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Books and book chapters

  • Huang, Mechanistic Studies of the Ethylbenzene Disproportionation on Acidic Zeolite Catalysts by In Situ Solid-state NMR Spectroscopy, ISBN 978-3-8325-1970-4, Logos Verlag Berlin (Scientific Publisher): Berlin, 2008.

  • Zichun Wang, Jun Huang, Brønsted-Lewis acids for efficient conversion of renewables, in 'Production of Biofuels and Chemicals with Bifunctional Catalysts', Editors: Fang, Smith, Li; Springer, 2017.

Papers

2024

  1. Pradeep S. Murthy, Oliver J. Conquest, Weibin Liang, Catherine Stampfl*, and Jun Huang*, 2024, An Outlook on the Applications of Ru-Based Nanocatalysts for CO2 Hydrogenation to CO and CH4. Energy Fuels 2024, 38, 11, 9339–9364

  2. Fan Fang, Jie Zhang, Lijing Xiang, Chong Chen, Nengjie Feng, Yanqi Lv, Kun Chang, and Jun Huang, 2024, Ordering  Bimetallic  Cu-Pd  Catalysts  onto  Orderly  Mesoporous  SrTiO3-Crystal Nanotubular Networks for Efficient Carbon Dioxide Photoreduction, Angewandte Chemie International Edition, DOI: 10.1002/anie.202405807

  3. Chunjing Su,  Sibei Zou,  Jiaquan Li,  Lizhuo Wang,  Jun Huang, 2024, Supporting Nano Catalysts for the Selective Hydrogenation of Biomass-derived Compounds, ChemSusChem, https://doi.org/10.1002/cssc.202400602.

  4. Murthy, Pradeep; Conquest, Oliver; Liang, Weibin ; Stampfl, Catherine; Huang, Jun, 2024, An outlook on the applications of Ru-based nanocatalysts for CO2 hydrogenation to CO and CH4, Energy & Fuels, accepted (Invited paper)

  5. Peipei Xiao, Yong Wang, Lizhuo Wang, Hiroto Toyoda, Kengo Nakamura, Samya Bekhti, Yao Lu, Jun Huang, 2024, Hermann Gies & 
    Toshiyuki Yokoi Understanding the effect of spatially separated Cu and acid sites in zeolite catalysts on oxidation of methane. Nature Communications, volume 15, Article number: 2718 (2024) Cite this article

  6. Y Liang, F Li, X Cui, T Lv, C Stampfl, SP Ringer, X Yang, J Huang, R. Zheng, 2024, Toward stabilization of formamidinium lead iodide perovskites by defect control and composition engineering, Nature Communications 15 (1), 1707.

  7. Lv, T., Liang, Y., Zeng, F., Li, F., Yang, X., Huang, J. and Zheng, R., 2024. Kinetic Process with Anti-Frenkel Disorder in a CsPbI3 Perovskite. The Journal of Physical Chemistry Letters, 15, 2929-2935.

  8. Marcello B. Solomon; Swapna S. Rabha; Gustavo Fimbres-Weihs; Himanshu Goyal; Firouzeh R. Taghikhah; Jithin J. Varghese; Samuel R. Wenger; Weibin Liang; Eleanor R. Kearns; Jun Huang , et.al., 2024, Decarbonization in Australia and India: Bilateral Opportunities and Challenges for the Net Zero Transformation, ACS Engineering Au, 3c00060

  9. J Li, S Zhao, C Li, S Kawi, K Wang, J Huang, S Liu, 2024, Single atom manganese catalyst boosting selective oxidation of alcohols with activated peroxymonosulfate, Journal of Colloid and Interface Science 656, 58-67

  10. R Singh, L Wang, K Ostrikov, J Huang, 2024, Designing Carbon‐Based Porous Materials for Carbon Dioxide Capture, Advanced Materials Interfaces 11 (4), 2202290.

  11. Chunfei Wu, Qi Huang, Zhicheng Xu, Ayesha Tariq Sipra, Ningbo Gao, Luciana Porto de Souza Vandenberghe, Sabrina Vieira, Carlos Ricardo Soccol, Ruikai Zhao, Shuai Deng, Sandra K.S. Boetcher, Shijian Lu, Huancong Shi, Dongya Zhao, Yupeng Xing, Yongdong Chen, Jiamei Zhu, Dongdong Feng, Yu Zhang, Lihua Deng, Hui Zhou, 2024, A comprehensive review of carbon capture science and technologies, Carbon Capture Science & Technology, Volume 11, June 2024, 100178

  12. R Singh, L Wang, J Huang, 2024, In–Situ Characterization Techniques for Mechanism Studies of CO2 Hydrogenation, ChemPlusChem, CPLU202300511, 2024

  13. Muchun Fei, Benjamin Williams, Lizhuo Wang, Haoyi Li, Yucheng Yuan, James R. Wilkes, Tianying Liu, Yu Mu, Jier Huang, James Nyakuchena, Jun Huang, Wei Li, Dunwei Wang, 2024, Highly Selective Photocatalytic Methane Coupling by Au-Modified Bi2WO6. ACS Catalysis, Volume, 14, Issue, 3, Pages, 1855–1861

  14. Xin He, Ning Wang, Qiaoqiao Zhou, Jun Huang, 2024, Seeram Ramakrishna, Fanghua Li, 2024, Smart aviation biofuel energy system coupling with machine learning technology, Renewable and Sustainable Energy Reviews, Volume 189, Pages, 113914

  15. Zichun Wang, Dan Wang, Ang Li, Lizhuo Wang, Xiaodong Han, Yijiao Jiang, Jianfeng Chen, Jun Huang, 2024, Interface catalytic reduction of alumina by nickle for the aluminum nanowire growth: Dynamics observed by in situ TEM, Nano Research, Volume 17, Issue 3, Pages 1225-1231

  16. Qiaowei Lin, Jiaxing Liang, Ruopian Fang, Changlong Sun, Aditya Rawal, Jun Huang, Quan-Hong Yang, Wei Lv, Da-Wei Wang, 2024, A Lewis Acid–Lewis Base Hybridized Electrocatalyst for Roundtrip Sulfur Conversion in Lithium–Sulfur Batteries, Advanced Energy Materials, first published: 29 March 2024, https://doi.org/10.1002/aenm.202400786.

  17. Muchun Fei, Benjamin Williams, Lizhuo Wang, Haoyi Li, Yucheng Yuan, James R. Wilkes, Tianying Liu, Yu Mu, Jier Huang, James Nyakuchena, Jun Huang, Wei Li*, and Dunwei Wang, 2024, Highly Selective Photocatalytic Methane Coupling by Au-Modified Bi2WO6, ACS Catal. 2024, 14, 3, 1855–1861

  18. He, Xin, Wang, Ning, Zhou, Qiaoqiaod, Huang, Jun, Ramakrishna, Seeram, Li, Fanghua, 2024, Smart aviation biofuel energy system coupling with machine learning technology, Renewable and Sustainable Energy Reviews, Volume 189, January 2024 Article number 113914, 10.1103/PhysRevB.108.235159.

 

2023

  1. Liang, W., Wang, X., Yang, W., Zhao, S., Wiley, D., Haynes, B.S., Jiang, Y., Liu, P. and Huang, J., 2023. Tailoring and Identifying Brønsted Acid Sites on Metal Oxo-Clusters of Metal–Organic Frameworks for Catalytic Transformation. ACS Central Science, 9 (1), 27-35.

  2. S Zou, L Wang, H Wang, X Zhang, H Sun, X Liao, J Huang, AR Masri,2023, Structure-performance correlation on bimetallic catalysts for selective CO2 hydrogenation, 2023, Energy & Environmental Science 16 (11), 5513-5524

  3. W Liang, K Flint, Y Yao, J Wu, L Wang, C Doonan, J Huang, 2023, Enhanced Bioactivity of Enzyme/MOF Biocomposite via Host Framework Engineering, Journal of the American Chemical Society 145 (37), 20365-20374

  4. W Yang, X Liu, LA O’Dell, X Liu, L Wang, W Zhang, B Shan, Y Jiang, J. Huang, 2023, Atomic Layer Deposition of the Geometry Separated Lewis and Brønsted Acid Sites for Cascade Glucose Conversion, JACS Au 3 (9), 2586-2596

  5. AN Marianov, Y Jiang, A Baiker, J Huang, 2023, Homogeneous and heterogeneous strategies of enantioselective hydrogenation: Critical evaluation and future prospects, Chem Catalysis, 100631.

  6. N Wei, L Wang, W Yang, D Zhang, Z Jia, W Liu, W Zhang, J Zang, S. Huang, J. Huang, 2023,Insight into the Evolution Track for the Metathesis of Alkenes within Hierarchical Zeolite‐Based Catalysts, Chemistry–A European Journal 29 (31), e202300543

  7. Y Liu, C Li, C Tan, Z Pei, T Yang, S Zhang, Q Huang, Y Wang, Z Zhou, J. Huang, S. Zhao, 2023, Electrosynthesis of chlorine from seawater-like solution through single-atom catalysts, Nature Communications 14 (1), 2475.

  8. Y Shu, W Liang, J Huang, 2023. Heterogeneity in enzyme/metal–organic framework composites for CO 2 transformation reactions, Green Chemistry 25 (11), 4196-4221.

  9. Z Wang, D Wang, A Li, L Wang, X Han, Y Jiang, J Chen, J Huang, 2023, Interface catalytic reduction of alumina by nickle for the aluminum nanowire growth: Dynamics observed by in situ TEM,Nano Research, 1-7.

  10. Y Ma, L Wang, W Zhao, T Liu, H Li, W Luo, Q Jiang, W Liu, Q Yang, J. Huang, J. Liu, 2023, Reactant enrichment in hollow void of Pt NPs@ MnOx nanoreactors for boosting hydrogenation performance, National Science Review 10 (10), nwad201.

  11. Liang, Y., Cui, X., Li, F., Stampfl, C., Ringer, S.P., Yang, X., Huang, J. and Zheng, R., 2023. Origin of Enhanced Nonradiative Carrier Recombination Induced by Oxygen in Hybrid Sn Perovskite. The Journal of Physical Chemistry Letters, 14, pp.2950-2957.

