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2024说明: http://119.78.130.35:8080/_vsl/42F61252FD14952FDB3B58E86BD0F5B1/A1B3FB11/D4C?e=.gif

1. Xiaohua Ju, Lin Liu*, Tong Zhang, Teng He, Yunhua Xu & Ping Chen

Ru Nanoparticles on K Doped γ-Alumina with Abundant Surface Superbasic Sites for Ammonia Decomposition

Catalysis Letters, 154: 473-486, 2024View Full Text


2. Yeqin Guan, Hong Wen, Kaixun Cui, Qianru Wang, Wenbo Gao, Yongli Cai, Zibo Cheng, Qijun Pei, Zhao Li, Hujun Cao, Teng He, Jianping Guo* & Ping Chen*

Light-driven ammonia synthesis under mild conditions using lithium hydride

Nature Chemistry, 16: 373-379, 2024View Full Text


3. Jianping Guo and Ping Chen

Photodriven nitrogen fixation by lithium hydride

Nature Chemistry, 16: 310-311, 2024View Full Text


4. Wenbo Gao, Yawei Wang, Qianru Wang, Zhaolong Sun, Jianping Guo* and Ping Chen

Revisiting group 4–7 transition metals for heterogeneous ammonia synthesis

EES Catalysis, Advance Article, 2024View Full Text


5. Xiaohua Ju, Lin Liu*, Teng He* & Ping Chen

Tuning the Interaction Between Ru Nanoparticles and Nd2O3 to Enhance Hydrogen Formation from Ammonia Decomposition

Topics in Catalysis, 67: 910–921, 2024View Full Text


6. Jiaqi Wen, Hong Wen, Han Wu, Liang Yang, Yeqin Guan, Yongli Cai, Wenbo Gao, Qianru Wang, Shaoqian Zhang, Jianping Guo*, Ping Chen

Behavior of Lithium Amide Under Argon Plasma

ChemSusChem, e202400221, 2024View Full Text


7. Qianru Wang#, Shengyuan Zhang#, Jianping Guo, Ping Chen*

Advances in highly hydrided palladium

Frontiers in Materials, 11: 1365526, 2024View Full Text


8. Yun Wang#, Yongli Cai#, Jingai Hao*, Zhiwei Li, Tianyu Cheng, Xinping Yang, Qingda An* and Jianping Guo*

Selective deuteration of pyridine using barium oxide and D2 gas

New Journal of Chemistry, 48: 14512-14515, 2024View Full Text


9. Han Wu,# Kai Ma,# Jiaqi Wen, Liang Yang, Yeqin Guan, Qianru Wang, Wenbo Gao, Jianping Guo* and Ping Chen

Nitrogen fixation by alkali and alkaline earth metal hydrides assisted by plasma

Chemical Communications, 60: 10760-10763, 2024View Full Text


10.Jiaquan Guo, Yang Yu,* Khai Chen Tan, Qijun Pei, Zhao Li, Yuting Wang, Alexis Munyentwali, Hui Wu,* Teng He,* and Ping Chen

Synthesis, Structure, and Ion Conduction of Potassium Carbazolides for Potassium Ion Solid-State Electrolytes

Advanced Functional Materials, 2412005, 2024View Full Text


11. Sheng Feng, Wenbo Gao*, Runze Wang, Yeqin Guan, Han Wu, Qianru Wang, Hujun Cao, Lin Liu, Jianping Guo, Ping Chen*

Chemical Looping Ammonia Decomposition Mediated by Alkali Metal and Amide Pairs for H2 Production and Thermal Energy Storage

Advanced Energy Materials, 2401252, 2024View Full Text


12. Junfeng Wen, Yang Yu, Qijun Pei, Alexis Munyentwali, Teng He*, Yunhua Xu*, Ping Chen b

Catalytic hydrogenation of phenoxide at room temperature using ultrafine Ru-B amorphous alloy

