祝賀我組褚曉姍同學基于3D多孔g-C3N4/GO骨架穩定貴金屬助催化劑增強日光誘導產氫活性研究成果發表于頂級期刊Applied Catalysis B: Envrionmental
中文題目:3D多孔g-C3N4/GO骨架穩定貴金屬助催化劑增強日光誘導產氫活性
Title: Enhanced cocatalyst-support interaction and promoted
electron transfer of 3D porous g-C3N4/GO-M (Au, Pd, Pt)
composite catalysts for hydrogen evolution
作者:李偉* 褚曉姍 王菲 黨妍妍 劉小云 王學川* 王傳義*
關鍵字:Simulated
solar light; Hydrogen evolution reaction; Precious metal; Three-dimensional
porous structure; Electron acceptor
論文來源:期刊
具體來源:https://www.sciencedirect.com/science/article/abs/pii/S0926337321001600#!
發表時間:2021年
研究背景:
隨著經濟的快速發展及人類生活需求的不斷增長�,環境與能源問題日益凸顯���。解決環境污染和能源短缺問題已迫在眉睫��。氫能源是一種綠色�����、可持續新能源,通過光催化技術有效產氫是目前能源材料領域研究的熱點����。
研究內容:
鑒于石墨烯及碳氮化合物(g-C3N4)表現出的諸多優越性能在光催化劑合成中具有重要應用�����。本研究通過模板輔助法構筑3D多孔g-C3N4/GO (p-CNG)復合骨架�����。基于3D p-CNG復合骨架適宜的孔徑尺寸及結構中大量官能團的配位效應��,可以將貴金屬(Au����、Pd、Pt)助催化劑穩定固定在3D p-CNG復合骨架結構中��,構筑出3D p-CNG-M (Au�、Pd、Pt)復合催化劑���。作為電子受體的貴金屬助催化劑顯著增加了復合結構的催化活性位點,促進了電子-空穴分離����,從而在模擬日光(SSL)誘導下表現出顯著增強的催化產氫活性。研究表明�,當pH = 10.5時����,助催化劑-載體相互作用最強�����,是的優化后的3D p-CNG-Pt復合催化劑產氫活性更為突出(2565.81
μmol·g-1·h-1)����,其活性可以達到3 D p-CNG復合骨架(18.93
μmol·g-1·h-1)的136倍����。在λ =
420 nm的誘導光下,其表觀量子產率達到了21.6%。鑒于優化催化劑穩定的架構優勢����,其在長時間的光誘導和多次循環利用過程中均表現出優異的催化持久性和重復使用性��。
Fig.1 Synthetic diagram of 3D p-CNG-M (Au, Pd, Pt) composite catalysts.
研究意義:
本研究為增強貴金屬修飾光催化劑的結構穩定性并提高其催化產氫性能提供了一種有效策略。
部分表征及性能數據如下圖所示:
Fig.2 TEM, HRTEM, HAADF, EDX mapping and SAED images of 3D p-CNG-M: Au (B(a-d)), Pd
(C(a-d)) and Pt (D(a-d)). The up-inserts of B-D(a) are particle size
distributions of cocatalysts, and the down-inserts are their SEM images. The
inserts of B-D(b) are the partial magnifications of their HRTEM images.
Fig.3 (a-c) XPS high-resolution spectra of fresh and
recovered 3D p-CNG-M (Au, Pd, Pt) composite catalysts, and (d-g) N2 adsorption-desorption isotherms of 3D p-CNG
skeleton and 3D p-CNG-M (Au, Pd, Pt) composite catalysts.
Fig.4 (a) HER kinetic curves, (b) average HER rates, (f) durability and (g) recycling
performances of optimal 3D p-CNG-M (Au, Pd, Pt) composite catalysts. (c-e)
Investigation of catalyst dosage to the HER performance of optimal 3D p-CNG-M
(Au, Pd, Pt) composite catalysts. (h) HER performances of optimal 3D p-CNG-M
(Au, Pd, Pt) composite catalysts in different pH values.
Fig.5 (a) UV-vis absorption spectra, (c) PL spectra, (d) TRPL spectra, (e) EIS curves
(in dark and under photoinduction (L)), (f) LSV polarization curves (with
interrupted photoinduction) and (g) Tafel polarization curves of 3D p-CNG
skeleton and optimal 3D p-CNG-M (Pt, Pd, Au) composite catalysts. (b)
Magnification of UV-vis absorption spectra of optimal 3D p-CNG (Au, Pd, Pt) composite catalysts during 450~650 nm.
Fig.6 (a) Mott-Schottky plots of 3D p-CNG skeleton and optimal 3D p-CNG-M (Au, Pd,
Pt) composite catalysts. (b) VBM-XPS spectrum and (c) (ahν)n/2-hν pattern of 2D g-C3N4 NSs. (d) Band structures and electron transfer mechanisms of optimal 3D p-CNG-M
(Au, Pd, Pt) composite catalysts.
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作者簡介:
褚曉姍,女�����,1996年生���,陜西渭南人����,陜西科技大學2019級研究生�。主要從事貴金屬修飾催化劑及產氫相關研究,已知名期刊《Environmental Science: Nano》和《Applied Catalysis B: Environmental》發表SCI論文2篇��。榮獲2020年度研究生國家獎學金1項�,二等學業獎學金1項。