  12. Murthy, P.S., Wilson, L., Zhang, X., Liang, W. and Huang, J., 2023. Ni-doped Metal-Azolate Framework-6 derived carbon as a highly active catalyst for CO2 conversion through the CO2 hydrogenation reaction. Carbon Capture Science & Technology, p.100104.

  13. Sun, H., Tang, R., Zhang, X., Zou, S., Shi, Y., Chen, K., Sarina, S. and Huang, J., 2023. RuCu Bimetallic Catalyst on N-doped Mesoporous Carbon for High-performance CO2 Methanation. Carbon Capture Science & Technology, p.100100.

  14. Sun, H., Tang, R., Zhang, X., Zhang, S., Yang, W., Wang, L., Liang, W., Li, F., Zheng, R. and Huang, J., 2023. Interfacial energy band engineered CsPbBr3/NiFe-LDH heterostructure catalyst with tunable visible light driven photocatalytic CO2 reduction capability. Catalysis Science & Technology, 13 (4), 1154-1163.

  15. P Xiao, K Nakamura, Y Lu, J Huang, L Wang, R Osuga, M Nishibori, T. Yokoi, 2023, One-Pot Synthesized Fe-AEI Zeolite Catalysts Contribute to Direct Oxidation of Methane, ACS Catalysis 13 (24), 16168-16178

  16. C Wu, Q Huang, Z Xu, AT Sipra, N Gao, LP de Souza Vandenberghe, J. Huang, et.al., 2023, A comprehensive review of carbon capture science and technologies,Carbon Capture Science & Technology, 100178

  17. J Li, K Wang, Y Jiang, J Huang, S Liu, 2023, Advances of Single‐Atomic Cobalt Catalysts in Liquid‐Phase Selective Oxidative Reactions, Small Science 3 (12), 2300079

  18. W Yang, X Liu, LA O’Dell, L Wang, Y Jiang, J Huang, 2023, Coordinating Silanol with a Single AlV Site for Brønsted Acidity on Mesoporous Amorphous Al2O3, The Journal of Physical Chemistry C 127 (48), 23212-23222

  19. PS Murthy, IRK Rombaut, H Ling, Y Tao, M Ye, F Chen, J Huang, 2023, Renewable Hydrogen Production with Steam Reforming of Ethanol Using Siliceous Mesocellular Foam‐Supported Nickel Catalysts, Advanced Energy and Sustainability Research 4 (11), 2300064

  20. X Zhang, R Tang, H Sun, W Yang, W Liang, F Li, R Zheng, J Huang, 2023, Synergistically Interface-Engineered Inorganic Halide Perovskite Photocathodes for Photoelectrochemical CO2 Reduction, Energy & Fuels 37 (23), 18163-18172

  21. W Liang, MZM Noor, W Lewis, A Macmillan, X Zhang, R Tang, A Kochubei, 2023, Design of an ocu‐Metal‐Organic Framework for a Photocatalysis Reaction, ChemPhotoChem 7 (7), e202300031

  22. T Lv, Y Liang, F Li, X Yang, J Huang, R Zheng, 2023, Two-dimensional halide perovskites: A review on their orientations, Science China Physics, Mechanics & Astronomy 66 (1), 217306.

  23. Fang Zeng, Weiyu Kong, Yuhang Liang, Feng Li, Yuze Lvtao, Zhenhuang Su, Tao Wang, Bingguo Peng, Longfang Ye, Zhenhua Chen, Xingyu Gao, Jun Huang, Rongkun Zheng, Xudong Yang, 2023, Highly Stable and Efficient Formamidinium-Based 2D Ruddlesden–Popper Perovskite Solar Cells via Lattice Manipulation, Advanced Materials, First published: 06 September 2023. 

  24. Lv, Taoyuzea, Zhong, Zhicheng, Liang, Yuhang, Li, Feng, Huang, Jun, Zheng, Rongkun, 2023, Deep Charge: Deep learning model of electron density from a one-shot density functional theory calculation, Physical Review B, Volume 108, Issue 2315.

  25. Zeng, Fanga, Kong, Weiyub, Liang, Yuhang, Li, Feng, Lvtao, Yuze, Su, Zhenhuang, Wang, Tao, Peng, Bingguo, Ye, Longfang, Chen, Zhenhua, Gao, Xingyu, Huang, Jun, Zheng, Rongkun, Yang, Xudong, 2023, Highly Stable and Efficient Formamidinium‐Based 2D Ruddlesden–Popper Perovskite Solar Cells via Lattice Manipulation, Advanced Materials, 10.1002/adma.202306051.

  26. Taoyuze Lv, Zhicheng Zhong, Yuhang Liang, Feng Li, Jun Huang, and Rongkun Zheng, 2023, Deep Charge: Deep learning model of electron density from a one-shot density functional theory calculation, Physical Review B, Volume 108, issue 23, 235159 pages.

2022

  1. ​​Yang, W., Kim, K.D., O'Dell, L.A., Wang, L., Xu, H., Ruan, M., Wang, W., Ryoo, R., Jiang, Y. and Huang, J., 2022. Brønsted acid sites formation through penta-coordinated aluminum species on alumina-boria for phenylglyoxal conversion. Journal of Catalysis, 416, pp.375-386.

  2. Ding, J., Wang, L., Stone, S.B., Zhu, Y., Liang, W., Jiang, Y. and Huang, J., 2022. Nanotubular g-C3N4 confining AuPd particle for the improved catalytic reactivity in hydrogen production from formic acid. Materials Today Chemistry, 26, p.101140.

  3. Thomas, S.R., Yang, W., Morgan, D.J., Davies, T.E., Li, J.J., Fischer, R.A., Huang, J., Dimitratos, N. and Casini, A., 2022. Bottom‐up Synthesis of Water‐Soluble Gold Nanoparticles Stabilized by N‐Heterocyclic Carbenes: From Structural Characterization to Applications. Chemistry–A European Journal, 28(56), p.e202201575.

  4. Liang, Y., Cui, X., Li, F., Stampfl, C., Ringer, S.P., Huang, J. and Zheng, R., 2022. Trapped-Hydrogen-Induced Energy Loss in Tin-Based Hybrid Perovskite Solar Cells. Physical Review Applied, 18(3), p.034084.

  5. Tang, R., Sun, H., Wang, L., Yang, W., Kochubei, A., Jiang, Y., Zheng, R. and Huang, J., 2022. Perovskite-Nanoparticle-Incorporated NH2-MIL-125 (Ti) Nanoreactors with an Optimal Conduction Band Offset for Visible-Light-Driven CO2 Reduction. ACS Sustainable Chemistry & Engineering, 10(36), pp.11939-11947.

  6. Wang, Z., Jiang, Y., Yang, W., Li, A., Hunger, M., Baiker, A. and Huang, J., 2022. Tailoring single site VO4 on flame-made V/Al2O3 catalysts for selective oxidation of n-butane. Journal of Catalysis, 413, pp.93-105.

  7. Liang, Y., Cui, X., Li, F., Stampfl, C., Ringer, S.P., Huang, J. and Zheng, R., 2022. Interstitial Hydrogen Anions: A Cause of p-Type Conductivity in CsSnI3. The Journal of Physical Chemistry C, 126(35), pp.14843-14849.

  8. Tang, R. and Huang, J., 2022. Enclosing the nitrogen cycle: Ammonia synthesis by NOx reduction. Current Opinion in Green and Sustainable Chemistry, p.100681.

  9. Liang, Y., Cui, X., Li, F., Stampfl, C., Ringer, S.P., Huang, J. and Zheng, R., 2022. Hydrogen‐Induced Nonradiative Recombination in All‐Inorganic CsPbI3 Perovskite Solar Cells. Solar RRL, 6(8), p.2200211.

  10. Xing, W., Kong, L., Zhang, X., Zhang, Y., Tu, X., Yu, J., Yang, J., Zhou, C., Zhu, W. and Huang, J., 2022. Enhanced Methanol Electrooxidation Performance Based on Pt Cluster‐Decorated CuCoO2 on Carbon. ChemistrySelect, 7(28), p.e202200513.

  11. Thomas, S.R., Yang, W., Morgan, D.J., Davies, T.E., Li, J.J., Fischer, R.A., Huang, J., Dimitratos, N. and Casini, A., 2022. Bottom‐up Synthesis of Water‐Soluble Gold Nanoparticles Stabilized by N‐Heterocyclic Carbenes: From Structural Characterization to Applications. Chemistry–A European Journal, p.e202201575.

  12. Tang, R., Ying, M., Zhang, X., Zheng, R. and Huang, J., 2022. Interfacial Heterojunction-Engineered Fe2O3/CoFe-Layered Double Hydroxide Catalyst for the Electrocatalytic Oxygen Evolution Reaction. Energy & Fuels.

  13. Wang, Y., Yang, W., Xu, S., Zhao, S., Chen, G., Weidenkaff, A., Hardacre, C., Fan, X., Huang, J. and Tu, X., 2022. Shielding protection by mesoporous catalysts for improving plasma-catalytic ambient ammonia synthesis. Journal of the American Chemical Society, 144(27), pp.12020-12031.

  14. Wang, Z., Arstad, B., Wang, L., Ling, H., Shi, J., Stampfl, C., Jiang, Y. and Huang, J., 2022. Bio‐oil upgrading via ketonization of carboxylic acids on Na promoted Ca/AlOx catalysts. Carbon Neutralization, 1(1), pp.14-25.

  15. Sun, Y., Wu, J., Wang, Y., Li, J., Wang, N., Harding, J., Mo, S., Chen, L., Chen, P., Fu, M. and Ye, D., 2022. Plasma-Catalytic CO2 Hydrogenation over a Pd/ZnO Catalyst: In Situ Probing of Gas-Phase and Surface Reactions. JACS Au.

  16. Sun, H., Tang, R. and Huang, J., 2022. Considering single-atom catalysts as photocatalysts from synthesis to application. Iscience, 25(5).

  17. Liang, Y., Cui, X., Li, F., Stampfl, C., Ringer, S.P., Huang, J. and Zheng, R., 2022. Minimizing and Controlling Hydrogen for Highly Efficient Formamidinium Lead Triiodide Solar Cells. Journal of the American Chemical Society, 144(15), pp.6770-6778.

  18. Qu, J., Yang, W., Wu, T., Ren, W., Huang, J., Yu, H., Zhao, C., Griffith, M.J., Zheng, R., Ringer, S.P. and Cairney, J.M., 2022. Atom probe specimen preparation methods for nanoparticles. Ultramicroscopy, 233, p.113420.

  19. Ding, J., Huang, X., Yang, Q., Wang, L., Peng, Y., Li, J. and Huang, J., 2022. Micro-structured Cu-ZSM-5 catalyst on aluminum microfibers for selective catalytic reduction of NO by ammonia. Catalysis Today, 384, pp.106-112.

  20. Xia, B., Yang, W., Liang, H., Liu, S., Wang, D. and Huang, J., 2022. Cancer Prevention Effects of Foods, Food Groups, Nutrients, and Their Underlying Mechanisms. ACS Food Science & Technology, 2(3), pp.437-454.

  21. Tang, R., Sun, H., Zhang, Z., Liu, L., Meng, F., Zhang, X., Yang, W., Li, Z., Zhao, Z., Zheng, R. and Huang, J., 2022. Incorporating plasmonic Au-nanoparticles into three-dimensionally ordered macroporous perovskite frameworks for efficient photocatalytic CO2 reduction. Chemical Engineering Journal, 429, p.132137.

  22. Wang, Z., Jiang, Y., Baiker, A., Hunger, M. and Huang, J., 2022. Promoting Aromatic C–H Activation through Reactive Brønsted Acid–Base Pairs on Penta-Coordinated Al-Enriched Amorphous Silica–Alumina. The Journal of Physical Chemistry Letters, 13(2), pp.486-491.

  23. Zhang, X., Tang, R., Li, F., Zheng, R. and Huang, J., 2022. Tailoring Inorganic Halide Perovskite Photocatalysts toward Carbon Dioxide Reduction. Solar RRL, p.2101058.

2021

  1. Wang, Z., Chen, K., Jiang, Y., Trebosc, J., Yang, W., Amoureux, J.P., Hung, I., Gan, Z., Baiker, A., Lafon, O. and Huang, J., 2021. Revealing Brønsted acidic bridging SiOHAl groups on amorphous silica–alumina by ultrahigh field solid-state NMR. The Journal of Physical Chemistry Letters, 12(47), pp.11563-11572.

  2. Yang, W., Liang, W., O’Dell, L.A., Toop, H.D., Maddigan, N., Zhang, X., Kochubei, A., Doonan, C.J., Jiang, Y. and Huang, J., 2021. Insights into the Interaction between Immobilized Biocatalysts and Metal–Organic Frameworks: A Case Study of PCN-333. JACS Au, 1(12), pp.2172-2181.

  3. Tang, R., Wang, L., Zhang, Z., Yang, W., Xu, H., Kheradmand, A., Jiang, Y., Zheng, R. and Huang, J., 2021. Fabrication of MOFs’ derivatives assisted perovskite nanocrystal on TiO2 photoanode for photoelectrochemical glycerol oxidation with simultaneous hydrogen production. Applied Catalysis B: Environmental, 296, p.120382.

  4. Liang, Y., Cui, X., Li, F., Stampfl, C., Huang, J., Ringer, S.P. and Zheng, R., 2021. Hydrogen-Anion-Induced Carrier Recombination in MAPbI3 Perovskite Solar Cells. The Journal of Physical Chemistry Letters, 12(43), pp.10677-10683.

  5. Ying, M., Tang, R., Zhao, S., Yang, W., Liang, W., Zhang, X., Yang, G., Zheng, R., Pan, H., Liao, X. and Huang, J., 2021. Correlation and Improvement of Bimetallic Electronegativity on Metal–Organic Frameworks for Electrocatalytic Water Oxidation. Advanced Energy and Sustainability Research, 2(10), p.2100055.

  6. Sun, H., Chen, S., Yang, W., Wang, L., Tang, R., Zhang, X., Zheng, R., Gu, S., Jiang, Y., Liang, W. and Huang, J., 2021. Plasmon-enhanced alcohol oxidations over porous carbon nanosphere-supported palladium and gold bimetallic nanocatalyst. Applied Catalysis B: Environmental, 292, p.120151.

  7. Ding, J., Sarrigani, G.V., Qu, J., Ebrahimi, A., Zhong, X., Hou, W.C., Cairney, J.M., Huang, J., Wiley, D.E. and Wang, D.K., 2021. Designing Co3O4/silica catalysts and intensified ultrafiltration membrane-catalysis process for wastewater treatment. Chemical Engineering Journal, 419, p.129465.

  8. Yang, W., Xia, B., Wang, L., Ma, S., Liang, H., Wang, D. and Huang, J., 2021. Shape effects of gold nanoparticles in photothermal cancer therapy. Materials Today Sustainability, 13, p.100078.

  9. Zhao, S., He, S., Du Kim, K., Wang, L., Ryoo, R., Wang, Z. and Huang, J., 2021. Influence of hierarchical ZSM-5 catalysts with various acidity on the dehydration of glycerol to acrolein. Magnetic Resonance Letters, 1(1), pp.71-80.

  10. Zhao, Y., Wang, Z., Yang, W., Gu, S., Yang, X., Kheradmand, A., Zhang, X., Luo, Y., Huang, J. and Jiang, Y., 2021. Promotional Effect of Ni− Sn Interaction over Ni Supported on Sn‐incorporated MCM‐41 Catalysts for CO2 Reforming of CH4. ChemNanoMat, 7(8), pp.927-934.

  11. Zhu, Y., Zheng, X., Zhang, W., Kheradmand, A., Gu, S., Kobielusz, M., Macyk, W., Li, H., Huang, J. and Jiang, Y., 2021. Near-infrared-triggered nitrogen fixation over upconversion nanoparticles assembled carbon nitride nanotubes with nitrogen vacancies. ACS Applied Materials & Interfaces, 13(28), pp.32937-32947.

  12. Zhao, S., Yang, W., Kim, K.D., Wang, L., Wang, Z., Ryoo, R. and Huang, J., 2021. Synergy of Extraframework Al3+ Cations and Brønsted Acid Sites on Hierarchical ZSM-5 Zeolites for Butanol-to-Olefin Conversion. The Journal of Physical Chemistry C, 125(21), pp.11665-11676.

  13. Zhang, W., Wang, Z., Huang, J. and Jiang, Y., 2021. Zirconia-based solid acid catalysts for biomass conversion. Energy & Fuels, 35(11), pp.9209-9227.

  14. Zhao, S., Collins, D., Wang, L. and Huang, J., 2021. Influence of ZSM-5 porosity and binder introduction on the coke formation in the cracking of 1, 3, 5-triisopropylbenzene. Catalysis Today, 368, pp.211-216.

  15. Yang, W., Wang, Z., Huang, J. and Jiang, Y., 2021. Qualitative and quantitative analysis of acid properties for solid acids by solid-state nuclear magnetic resonance spectroscopy. The Journal of Physical Chemistry C, 125(19), pp.10179-10197.

  16. Xu, H., Wang, Z., Huang, J. and Jiang, Y., 2021. Thermal catalytic conversion of biomass-derived glucose to fine chemicals. Energy & Fuels, 35(10), pp.8602-8616.

  17. Murthy, P.S., Liang, W., Jiang, Y. and Huang, J., 2021. Cu-Based Nanocatalysts for CO2 hydrogenation to methanol. Energy & Fuels, 35(10), pp.8558-8584.

  18. Wang, L., Tang, R., Kheradmand, A., Jiang, Y., Wang, H., Yang, W., Chen, Z., Zhong, X., Ringer, S.P., Liao, X. and Liang, W., 2021. Enhanced solar-driven benzaldehyde oxidation with simultaneous hydrogen production on Pt single-atom catalyst. Applied Catalysis B: Environmental, 284, p.119759.

  19. Murthy, P.S., Wang, Z., Wang, L., Zhao, J., Wang, Z., Liang, W. and Huang, J., 2021. Response to Comment on “Improved CO2 Hydrogenation on Ni–ZnO/MCM-41 Catalysts with Cooperative Ni and ZnO Sites”. Energy & Fuels, 35(9), pp.8438-8440.

  20. Wang, C., Wang, K., Feng, Y., Li, C., Zhou, X., Gan, L., Feng, Y., Zhou, H., Zhang, B., Qu, X. and Li, H., 2021. Co and Pt Dual‐Single‐Atoms with Oxygen‐Coordinated Co–O–Pt Dimer Sites for Ultrahigh Photocatalytic Hydrogen Evolution Efficiency. Advanced Materials, 33(13), p.2003327.

  21. Tang, R., Zhou, S., Zhang, Z., Zheng, R. and Huang, J., 2021. Engineering nanostructure–interface of photoanode materials toward photoelectrochemical water oxidation. Advanced Materials, 33(17), p.2005389.

  22. Tang, R., Wang, L., Ying, M., Yang, W., Kheradmand, A., Jiang, Y., Li, Z., Cui, Y., Zheng, R. and Huang, J., 2021. Multigraded Heterojunction Hole Extraction Layer of ZIF‐CoxZn1− x on Co3O4/TiO2 Skeleton for a New Photoanode Architecture in Water Oxidation. Small Science, 1(4), p.2000033.

  23. Zhao, Y., Wang, L., Kochubei, A., Yang, W., Xu, H., Luo, Y., Baiker, A., Huang, J., Wang, Z. and Jiang, Y., 2021. Formation and Location of Pt Single Sites Induced by Pentacoordinated Al Species on Amorphous Silica–Alumina. The Journal of Physical Chemistry Letters, 12(10), pp.2536-2546.

  24. Ren, M., Shi, Q., Mi, L., Liang, W., Yuan, M., Wang, L., Gao, Z., Huang, W., Huang, J. and Zuo, Z., 2021. Isothermal conversion of methane to methanol over CuxOy@ UiO-bpy. Materials Today Sustainability, 11, p.100061.

  25. Wang, Z., Buechel, R., Jiang, Y., Wang, L., Xu, H., Castignolles, P., Gaborieau, M., Lafon, O., Amoureux, J.P., Hunger, M. and Baiker, A., 2021. Engineering the distinct structure interface of subnano-alumina domains on silica for acidic amorphous silica–alumina toward biorefining. JACS Au, 1(3), pp.262-271.

  26. Shen, J., Tang, R., Huang, J., Wu, Y., Chen, C., Zhou, Q., Huang, Y., Motkuri, R.K., Jin, X. and Cao, H., 2021. Strain engineered gas-consumption electroreduction reactions: Fundamentals and perspectives. Coordination Chemistry Reviews, 429, p.213649.

  27. Ying, M., Tang, R., Yang, W., Liang, W., Yang, G., Pan, H., Liao, X. and Huang, J., 2021. Tailoring Electronegativity of Bimetallic Ni/Fe Metal–Organic Framework Nanosheets for Electrocatalytic Water Oxidation. ACS Applied Nano Materials, 4(2), pp.1967-1975.

  28. Zhao, S., Kim, K.D., Wang, L., Ryoo, R. and Huang, J., 2021. Tailoring Multiple Porosities of Hierarchical ZSM‐5 Zeolites by Carbon Dots for High‐Performance Catalytic Transformation. Advanced Materials Interfaces, 8(4), p.2001846.

  29. Li, H., Liu, Y., Liu, Y., Wang, L., Tang, R., Deng, P., Xu, Z., Haynes, B., Sun, C. and Huang, J., 2021. Efficient visible light driven ammonia synthesis on sandwich structured C3N4/MoS2/Mn3O4 catalyst. Applied Catalysis B: Environmental, 281, p.119476.

  30. Ding, J., Wang, L., Wu, P., Li, A., Li, W., Stampfl, C., Liao, X., Haynes, B.S., Han, X. and Huang, J., 2021. Confined Ru Nanocatalysts on Surface to Enhance Ammonia Synthesis: An In situ ETEM Study. ChemCatChem, 13(2), pp.534-538.

  31. Yang, X., Xu, X., Hou, X., Zhang, P., Mi, J., Xiao, B., Huang, J. and Stampfl, C., 2021. Transition metal-doped tetra-MoN2 monolayers as an electrochemical catalyst for CO2 reduction: a density functional theory study. Catalysis Communications, 149, p.106212.

  32. Zhao, S. and Huang, J., 2021. Study by Solid-state NMR Spectroscopy on the Acidity and Shape-selectivity of Zeolites. CHEMICAL JOURNAL OF CHINESE UNIVERSITIES-CHINESE, 42(1), pp.165-178.

2020

  1. Murthy, P.S., Wang, Z., Wang, L., Zhao, J., Wang, Z., Liang, W. and Huang, J., 2020. Improved CO2 Hydrogenation on Ni–ZnO/MCM-41 Catalysts with Cooperative Ni and ZnO Sites. Energy & Fuels, 34(12), pp.16320-16329.

  2. Chen, F., Tao, Y., Ling, H., Zhou, C., Liu, Z., Huang, J. and Yu, A., 2020. Ni-Cu bimetallic catalysts on Yttria-stabilized zirconia for hydrogen production from ethanol steam reforming. Fuel, 280, p.118612.

  3. Tian, H., Zhao, J., Wang, X., Wang, L., Liu, H., Wang, G., Huang, J., Liu, J. and Lu, G.Q., 2020. Construction of hollow mesoporous silica nanoreactors for enhanced photo-oxidations over Au-Pt catalysts. National science review, 7(11), pp.1647-1655.

  4. Wang, Z., Jiang, Y., Baiker, A. and Huang, J., 2020. Pentacoordinated aluminum species: New frontier for tailoring acidity-enhanced silica–alumina catalysts. Accounts of Chemical Research, 53(11), pp.2648-2658.

  5. Li, X., Huang, L., Kochubei, A., Huang, J., Shen, W., Xu, H. and Li, Q., 2020. Evolution of a Metal‐Organic Framework into a Brønsted Acid Catalyst for Glycerol Dehydration to Acrolein. ChemSusChem, 13(18), pp.5073-5079.

  6. Zhang, P., Xu, X., Song, E., Hou, X., Yang, X., Mi, J., Huang, J. and Stampfl, C., 2020. Transition metal-doped α-borophene as potential oxygen and hydrogen evolution electrocatalyst: A density functional theory study. Catalysis Communications, 144, p.106090.

  7. Zhao, S., Wang, W.D., Wang, L., Wang, W. and Huang, J., 2020. Cooperation of hierarchical pores with strong Brønsted acid sites on SAPO-34 catalysts for the glycerol dehydration to acrolein. Journal of catalysis, 389, pp.166-175.

  8. Lin, Z., Guo, X., Wang, Z., Wang, B., He, S., O'Dell, L.A., Huang, J., Li, H., Yu, H. and Chen, L., 2020. A wide-temperature superior ionic conductive polymer electrolyte for lithium metal battery. Nano Energy, 73, p.104786.

  9. Yang, W., Zhao, J., Tian, H., Wang, L., Wang, X., Ye, S., Liu, J. and Huang, J., 2020. Solar‐driven carbon nanoreactor coupling gold and platinum nanocatalysts for alcohol oxidations. Small, 16(30), p.2002236.

  10. Kochubei, A., Zhang, Y., Wang, Z., Price, W.S., Zheng, G. and Huang, J., 2020. Structural changes in copper based metal-organic framework catalyst induced by organic solvents. Catalysis Today, 351, pp.2-5.

  11. Ling, H., Wang, Z., Wang, L., Stampfl, C., Wang, D., Chen, J. and Huang, J., 2020. Composition-structure-function correlation of Ca/Zn/AlOx catalysts for the ketonization of acetic acid. Catalysis Today, 351, pp.58-67.

  12. Zhang, W., Zhu, Y., Xu, H., Gaborieau, M., Huang, J. and Jiang, Y., 2020. Glucose conversion to 5-hydroxymethylfurfural on zirconia: tuning surface sites by calcination temperatures. Catalysis Today, 351, pp.133-140.

  13. Bodedla, G.B., Huang, J., Wong, W.Y. and Zhu, X., 2020. Self-assembled naphthalimide-substituted porphyrin nanowires for photocatalytic hydrogen evolution. ACS Applied Nano Materials, 3(7), pp.7040-7046.

  14. Sun, H., Zhang, Y., Guan, S., Huang, J. and Wu, C., 2020. Direct and highly selective conversion of captured CO2 into methane through integrated carbon capture and utilization over dual functional materials. Journal of CO2 Utilization, 38, pp.262-272.

  15. Wang, Z., Li, T., Jiang, Y., Lafon, O., Liu, Z., Trébosc, J., Baiker, A., Amoureux, J.P. and Huang, J., 2020. Acidity enhancement through synergy of penta-and tetra-coordinated aluminum species in amorphous silica networks. Nature communications, 11(1), pp.1-9.

  16. Wang, Z., Jiang, Y., Stampfl, C., Baiker, A., Hunger, M. and Huang, J., 2020. NMR Spectroscopic Characterization of Flame‐Made Amorphous Silica‐Alumina for Cyclohexanol and Glyceraldehyde Conversion. ChemCatChem, 12(1), pp.287-293.

  17. Kim, K.D., Kim, J., Teoh, W.Y., Kim, J.C., Huang, J. and Ryoo, R., 2020. Cascade reaction engineering on zirconia-supported mesoporous MFI zeolites with tunable Lewis–Brønsted acid sites: A case of the one-pot conversion of furfural to γ-valerolactone. RSC advances, 10(58), pp.35318-35328.

  18. Wang, Y.J., Liu, C., Wu, Y.J., Song, Y.H., Zhu, M.L., Huang, J., Liu, Z.T. and Liu, Z.W., 2020. Flame-spray-pyrolysis amorphous alumina-silica for tailoring the product distribution of Fischer-Tropsch synthesis. Catalysis Today, 339, pp.40-47.

2019

  1. Luo, Z., Kong, J., Ma, B., Wang, Z., Huang, J. and Zhao, C., 2019. Liquefaction and hydrodeoxygenation of polymeric lignin using a hierarchical Ni microreactor catalyst. ACS sustainable chemistry & engineering, 8(5), pp.2158-2166.

  2. Liu, H., Wu, P., Li, H., Chen, Z., Wang, L., Zeng, X., Zhu, Y., Jiang, Y., Liao, X., Haynes, B.S. and Ye, J., 2019. Unravelling the effects of layered supports on Ru nanoparticles for enhancing N2 reduction in photocatalytic ammonia synthesis. Applied Catalysis B: Environmental, 259, p.118026.

  3. Wang, Z., O'Dell, L.A., Zeng, X., Liu, C., Zhao, S., Zhang, W., Gaborieau, M., Jiang, Y. and Huang, J., 2019. Insight into Three‐Coordinate Aluminum Species on Ethanol‐to‐Olefin Conversion over ZSM‐5 Zeolites. Angewandte Chemie International Edition, 58(50), pp.18061-18068.

  4. Wang, L., Zhang, J., Huang, J., Cui, Q., Zhu, Y. and Chen, H., 2019. Self-Confinement Created for a Uniform Ir–Ni/SiO2 Catalyst with Enhanced Performances on CO2 Reforming of Methane. Energy & Fuels, 34(1), pp.111-117.

  5. Zhao, S., Wang, W.D., Wang, L., Schwieger, W., Wang, W. and Huang, J., 2019. Tuning hierarchical ZSM-5 zeolite for both gas-and liquid-phase biorefining. ACS Catalysis, 10(2), pp.1185-1194.

  6. Ye, B., Jiang, R., Yu, Z., Hou, Y., Huang, J., Zhang, B., Huang, Y., Zhang, Y. and Zhang, R., 2019. Pt (1 1 1) quantum dot engineered Fe-MOF nanosheet arrays with porous core-shell as an electrocatalyst for efficient overall water splitting. Journal of Catalysis, 380, pp.307-317.

  7. Zeng, X., Wang, Z., Ding, J., Wang, L., Jiang, Y., Stampfl, C., Hunger, M. and Huang, J., 2019. Catalytic arene alkylation over H-Beta zeolite: Influence of zeolite shape selectivity and reactant nucleophilicity. Journal of Catalysis, 380, pp.9-20.

  8. Wu, Y., Liu, Y., Yin, J., Li, H. and Huang, J., 2019. Facile ultrasonic synthesized NH2-carbon quantum dots for ultrasensitive Co2+ ion detection and cell imaging. Talanta, 205, p.120121.

  9. Yang, W., Liang, H., Ma, S., Wang, D. and Huang, J., 2019. Gold nanoparticle based photothermal therapy: Development and application for effective cancer treatment. Sustainable Materials and Technologies, 22, p.e00109.

  10. He, S., Wang, J., Zhang, X., Chen, J., Wang, Z., Yang, T., Liu, Z., Liang, Y., Wang, B., Liu, S. and Zhang, L., 2019. A high‐energy aqueous aluminum‐manganese battery. Advanced Functional Materials, 29(45), p.1905228.

  11. Wang, Y., Craven, M., Yu, X., Ding, J., Bryant, P., Huang, J. and Tu, X., 2019. Plasma-enhanced catalytic synthesis of ammonia over a Ni/Al2O3 catalyst at near-room temperature: insights into the importance of the catalyst surface on the reaction mechanism. ACS catalysis, 9(12), pp.10780-10793.

  12. Kim, K.D., Wang, Z., Tao, Y., Ling, H., Yuan, Y., Zhou, C., Liu, Z., Gaborieau, M., Huang, J. and Yu, A., 2019. The comparative effect of particle size and support acidity on hydrogenation of aromatic ketones. ChemCatChem, 11(19), pp.4810-4817.

  13. Wu, P., Tao, Y., Ling, H., Chen, Z., Ding, J., Zeng, X., Liao, X., Stampfl, C. and Huang, J., 2019. Cooperation of Ni and CaO at interface for CO2 reforming of CH4: a combined theoretical and experimental study. Acs Catalysis, 9(11), pp.10060-10069.

  14. Ding, J., Wang, L., Zhang, Z., Zhao, S., Zhao, J., Lu, Y. and Huang, J., 2019. Microstructured ZSM-11 catalyst on stainless steel microfibers for improving glycerol dehydration to acrolein. ACS Sustainable Chemistry & Engineering, 7(19), pp.16225-16232.

  15. Tian, J., Li, H., Zeng, X., Wang, Z., Huang, J. and Zhao, C., 2019. Facile immobilization of Ni nanoparticles into mesoporous MCM-41 channels for efficient methane dry reforming. Chinese Journal of Catalysis, 40(9), pp.1395-1404.

  16. Sun, H., Wang, J., Zhao, J., Shen, B., Shi, J., Huang, J. and Wu, C., 2019. Dual functional catalytic materials of Ni over Ce-modified CaO sorbents for integrated CO2 capture and conversion. Applied Catalysis B: Environmental, 244, pp.63-75.

  17. Wang, Z., Jiang, Y., Yi, X., Zhou, C., Rawal, A., Hook, J., Liu, Z., Deng, F., Zheng, A., Hunger, M. and Baiker, A., 2019. High population and dispersion of pentacoordinated AlV species on the surface of flame-made amorphous silica-alumina. Science Bulletin, 64(8), pp.516-523.

  18. Li, H., Deng, Y., Liu, Y., Zeng, X., Wiley, D. and Huang, J., 2019. Carbon quantum dots and carbon layer double protected cuprous oxide for efficient visible light CO2 reduction. Chemical Communications, 55(30), pp.4419-4422.

  19. Huang, J. and Jiang, Y., 2019. Tailoring Resource-Efficient Catalysts for Sustainable Energy and Chemical Processes. ACS Sustainable Chemistry & Engineering, 7(7), pp.6423-6423.

  20. Wang, Z., Jiang, Y., Jin, F., Stampfl, C., Hunger, M., Baiker, A. and Huang, J., 2019. Strongly enhanced acidity and activity of amorphous silica–alumina by formation of pentacoordinated AlV species. Journal of Catalysis, 372, pp.1-7.

  21. Huang, J., 2019, March. Mesoporous acid catalysts for high-efficient reaction processes. In ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY (Vol. 257). 1155 16TH ST, NW, WASHINGTON, DC 20036 USA: AMER CHEMICAL SOC.

  22. Xu, H., Wang, Z., Miao, Z., Zhu, Y., Marianov, A., Wang, L., Castignolles, P., Gaborieau, M., Huang, J. and Jiang, Y., 2019. Correlation between acidity and catalytic performance of mesoporous zirconium oxophosphate in phenylglyoxal conversion. ACS Sustainable Chemistry & Engineering, 7(9), pp.8931-8942.

  23. Zhang, P., Yang, X., Hou, X., Xu, X., Xiao, B., Huang, J. and Stampfl, C., 2019. Metal–bipyridine complexes as electrocatalysts for the reduction of CO 2: a density functional theory study. Physical Chemistry Chemical Physics, 21(42), pp.23742-23748.

  24. Zhang, P., Yang, X., Hou, X., Mi, J., Yuan, Z., Huang, J. and Stampfl, C., 2019. Active sites and mechanism of the direct conversion of methane and carbon dioxide to acetic acid over the zinc-modified H-ZSM-5 zeolite. Catalysis Science & Technology, 9(22), pp.6297-6307.

  25. Perras, F.A., Wang, Z., Kobayashi, T., Baiker, A., Huang, J. and Pruski, M., 2019. Shedding light on the atomic-scale structure of amorphous silica–alumina and its Brønsted acid sites. Physical Chemistry Chemical Physics, 21(35), pp.19529-19537.

  26. Kim, K.D., Wang, Z., Jiang, Y., Hunger, M. and Huang, J., 2019. The cooperative effect of Lewis and Brønsted acid sites on Sn-MCM-41 catalysts for the conversion of 1, 3-dihydroxyacetone to ethyl lactate. Green Chemistry, 21(12), pp.3383-3393.

  27. Sun, H., Parlett, C.M., Isaacs, M.A., Liu, X., Adwek, G., Wang, J., Shen, B., Huang, J. and Wu, C., 2019. Development of Ca/KIT-6 adsorbents for high temperature CO2 capture. Fuel, 235, pp.1070-1076.

2018

  1. ​Sun, H., Wu, C., Shen, B., Zhang, X., Zhang, Y. and Huang, J., 2018. Progress in the development and application of CaO-based adsorbents for CO2 capture—a review. Materials Today Sustainability, 1, pp.1-27.

  2. Wang, L., Zhao, J., Liu, H. and Huang, J., 2018. Design, modification and application of semiconductor photocatalysts. Journal of the Taiwan Institute of Chemical Engineers, 93, pp.590-602.

  3. Peng, Q., Wang, G., Wang, Z., Jiang, R., Wang, D., Chen, J. and Huang, J., 2018. Tuning hydrocarbon pool intermediates by the acidity of SAPO-34 catalysts for improving methanol-to-olefins reaction. ACS Sustainable Chemistry & Engineering, 6(12), pp.16867-16875.

  4. Zuo, Z., Liu, S., Wang, Z., Liu, C., Huang, W., Huang, J. and Liu, P., 2018. Dry reforming of methane on single-site Ni/MgO catalysts: importance of site confinement. ACS Catalysis, 8(10), pp.9821-9835.

  5. Mazur, F., Liu, L., Li, H., Huang, J. and Chandrawati, R., 2018. Core-satellite gold nanoparticle biosensors for monitoring cobalt ions in biological samples. Sensors and Actuators B: Chemical, 268, pp.182-187.

  6. Huang, J. and Wang, Z., 2018, August. Surface acidity of atomic dispersed aluminum species in silica for sustainable fuels and chemicals production. In ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY (Vol. 256). 1155 16TH ST, NW, WASHINGTON, DC 20036 USA: AMER CHEMICAL SOC.

  7. Huang, J., 2018, August. Nano-structured photocatalysts for nitrogen and carbon dioxide reduction. In ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY (Vol. 256). 1155 16TH ST, NW, WASHINGTON, DC 20036 USA: AMER CHEMICAL SOC.

  8. Liu, H., Wang, H., Liu, Z., Ling, H., Zhou, C., Li, H., Stampfl, C., Liao, X., Wang, J., Shi, X. and Huang, J., 2018. Confinement impact for the dynamics of supported metal nanocatalyst. Small, 14(29), p.1801586.

  9. Jin, F., Sun, H., Wu, C., Ling, H., Jiang, Y., Williams, P.T. and Huang, J., 2018. Effect of calcium addition on Mg-AlOx supported Ni catalysts for hydrogen production from pyrolysis-gasification of biomass. Catalysis Today, 309, pp.2-10.

  10. Tjandra, A.D. and Huang, J., 2018. Photocatalytic carbon dioxide reduction by photocatalyst innovation. Chinese Chemical Letters, 29(6), pp.734-746.

  11. Ye, M., Tao, Y., Jin, F., Ling, H., Wu, C., Williams, P.T. and Huang, J., 2018. Enhancing hydrogen production from the pyrolysis-gasification of biomass by size-confined Ni catalysts on acidic MCM-41 supports. Catalysis Today, 307, pp.154-161.

  12. Chen, M., Maeda, N., Baiker, A. and Huang, J., 2018. Hydrogenation of acetophenone on Pd/silica–alumina catalysts with tunable acidity: mechanistic insight by in situ ATR-IR spectroscopy. Acs Catalysis, 8(7), pp.6594-6600.

  13. Wang, Z., Jiang, Y., Zhang, Y., Shi, J., Stampfl, C., Hunger, M. and Huang, J., 2018. Identification of vicinal silanols and promotion of their formation on MCM-41 via ultrasonic assisted one-step room-temperature synthesis for Beckmann rearrangement. Industrial & Engineering Chemistry Research, 57(16), pp.5550-5557.

  14. Wang, Z., Huang, J., Amal, R. and Jiang, Y., 2018. Solid-state NMR study of photocatalytic oxidation of acetaldehyde over the flame-made F-TiO2 catalyst. Applied Catalysis B: Environmental, 223, pp.16-21.

  15. Trebosc, J., Qiang, W., Xu, J., Pourpoint, F., Huang, J., Deng, F., Amoureux, J.P. and Lafon, O., 2018, March. New insights into the activity of heterogeneous catalysts by probing proximities between 1H and quadrupolar nuclei using high-field NMR. In ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY (Vol. 255). 1155 16TH ST, NW, WASHINGTON, DC 20036 USA: AMER CHEMICAL SOC.

  16. Wang, Z., Ling, H., Shi, J., Stampfl, C., Yu, A., Hunger, M. and Huang, J., 2018. Acidity enhanced [Al] MCM-41 via ultrasonic irradiation for the Beckmann rearrangement of cyclohexanone oxime to ɛ-caprolactam. Journal of catalysis, 358, pp.71-79.

  17. Wang, W., Deng, S., Li, D., Ren, L., Shan, D., Wang, B., Huang, J., Wang, Y. and Yu, G., 2018. Sorption behavior and mechanism of organophosphate flame retardants on activated carbons. Chemical Engineering Journal, 332, pp.286-292.

  18. Bodedla, G.B., Li, L., Che, Y., Jiang, Y., Huang, J., Zhao, J. and Zhu, X., 2018. Enhancing photocatalytic hydrogen evolution by intramolecular energy transfer in naphthalimide conjugated porphyrins. Chemical Communications, 54(82), pp.11614-11617.

  19. Zhang, P., Yang, X., Gao, W., Hou, X., Mi, J., Liu, L., Huang, J., Dong, M. and Stampfl, C., 2018. First-principles design of bifunctional oxygen reduction and evolution catalysts through bimetallic centers in metal–organic frameworks. Catalysis Science & Technology, 8(14), pp.3666-3674.

2017

  1. Liu, X., Sun, H., Wu, C., Patel, D. and Huang, J., 2017. Thermal chemical conversion of high-density polyethylene for the production of valuable carbon nanotubes using Ni/AAO membrane catalyst. Energy & Fuels, 32(4), pp.4511-4520.

  2. Fei, J., Sun, L., Zhou, C., Ling, H., Yan, F., Zhong, X., Lu, Y., Shi, J., Huang, J. and Liu, Z., 2017. Tuning the synthesis of manganese oxides nanoparticles for efficient oxidation of benzyl alcohol. Nanoscale research letters, 12(1), pp.1-9.

  3. Zhang, Y., Tao, Y., Huang, J. and Williams, P., 2017. Influence of silica–alumina support ratio on H2 production and catalyst carbon deposition from the Ni-catalytic pyrolysis/reforming of waste tyres. Waste Management & Research, 35(10), pp.1045-1054.

  4. Zhang, Y., Huang, J. and Williams, P.T., 2017. Fe–Ni–MCM-41 catalysts for hydrogen-rich syngas production from waste plastics by pyrolysis–catalytic steam reforming. Energy & Fuels, 31(8), pp.8497-8504.

  5. Wang, Z., Wang, L., Zhou, Z., Zhang, Y., Li, H., Stampfl, C., Liang, C. and Huang, J., 2017. Benzylation of arenes with benzyl chloride over H-Beta zeolite: effects from acidity and shape-selectivity. The Journal of Physical Chemistry C, 121(28), pp.15248-15255.

  6. Huang, J., 2017, April. Nanocatalysts based on amorphous porous silica for high-efficient reaction processes. In ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY (Vol. 253). 1155 16TH ST, NW, WASHINGTON, DC 20036 USA: AMER CHEMICAL SOC.

  7. Dong, L., Wu, C., Ling, H., Shi, J., Williams, P.T. and Huang, J., 2017. Development of Fe-promoted Ni–Al catalysts for hydrogen production from gasification of wood sawdust. energy & fuels, 31(3), pp.2118-2127.

  8. Peng, Q., Tao, Y., Ling, H., Wu, Z., Zhu, Z., Jiang, R., Zhao, Y., Wang, Y., Ji, C., Liao, X. and Vassallo, A., 2017. Tuning hydrogen and carbon nanotube production from phenol steam reforming on Ni/Fe-based nanocatalysts. ACS Sustainable Chemistry & Engineering, 5(3), pp.2098-2108.

  9. Dong, L., Wu, C., Ling, H., Shi, J., Williams, P.T. and Huang, J., 2017. Promoting hydrogen production and minimizing catalyst deactivation from the pyrolysis-catalytic steam reforming of biomass on nanosized NiZnAlOx catalysts. Fuel, 188, pp.610-620.

  10. Trebosc, J., Wang, Q., Xu, J., Pourpoint, F., Huang, J., Deng, F., Amoureux, J.P. and Lafon, O., 2017. High-field NMR observation of proximities between 1H and quadrupolar nuclei provides new insights into the activity of heterogeneous catalysts.

  11. Wang, Z. and Huang, J., 2017. Brønsted-Lewis acids for efficient conversion of renewables. In Production of Biofuels and Chemicals with Bifunctional Catalysts (pp. 99-135). Springer, Singapore.

2016

  1. Wang, Z., Jiang, Y., Lafon, O., Trébosc, J., Duk Kim, K., Stampfl, C., Baiker, A., Amoureux, J.P. and Huang, J., 2016. Brønsted acid sites based on penta-coordinated aluminum species. Nature communications, 7(1), pp.1-5.

  2. Wu, C., Nahil, M.A., Huang, J. and Williams, P.T., 2016. Production and application of carbon nanotubes, as a co-product of hydrogen from the pyrolysis-catalytic reforming of waste plastic. Process Safety and Environmental Protection, 103, pp.107-114.

  3. Wang, Y., Jiang, Y., Huang, J., Liang, J., Wang, H., Li, Z., Wu, J., Li, M., Zhao, Y. and Niu, J., 2016. Effect of hierarchical crystal structures on the properties of cobalt catalysts for Fischer–Tropsch synthesis. Fuel, 174, pp.17-24.

  4. Ullah, F., Dong, L., Bano, A., Peng, Q. and Huang, J., 2016. Current advances in catalysis toward sustainable biodiesel production. Journal of the energy institute, 89(2), pp.282-292.

  5. Wang, Z., Jiang, Y., Yi, X., Zhou, C., Rawal, A., Hook, J., Liu, Z., Deng, F., Zheng, A., Baiker, A. and Huang, J., 2016. Discovery of homogeneously dispersed pentacoordinated Al (V) species on the surface of amorphous silica-alumina. arXiv preprint arXiv:1604.04839.

  6. Jiang, Y., Wang, Y., Zhao, W., Huang, J., Zhao, Y., Yang, G., Lei, Y. and Chu, R., 2016. Effect of (Si+ Al)/CTAB ratio on crystal size of mesoporous ZSM-5 structure over methanol-to-olefin reactions. Journal of the Taiwan Institute of Chemical Engineers, 61, pp.234-240.

  7. Chen, F., Wu, C., Dong, L., Vassallo, A., Williams, P.T. and Huang, J., 2016. Characteristics and catalytic properties of Ni/CaAlOx catalyst for hydrogen-enriched syngas production from pyrolysis-steam reforming of biomass sawdust. Applied Catalysis B: Environmental, 183, pp.168-175.

  8. Kim, K.D., Pokhrel, S., Wang, Z., Ling, H., Zhou, C., Liu, Z., Hunger, M., Mädler, L. and Huang, J., 2016. Tailoring high-performance Pd catalysts for chemoselective hydrogenation reactions via optimizing the parameters of the double-flame spray pyrolysis. ACS catalysis, 6(4), pp.2372-2381.

  9. Huang, J., 2016, March. Novel amorphous silica-alumina with unique structure and strong acidity for catalytic reactions. In ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY (Vol. 251). 1155 16TH ST, NW, WASHINGTON, DC 20036 USA: AMER CHEMICAL SOC.

  10. Yang, T., Ling, H., Lamonier, J.F., Jaroniec, M., Huang, J., Monteiro, M.J. and Liu, J., 2016. A synthetic strategy for carbon nanospheres impregnated with highly monodispersed metal nanoparticles. NPG Asia Materials, 8(2), pp.e240-e240.

  11. Wang, Y., Jiang, Y., Huang, J., Wang, H., Li, Z. and Wu, J., 2016. Effect of preparation methods on hierarchical zeolites for cobalt-based Fischer–Tropsch synthesis. RSC advances, 6(109), pp.107498-107506.

  12. Zhou, L., Wang, W., Huang, J., Ding, Y., Pan, Z., Zhao, Y., Zhang, R., Hu, B. and Zeng, X., 2016. In vitro extraction and fermentation of polyphenols from grape seeds (Vitis vinifera) by human intestinal microbiota. Food & function, 7(4), pp.1959-1967.

  13. Zhou, X., Jin, J., Zhu, X., Huang, J., Yu, J., Wong, W.Y. and Wong, W.K., 2016. New Co (OH) 2/CdS nanowires for efficient visible light photocatalytic hydrogen production. Journal of Materials Chemistry A, 4(14), pp.5282-5287.

  14. Zhang, Q., Zhao, G., Zhang, Z., Han, L., Fan, S., Chai, R., Li, Y., Liu, Y., Huang, J. and Lu, Y., 2016. From nano-to macro-engineering of oxide-encapsulated-nanoparticles for harsh reactions: one-step organization via cross-linking molecules. Chemical Communications, 52(80), pp.11927-11930.

2015

  1. Ling, H., Kim, K., Liu, Z., Shi, J., Zhu, X. and Huang, J., 2015. Photocatalytic degradation of phenol in water on as-prepared and surface modified TiO2 nanoparticles. Catalysis Today, 258, pp.96-102.

  2. Chen, F., Wu, C., Dong, L., Jin, F., Williams, P.T. and Huang, J., 2015. Catalytic steam reforming of volatiles released via pyrolysis of wood sawdust for hydrogen-rich gas production on Fe–Zn/Al2O3 nanocatalysts. Fuel, 158, pp.999-1005.

  3. Yu, L., Zhang, Q., Li, S.S., Huang, J., Liu, Y.M., He, H.Y. and Cao, Y., 2015. Gold‐Catalyzed Reductive Transformation of Nitro Compounds Using Formic Acid: Mild, Efficient, and Versatile. ChemSusChem, 8(18), pp.3029-3035.

  4. Yuan, Y., Kaneti, Y.V., Liu, M., Jin, F., Kennedy, D.F., Jiang, X., Huang, J. and Yu, A., 2015. Seed-mediated synthesis of dendritic platinum nanostructures with high catalytic activity for aqueous-phase hydrogenation of acetophenone. Journal of Energy Chemistry, 24(5), pp.660-668.

  5. Zhao, W., Wang, Y., Li, Z., Wang, H., Wu, J., Huang, J. and Zhao, Y., 2015. The influence of hierarchical zeolite composition and pore structure on behavior of cobalt-based Fischer–Tropsch synthesis catalysts. Journal of Porous Materials, 22(4), pp.1097-1104.

  6. Li, J., Yu, Y., Li, X., Wang, W., Yu, G., Deng, S., Huang, J., Wang, B. and Wang, Y., 2015. Maximizing carbon efficiency of petrochemical production from catalytic co-pyrolysis of biomass and plastics using gallium-containing MFI zeolites. Applied Catalysis B: Environmental, 172, pp.154-164.

  7. Yu, S.M., Wu, J.F., Liu, C., Liu, W., Bai, S., Huang, J. and Wang, W., 2015. Alkane Activation Initiated by Hydride Transfer: Co‐conversion of Propane and Methanol over H‐ZSM‐5 Zeolite. Angewandte Chemie, 127(25), pp.7471-7474.

  8. Wang, Y., Zhao, W., Li, Z., Wang, H., Wu, J., Li, M., Hu, Z., Wang, Y., Huang, J. and Zhao, Y., 2015. Application of mesoporous ZSM-5 as a support for Fischer–Tropsch cobalt catalysts. Journal of Porous Materials, 22(2), pp.339-345.

  9. Yang, M., Liu, J., Lee, S., Zugic, B., Huang, J., Allard, L.F. and Flytzani-Stephanopoulos, M., 2015. A common single-site Pt (II)–O (OH) x–species stabilized by sodium on “active” and “inert” supports catalyzes the water-gas shift reaction. Journal of the American Chemical Society, 137(10), pp.3470-3473.

  10. Liu, M., Wang, S., Chen, T., Yuan, C., Zhou, Y., Wang, S. and Huang, J., 2015. Performance of the nano-structured Cu-Ni (alloy) -CeO2 anode for solid oxide fuel cells. Journal of Power Sources, 274, 730-735. 

  11. Zhao, G., Wu, X.P., Chai, R., Zhang, Q., Gong, X.Q., Huang, J. and Lu, Y., 2015. Tailoring nano-catalysts: turning gold nanoparticles on bulk metal oxides to inverse nano-metal oxides on large gold particles. Chemical Communications, 51(27), pp.5975-5978.

  12. Jiang, Y., Huang, J., Hunger, M., Maciejewski, M. and Baiker, A., 2015. Comparative studies on the catalytic activity and structure of a Cu-MOF and its precursor for alcoholysis of cyclohexene oxide. Catalysis Science & Technology, 5(2), pp.897-902.

  13. Wang, Z., Kim, K.D., Zhou, C., Chen, M., Maeda, N., Liu, Z., Shi, J., Baiker, A., Hunger, M. and Huang, J., 2015. Influence of support acidity on the performance of size-confined Pt nanoparticles in the chemoselective hydrogenation of acetophenone. Catalysis Science & Technology, 5(5), pp.2788-2797.

2014

  1. Yang, M., Li, S., Wang, Y., Herron, J.A., Xu, Y., Allard, L.F., Lee, S., Huang, J., Mavrikakis, M. and Flytzani-Stephanopoulos, M., 2014. Catalytically active Au-O (OH) x-species stabilized by alkali ions on zeolites and mesoporous oxides. Science, 346(6216), pp.1498-1501.

  2. Wang, Z., Jiang, Y., Hunger, M., Baiker, A. and Huang, J., 2014. Catalytic Performance of Brønsted and Lewis Acid Sites in Phenylglyoxal Conversion on Flame‐Derived Silica–Zirconia. ChemCatChem, 6(10), pp.2970-2975.

  3. Wang, Z., Wang, L., Jiang, Y., Hunger, M. and Huang, J., 2014. Cooperativity of Brønsted and Lewis acid sites on zeolite for glycerol dehydration. Acs Catalysis, 4(4), pp.1144-1147.

  4. Wu, C., Wang, Z., Wang, L., Huang, J. and Williams, P.T., 2014. Catalytic steam gasification of biomass for a sustainable hydrogen future: Influence of catalyst composition. Waste and Biomass Valorization, 5(2), pp.175-180.

  5. Lovell, E., Jiang, Y., Scott, J., Wang, F., Suhardja, Y., Chen, M., Huang, J. and Amal, R., 2014. CO2 reforming of methane over MCM-41-supported nickel catalysts: altering support acidity by one-pot synthesis at room temperature. Applied Catalysis A: General, 473, pp.51-58.

  6. Wu, C., Nahil, M.A., Miskolczi, N., Huang, J. and Williams, P.T., 2014. Processing real-world waste plastics by pyrolysis-reforming for hydrogen and high-value carbon nanotubes. Environmental science & technology, 48(1), pp.819-826.

2013

  1. Wang, Z., Jiang, Y., Rachwalik, R., Liu, Z., Shi, J., Hunger, M. and Huang, J., 2013. One‐Step Room‐Temperature Synthesis of [Al] MCM‐41 Materials for the Catalytic Conversion of Phenylglyoxal to Ethylmandelate. ChemCatChem, 5(12), pp.3889-3896.

  2. Lu, X.J., Ren, L., Gao, Q.Y., Yang, Y.Y., Zhao, Y.M., Huang, J., Lv, X.L. and Epstein, I.R., 2013. Multiple length scale instabilities of unidirectional pulse propagation in a diffusion-fed gel. The Journal of Physical Chemistry Letters, 4(22), pp.3891-3896.

  3. Wu, C., Wang, Z., Williams, P.T. and Huang, J., 2013. Renewable hydrogen and carbon nanotubes from biodiesel waste glycerol. Scientific reports, 3(1), pp.1-6.

  4. Wu, J.F., Yu, S.M., Wang, W.D., Fan, Y.X., Bai, S., Zhang, C.W., Gao, Q., Huang, J. and Wang, W., 2013. Mechanistic insight into the formation of acetic acid from the direct conversion of methane and carbon dioxide on zinc-modified H–ZSM-5 zeolite. Journal of the American Chemical Society, 135(36), pp.13567-13573.

  5. Wu, C., Dong, L., Onwudili, J., Williams, P.T. and Huang, J., 2013. Effect of Ni particle location within the mesoporous MCM-41 support for hydrogen production from the catalytic gasification of biomass. ACS Sustainable Chemistry & Engineering, 1(9), pp.1083-1091.

  6. Zhao, G., Huang, J., Jiang, Z., Zhang, S., Chen, L. and Lu, Y., 2013. Microstructured Au/Ni-fiber catalyst for low-temperature gas-phase alcohol oxidation: Evidence of Ni2O3–Au+ hybrid active sites. Applied Catalysis B: Environmental, 140, pp.249-257.

  7. Wu, C., Huang, J. and Williams, P.T., 2013. Carbon nanotubes and hydrogen production from the reforming of toluene. International journal of hydrogen energy, 38(21), pp.8790-8797.

  8. Wang, Z., Jiang, Y., Baiker, A. and Huang, J., 2013. Efficient acid-catalyzed conversion of phenylglyoxal to mandelates on flame-derived silica/alumina. ACS Catalysis, 3(7), pp.1573-1577.

  9. Wang, Z., Pokhrel, S., Chen, M., Hunger, M., Mädler, L. and Huang, J., 2013. Palladium-doped silica–alumina catalysts obtained from double-flame FSP for chemoselective hydrogenation of the model aromatic ketone acetophenone. Journal of catalysis, 302, pp.10-19.

  10. Zhao, G., Deng, M., Jiang, Y., Hu, H., Huang, J. and Lu, Y., 2013. Microstructured Au/Ni-fiber catalyst: Galvanic reaction preparation and catalytic performance for low-temperature gas-phase alcohol oxidation. Journal of catalysis, 301, pp.46-53.

  11. Wu, C., Wang, Z., Huang, J. and Williams, P.T., 2013. Pyrolysis/gasification of cellulose, hemicellulose and lignin for hydrogen production in the presence of various nickel-based catalysts. Fuel, 106, pp.697-706.

  12. Dong, L., Wu, C., Williams, P.T. and Huang, J., 2013. Hydrogen production from biomass gasification with Ni-Fe/Al catalysts. In Chemeca 2013: Challenging Tomorrow: Challenging Tomorrow (pp. 722-731). Barton, ACT: Engineers Australia.

  13. Chen, M.M., Maeda, N., Baiker, A. and Huang, J., 2013. In Situ Modulation Excitation IR Study on the Dominant Product of Pt-Catalyzed Aromatic Ketone Hydrogenation. In Advanced Materials Research (Vol. 683, pp. 271-274). Trans Tech Publications Ltd.

  14. Wu, C., Dong, L., Huang, J. and Williams, P.T., 2013. Optimising the sustainability of crude bio-oil via reforming to hydrogen and valuable by-product carbon nanotubes. RSC advances, 3(42), pp.19239-19242.

  15. Zhao, G., Hu, H., Chen, W., Jiang, Z., Zhang, S., Huang, J. and Lu, Y., 2013. Ni 2 O 3–Au+ hybrid active sites on NiO x@ Au ensembles for low-temperature gas-phase oxidation of alcohols. Catalysis Science & Technology, 3(2), pp.404-408.

  16. Wu, C., Wang, Z., Dupont, V., Huang, J. and Williams, P.T., 2013. Nickel-catalysed pyrolysis/gasification of biomass components. Journal of Analytical and Applied Pyrolysis, 99, pp.143-148.

2012

  1. Chen, M., Maeda, N., Baiker, A. and Huang, J., 2012. Molecular insight into Pt-catalyzed chemoselective hydrogenation of an aromatic ketone by in situ modulation–excitation IR spectroscopy. Acs Catalysis, 2(9), pp.2007-2013.

  2. Jiang, Y., Büchel, R., Huang, J., Krumeich, F., Pratsinis, S.E. and Baiker, A., 2012. Efficient Solvent‐Free Hydrogenation of Ketones over Flame‐Prepared Bimetallic Pt–Pd/ZrO2 Catalysts. ChemSusChem, 5(7), pp.1190-1194.

  3. Wu, C., Wang, Z., Wang, L., Williams, P.T. and Huang, J., 2012. Sustainable processing of waste plastics to produce high yield hydrogen-rich synthesis gas and high quality carbon nanotubes. RSC advances, 2(10), pp.4045-4047.

2011

  1. Wu, C., Wang, L., Williams, P.T., Shi, J. and Huang, J., 2011. Hydrogen production from biomass gasification with Ni/MCM-41 catalysts: Influence of Ni content. Applied Catalysis B: Environmental, 108, pp.6-13.

  2. He, J., Shao, W., Cao, C., Yan, T.D., Wang, D., Xiong, X., Yin, W., Xu, X. and Huang, J., 2011. Long-term outcome of hybrid surgical approach of video-assisted minithoracotomy sleeve lobectomy for non-small-cell lung cancer. Surgical endoscopy, 25(8), pp.2509-2515.

  3. Huang, J., Jiang, Y., Van Vegten, N., Hunger, M. and Baiker, A., 2011. Tuning the support acidity of flame-made Pd/SiO2–Al2O3 catalysts for chemoselective hydrogenation. Journal of Catalysis, 281(2), pp.352-360.

  4. Jiang, Y., Huang, J., Dai, W. and Hunger, M., 2011. Solid-state nuclear magnetic resonance investigations of the nature, property, and activity of acid sites on solid catalysts. Solid state nuclear magnetic resonance, 39(3-4), pp.116-141.

  5. Jiang, Y., Huang, J. and Hunger, M., 2011. Effect of reactant density inside supercages of zeolite La, Na-Y on the mechanism of the ethylbenzene conversion. Catalysis today, 164(1), pp.119-123.

  6. Huang, J., Jiang, Y., Wang, L. and Hunger, M., 2011. Controlling catalytic reaction process by tuning acidity of zeolites. In Chemeca (39th: 2011).

  7. Wang, Z., Wu, C., Wang, L., Williams, P.T., Shi, J. and Huang, J., 2011. Hydrogen-rich syngas production from catalytic steam pyrolysis-gasification of biomass on NI/MCM-41. In Chemeca 2011: Engineering a Better World: Sydney Hilton Hotel, NSW, Australia, 18-21 September 2011 (pp. 2336-2345). Barton, ACT: Engineers Australia.

  8. Wang, L., Jiang, Y., Huang, J. and Hunger, M., 2011. Relation between acidity and local structure of dealuminated zeolites y investigated by solid-state NMR spectroscopy. In Chemeca (39th: 2011) (pp. 550-558). Engineers Australia.

2010

01. Jiang, Y., Huang, J., Marx, S., Kleist, W., Hunger, M., Baiker, A. (2010). Effect of Dehydration on the Local Structure of Framework Aluminum Atoms in Mixed Linker MIL-53(Al) Materials Studied by Solid-State NMR Spectroscopy. Journal of Physical Chemistry Letters, 1(19), 2886-2890. 

02. Huang, J., van Vegten, N., Jiang, Y., Hunger, M., Baiker, A. (2010). Increasing the Brønsted Acidity of Flame-Derived Silica/Alumina up to Zeolitic Strength. Angewandte Chemie: International Edition, 49(42), 7776-7781. 

03. Jiang, Y., Huang, J., van Vegten, N., Baiker, A. (2010). Synthesis of nanoparticles with tunable properties for desired reactions by flame spray pyrolysis method. 7th Annual Conference of the ARC Centre of Excellence for Functional Nanomaterials ARCCFN 2010, Australia.

04. Marx, S., Kleist, W., Huang, J., Maciejewski, M., Baiker, A. (2010). Tuning functional sites and thermal stability of mixed-linker MOFs based on MIL-53(Al). Dalton Transactions: an international journal of inorganic, organometallic and bioinorganic chemistry, 39(16), 3795-3798. 

2009

01. Jiang, Y., Huang, J., Kasumaj, B., Jeschke, G., Hunger, M., Mallat, T., Baiker, A. (2009). Adsorption-Desorption Induced Structural Changes of Cu-MOF Evidenced by Solid State NMR and EPR Spectroscopy. Journal of the American Chemical Society, 131(6), 2058-2059. 

02. Huang, J., Jiang, Y., Marthala, V., Bressel, A., Frey, J., Hunger, M. (2009). Effect of pore size and acidity on the coke formation during ethylbenzene conversion on zeolite catalysts. Journal of Catalysis, 263(2), 277-283. 

03. Huang, J., Long, W., Agrawal, P., Jones, C. (2009). Effects of Acidity on the Conversion of the Model Bio-oil Ketone Cyclopentanone on H-Y Zeolites. The Journal of Physical Chemistry Part C, 113(38), 16702-16710. 

20. Chen, M., Huang, J., Wang, J., Ning, P., Jiang, Y., Xu, Y. (2009). Thermal Behaviors and Regeneration of Activated Carbon Saturated with Toluene Induced by Microwave Irradiation. Journal of Chemical Engineering of Japan, 42(5), 325-329. 

2008

01. Huang, J., Jiang, Y., Marthala, V., Thomas, B., Romanova, E., Hunger, M. (2008). Characterization and Acidic Properties of Aluminum-Exchanged Zeolites X and Y. The Journal of Physical Chemistry Part C, 112(10), 3811-3818. 

02. Huang, J., Jones, C. (2008). Deoxygenation of Bio-oil Model Compounds to Hydrocarbons on Zeolites. Chevron Biofuels Conference 2008.

03. Marthala, V., Rabl, S., Huang, J., Rezai, S., Thomas, B., Hunger, M. (2008). In situ solid-state NMR investigations of the vapor-phase Beckmann rearrangement of 15N-cyclohexanone oxime on MFI-type zeolites and mesoporous SBA-15 materials in the absence and presence of the additive 13C-methanol. Journal of Catalysis, 257(1), 134-141. 

04. Huang, J., Jiang, Y., Marthala, V., Hunger, M. (2008). Insight into the Mechanisms of the Ethylbenzene Disproportionation: Transition State Shape Selectivity on Zeolites. Journal of the American Chemical Society, 130(38), 12642-12644. 

05. Huang, J., Jiang, Y., Marthala, V., Ooi, Y., Hunger, M. (2008). Regioselective H/D Exchange at the Side-Chain of Ethylbenzene on Dealuminated Zeolite H-Y Studied by In Situ MAS NMR-UV/Vis Spectroscopy. ChemPhysChem: a European journal of chemical physics and physical chemistry, 9(8), 1107.

2007

14. Huang, J., Jiang, Y., Marthala, V., Ooi, Y., Weitkamp, J., Hunger, M. (2007). Concentration and acid strength of hydroxyl groups in zeolites La,Na-X and La,Na-Y with different lanthanum exchange degrees studied by solid-state NMR spectroscopy. Microporous and Mesoporous Materials, 104(1-3), 129-136. 

13. Marthala, V., Wang, W., Jiao, J., Jiang, Y., Huang, J., Hunger, M. (2007). Effect of probe molecules with different proton affinities on the coordination of boron atoms in dehydrated zeolite H-[B]ZSM-5. Microporous and Mesoporous Materials, 99(1-2), 91-97. 

12. Jiang, Y., Huang, J., Wang, W., Hunger, M. (2007). Formation of methylamines by the reaction of ammonia with surface methoxy species on zeolite H-Y and the silicoaluminophosphate H-SAPO-34. 15th International Zeolite Conference 2007, Netherlands: Elsevier. 

11. Huang, J., Jiang, Y., Marthala, V., Wang, W., Sulikowski, B., Hunger, M. (2007). In situ 1H MAS NMR investigations of the H/D exchange of alkylaromatic hydrocarbons on zeolites H-Y, La,Na-Y, and H-ZSM-5. Microporous and Mesoporous Materials, 99(1-2), 86-90.

10. Jiang, Y., Huang, J., Weitkamp, J., Hunger, M. (2007). In situ MAS NMR and UV/VIS spectroscopic studies of hydrocarbon pool compounds and coke deposits formed in the methanol-to-olefin conversion on H-SAPO-34. 15th International Zeolite Conference 2007, Netherlands: Elsevier. 

9. Jiang, Y., Huang, J., Marthala, V., Ooi, Y., Weitkamp, J., Hunger, M. (2007). In situ MAS NMR-UV/Vis investigation of H-SAPO-34 catalysts partially coked in the methanol-to-olefin conversion under continuous-flow conditions and of their regeneration. Microporous and Mesoporous Materials, 105, 132-139. 

8. Huang, J., Jiang, Y., Hunger, M. (2007). Influence of the lanthanum exchange degree on the concentration and acid strength of bridging hydroxyl groups in zeolites La,Na-X. 15th International Zeolite Conference 2007, Netherlands: Elsevier. 

7. Rachwalik, R., Olejniczak, Z., Jiao, J., Huang, J., Hunger, M., Sulikowski, B. (2007). Isomerization of alpha-pinene over dealuminated ferrierite-type zeolites. Journal of Catalysis, 252(2), 161-170. 

2006

6. Marthala, V., Jiang, Y., Huang, J., Wang, W., Glaser, R., Hunger, M. (2006). Beckmann Rearrangement of 15N-Cyclohexanone Oxime on Zeolites Silicalite-1, H-ZSM-5, and H-[B] ZSM-5 Studied by Solid-State NMR Spectroscopy. Journal of the American Chemical Society, 128(46), 14812-14813. 

5. Jiang, Y., Wang, W., Marthala, V., Huang, J., Sulikowski, B., Hunger, M. (2006). Effect of organic impurities on the hydrocarbon formation via the decomposition of surface methoxy groups on acidic zeolite catalysts. Journal of Catalysis, 238(1), 21-27. 

4. Jiao, J., Kanellopoulos, J., Behera, B., Jiang, Y., Huang, J., Marthala, V., Ray, S., Wang, W., Hunger, M. (2006). Effects of Adsorbate Molecules on the Quadrupolar Interaction of Framework Aluminum Atoms in Dehydrated Zeolite H,Na-Y. The Journal of Physical Chemistry Part B, 110(28), 13812-13818. 

3. Huang, J., Hunger, M. (2006). In situ 1H MAS NMR investigations of the H/D exchange of alkylaromatic hydrocarbons on zeolites H-Y, La,Na-Y, and H-ZSM-5. 1st International Workshop of the European Network of Excellence INSIDE POReS 2006.

2. Huang, J., Hunger, M. (2006). Investigations of the H/D Exchange of Aromatic Hydrocarbons on Acidic Zeolite Catalysts by in situ 1H MAS NMR. Festkorper NMR-Methoden und Anwendungen in der Materialforschung 2006.

1. Jiang, Y., Wang, W., Marthala, V., Huang, J., Sulikowski, B., Hunger, M. (2006). Response to comments on the paper: "Effect of organic impurities on the hydrocarbon formation via the decomposition of surface methoxy groups on acidic zeolite catalysts". Journal of Catalysis, 244(1), 134-136. 

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