International Journal of Hydrogen Energy, 51: 212-218, 2024View Full Text


13. Xiaohua Ju, Lin Liu*, Xiaoyan Xu, Jiemin Wang, Teng He, Ping Chen

Strong metal‒support interaction modulates catalytic activity of Ru nanoparticles on Gd2O3 for efficient ammonia decomposition

iScience, 27: 110931, 2024View Full Text


14. Ji Feng, Ningbo Wan, Xiaohua Ju, Lin Liu*, Liguang Bai, Xiaodong Zhao, Teng He

Efficient Ru/Y2O3 Catalyst Derived from Ru Nanoparticles on Yttrium Carbonate for Production of Hydrogen from Ammonia Decomposition

Chemcatchem, e202401314, 2024View Full Text


15. Runze Wang, Sheng Feng, Yawei Wang, Wenbo Gao*, Jianping Guo, Ping Chen

Progress and prospects in the chemical looping ammonia synthesis

Clean Coal Technology 30(5): 13-28, 2024View Full Text


16. Ruili Li, Qianru Wang*, Jiemin Wang, Xiaohua Ju, Teng He, Jianping Guo, Lin Liu*, Ping Chen

Low-Temperature Ammonia Decomposition over Sm2O3 Supported Non-Noble Metal (Fe, Co, and Ni) Catalysts

ChemCatChem 16(21): e202400875, 2024View Full Text


17. Jiemin Wang, Lin Liu*, Ruili Li, Shangshang Wang, Xiaohua Ju, Teng He, Jianping Guo*, Ping Chen

Highly active manganese nitride-europium nitride catalyst for ammonia synthesis

iScience 27(9): 110858, 2024View Full Text


2023说明: http://119.78.130.35:8080/_vsl/42F61252FD14952FDB3B58E86BD0F5B1/A1B3FB11/D4C?e=.gif

1. Qianru Wang, Jianping Guo*, Ping Chen*

Complex transition metal hydrides for heterogeneous catalysis

Chem Catalysis, 100524, 2023View Full Text


2. Qing Guo, Chao Qin, Jianping Guo* and Ping Chen

Selective hydrogenation of acetylene to ethylene by alkali-metal palladium complex hydrides

Chemical Communications, 59: 2259-2262, 2023View Full Text


3. Ren Zou, Jialing Li, Jirong Cui, Weijin Zhang, Gangtie Lei, Hujun Cao* and Ping Chen

Catalyst-free synthesis of lithium hydride at room temperature

Chemical Communications 59: 2660, 2023View Full Text


4. Li-Jun Wu, Qianru Wang, Jianping Guo, Junnian Wei*, Ping Chen* and Zhenfeng Xi*

From Dinitrogen to N-Containing Organic Compounds: Using Li2CN2 as a Synthon

Angewandte Chemie International Edition, e202219298, 2023View Full Text


5. Weijin Zhang#, Jirong Cui#, Shangshang Wang, Hujun Cao*, Anan Wu, Yuanhua Xia, Qike Jiang, Jianping Guo, Teng He & Ping Chen*

Deforming lanthanum trihydride for superionic conduction

Nature, 616: 72-76, 2023View Full Text


6. Sheng Feng, Wenbo Gao*, Jianping Guo, Hujun Cao*, and Ping Chen

Electrodriven Chemical Looping Ammonia Synthesis Mediated by Lithium Imide

ACS Energy Letters, 8(3): 1567-1574, 2023View Full Text


7. Ji Feng, Lin Liu*, Xilun Zhang, Jiemin Wang, Xiaohua Ju, Ruili Li, Jianping Guo, Teng He, Ping Chen

Ru nanoparticles on Y2O3 with enhanced metal-support interaction for efficient ammonia synthesis

Catalysis Science & Technology, 13: 844-853, 2023View Full Text


8. Jintao Wang, Qijun Pei, Yang Yu, Jirong Cui, Shangshang Wang, Khai Chen Tan, Jiaquan Guo, Teng He* and Ping Chen

Investigation on the Formation of Rare-Earth Metal Phenoxides via Metathesis

Inorganics, 11(3): 115, 2023View Full Text


9. Khai Chen Tan#, Qijun Pe#, Jiafeng Yu, Hong Wen, Yang Yu, Jintao Wang, Nor Izzati Nordin, Teng He*, Yong Shen Chua* and Ping Chen

Realizing room temperature catalytic hydrogenation of sodium phenoxide by Ru/TiO2 for hydrogen storage

Chemical Communications, 59: 4177-4180, 2023View Full Text


10. Wenbo Gao#, Runze Wang, Sheng Feng, Yawei Wang, Zhaolong Sun, Jianping Guo & Ping Chen

Thermodynamic and kinetic considerations of nitrogen carriers for chemical looping ammonia synthesis

Discover Chemical Engineering, 3: 1, 2023View Full Text


11. Qianru Wang#, Hong Wen#, Yeqin Guan, Shengyuan Zhang, Wenbo Gao, Jianping Guo*, and Ping Chen*

Ruthenium Complex Hydride Catalyst as a Platform for Ammonia Synthesis: The Effect of Alkali or Alkaline Earth Elements

ACS Catalysis, 13: 9882-9890, 2023View Full Text


12. Xilun Zhang, Lin Liu*, Jiemin Wang, Xiaohua Ju, Rui Si, Ji Feng, Jianping Guo, Ping Chen

The role of lanthanum hydride species in La2O3 supported Ru cluster catalyst for ammonia synthesis

Journal of Catalysis 417: 382-395, 2023View Full Text


13. Xiaohua Ju, Ji Feng, Jiemin Wang, Jianping Guo, Lin Liu*

One-step synthesis of cesium decorated Ru nanoparticles on MgO as efficient catalyst for ammonia synthesis

Catalysis Letters, 153: 1615-1624, 2023View Full Text


14. Khai Chen Tan, Yong Shen Chua#, Teng He#, Ping Chen

Strategies of thermodynamic alternation on organic hydrogen carriers for hydrogen storage application: A review

Green Energy and Resources, 1: 100020, 2023View Full Text


15. Han Wu#, Liang Yang#, Jiaqi Wen, Yongfeng Xu, Yongli Cai, Wenbo Gao, Qianru Wang, Yeqin Guan, Sheng Feng, Hujun Cao, Teng He, Lin Liu, Shaoqian Zhang, Jianping Guo*, Ping Chen

Plasma-Driven Nitrogen Fixation on Sodium Hydride

Advanced energy materials, 13: 2300722, 2023View Full Text


16. Runze Wang, Wenbo Gao*, Sheng Feng, Yeqin Guan, Qianru Wang, Jianping Guo*, Ping Chen

Zn Promotes Chemical Looping Ammonia Synthesis Mediated by LiH−Li2NH Couple

ChemSusChem, e202300813, 2023View Full Text


17. Tong Zhang#, Xiaohua Ju#, Lvye Liu, Lin Liu*, Teng He, Yunhua Xu, Hanying Wang and Ping Chen

Steering ammonia decomposition over Ru nanoparticles on ZrO2 by enhancing metal–support interaction

Catalysis Science & Technology, 13: 5205-5213, 2023View Full Text


18. Qijun Pei, Jiafeng Yu, Guanghao Qiu, Khai Chen Tan, Junfeng Wen, Yang Yu, Jintao Wang, Jiaquan Guo, Jianping Guo, Li Rao*, Teng He*, Ping Chen

Fabrication of Ultrafine Metastable Ru-B Alloy for Catalytic Hydrogenation of NEC at Room Temperature

Applied Catalysis B-Environmental 336: 122947, 2023View Full Text


19. Wenbo Gao*, Qianru Wang, Yeqin Guan, Hanxue Yan, Jianping Guo* and Ping Chen

Barium hydride activates Ni for ammonia synthesis catalysis

Faraday Discussions 243, 27-37, 2023View Full Text


20. Hanxue Yan, Wenbo Gao*, Qianru Wang*, Jianping Guo and Ping Chen

The formation of a lithium–iridium complex hydride toward ammonia synthesis

Faraday Discussions 243, 55-64, 2023View Full Text


21. Yang Yu#, Jintao Wang#, Zhaoxian Qin, Yingtong Lv, Qijun Pei, Khai Chen Tan, Tengfei Zhang*, Anan Wu, Teng He*, Hui Wu*, Andrew S. Lipton, Ping Chen

Sodium Carbazolide and Derivatives as Solid-State Electrolytes for Sodium-Ion Batteries

Angewandte Chemie International Edition 62(26), e202302679, 2023View Full Text


22. Jialing Li#, Ren Zou#, Yajun Cui, Gangtie Lei*, Zhi Li, Hujun Cao*

In situ formed MgTi2O4 from MgO improving the cycling stability of MgH2

Chemical Engineering Journal 470: 144259, 2023View Full Text


23. Ren Zou#, Jialing Li#, Weijin Zhang, Gangtie Lei, Zhi Li and Hujun Cao*

Enhancing the cycling stability of MgH2 using nitrogen modified titanate

Journal of Materials Chemistry A 11: 11748-11754, 2023View Full Text


2022说明: http://119.78.130.35:8080/_vsl/42F61252FD14952FDB3B58E86BD0F5B1/A1B3FB11/D4C?e=.gif

1. Xilun Zhang, Lin Liu*, Anan Wu*, Junfa Zhu, Rui Si, Jianping Guo, Ruting Chen, Qike Jiang, Xiaohua Ju, Ji Feng, Zhitao Xiong, Teng He, and Ping Chen*

Synergizing Surface Hydride Species and Ru Clusters on Sm2O3 for Efficient Ammonia Synthesis

ACS Catalysis, 12: 2178-2190, 2022View Full Text


2. Qianru Wang, Yeqin Guan, Jianping Guo, Ping Chen*

Hydrides mediate nitrogen fixation

Cell Reports Physical Science, 100779, 2022View Full Text


3. Jiang Wang, Gangtie Lei, Teng He, Hujun Cao*, Ping Chen*

Defect-rich potassium amide: A new solid-state potassium ion electrolyte

Journal of Energy Chemistry, 69: 555-560, 2022View Full Text


4. Chuangwei Liu#, Qianru Wang#, Jianping Guo, Tejs Vegge*, Ping Chen*, and Heine Anton Hansen*

Formation of a Complex Active Center by Ba2RuH6 for Nondissociative Dinitrogen Activation and Ammonia Formation

ACS Catalysis, 12: 4194-4202, 2022View Full Text


5. Hanxue Yan, Wenbo Gao*, Jirong Cui, Weijin Zhang, Qijun Pei, Qianru Wang, Yeqin Guan, Sheng Feng, Han Wu, Hujun Cao, Jianping Guo*, Ping Chen

Dinitrogen fixation mediated by lanthanum hydride

Journal of Energy Chemistry, 72: 1-7, 2022View Full Text


6. Feng Ji, Liu Lin, Ju Xiaohua, Wang Miaomiao, Zhang Xilun, Wang Jiemin, Chen Ping

Sub-nanometer Ru Clusters on Ceria Nanorods as Efficient Catalyst for Ammonia Synthesis under Mild Conditions

ACS Sustainable Chemistry & Engineering, 10: 10181-10191, 2022View Full Text


7. Jiemin Wang, Lin Liu*, Ji Feng, Xilun Zhang, Xiaohua Ju, Ping Chen*

Regulating interaction of Ru nanoparticles and Eu2O3 support achieves enhanced activity for ammonia synthesis

Catalysis Science & Technology, 2022View Full Text


8. Jaysree Pan, Qianru Wang, Jianping Guo, Heine Anton Hansen, Ping Chen*, Tejs Vegge

Balanced nitrogen and hydrogen chemisorption by [RuH6] catalytic center favors low-temperature NH3 synthesis

Cell Reports Physical Science, 3: 100970, 2022View Full Text


9. Yeqin Guan#, Chuangwei Liu#, Qianru Wang, Wenbo Gao, Heine Anton Hansen*, Jianping Guo*, Tejs Vegge*, Ping Chen

Transition-Metal-Free Barium Hydride Mediates Dinitrogen Fixation and Ammonia Synthesis

Angewandte Chemie International Edition, e202205805, 2022View Full Text


10. Xianghui Shi#, Qianru Wang#, Chao Qin#, Li-Jun Wu, Yuanjin Chen, Gao-Xiang Wang, Yongli Cai, Wenbo Gao, Teng He, Junnian Wei*, Jianping Guo*, Ping Chen*, Zhenfeng Xi*

Synthesis of Pyrimidines from Dinitrogen and Carbon

National Science Review, 2022


11. Yongli Cai, Wei Liu, Yang Yu, Ligao Liu, Qijun Pei, Han Wu, Teng He, Jianping Guo*, Anan Wu*, and Ping Chen*

Transition Metal-Free Hydrogenolysis of Anilines to Arenes Mediated by Lithium Hydride

Journal of the American Chemical Society, 2022View Full Text


12. Yang Yu, Weijin Zhang, Hujun Cao, Teng He*, Ping Chen*

Ion migration in hydride materials

Trends in Chemistry, 2022View Full Text


13. Jintao Wang#, Yang Yu#, Anan Wu, Khai Chen Tan, Hui Wu*, Teng He*, and Ping Chen

Fabrication of Lithium Indolide and Derivates for Ion Conduction

ACS Applied Materials & Interfaces, 14: 41095-41102, 2022View Full Text


14. Ren Zou, Joshua Adedeji Bolarin, Gangtie Lei*, Wenbo Gao, Zhi Li, Hujun Cao*, Ping Chen

Microwave-assisted reduction of Ti species in MgH2-TiO2 composite and its effect on hydrogen storage

Chemical Engineering Journal 450: 138072, 2022View Full Text


15. Joshua Adedeji Bolarin, Ren Zou, Zhi Li, Zhao Zhang, Hujun Cao*

MXenes for magnesium-based hydrides: A review

Applied Materials Today, 2022View Full Text


16. Jiemin Wang, Lin Liu*, Xilun Zhang, Jiafeng Yu, Xiaohua Ju, Ji Feng, Jianping Guo, Teng He and Ping Chen

Sub-nanometer Ru clusters on Sm2O3 obtained from a room temperature ion adsorption method for ammonia synthesis

Catalysis Science & Technology, 12: 7501-7509, 2022View Full Text


17. Ren Zou, Weijin Zhang, Min Dai, Gangtie Lei, Qike Jiang, Hujun Cao* and Ping Chen

One-Step Synthesis of Light Metal Nanoparticle from Metastable Complex

Small 19: 2206518, 2022View Full Text


18. Zhao Li, Chengliang Mao, Qijun Pei, Paul N. Duchesne, Teng He, Meikun Xia, Jintao Wang, Lu Wang, Rui Song, Abdinoor A. Jelle, Débora Motta Meira, Qingjie Ge, Kulbir Kaur Ghuman*, Le He, Xiaohong Zhang* & Geoffrey A. Ozin*

Engineered disorder in CO2 photocatalysis

Nature Communications, 13: 7205, 2022View Full Text


2021说明: http://119.78.130.35:8080/_vsl/42F61252FD14952FDB3B58E86BD0F5B1/A1B3FB11/D4C?e=.gif

1. Zijun Jing, Khai Chen Tan, Teng He*, Yang Yu, Qijun Pei, Jintao Wang, Hui Wu*, Ping Chen

Synthesis, Characterization, and Crystal Structure of Lithium Pyrrolide

Acta Physico-Chimica Sinica, 37(11): 2009039, 2021View Full Text


2. Jianping Guo and Ping Chen*

Interplay of Alkali, Transition Metals, Nitrogen, and Hydrogen in Ammonia Synthesis and Decomposition Reactions

Accounts of Chemical Research 54(10): 2434-2444, 2021View Full Text


3. Xilun Zhang, Lin Liu*, Ji Feng, Xiaohua Ju, Jiemin Wang, Teng He and Ping Chen*

Metal-support interaction-modulated catalytic activity of Ru nanoparticles on Sm2O3 for efficient ammonia decomposition

Catalysis Science & Technology, 11: 2915-2923, 2021View Full Text


4. Chao Qin#, