG Response and Wide Deep‐UV Transparency

Distribution of the surface partial pressure of CO2 in the southern Yellow Sea and its controls

Toward Large Second-Harmonic Generation and Deep-UV Transparency in Strongly Electropositive Transition Metal Sulfates

Isoreticular Design of KTiOPO4-Like Deep-Ultraviolet Transparent Materials Exhibiting Strong Second-Harmonic Generation

Experimental study and simulation of water quality purification of urban surface runoff using non-vegetated bioswales

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Resources

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Isoreticular Design of KTiOPO₄-Like Deep-Ultraviolet Transparent Materials Exhibiting Strong Second-Harmonic Generation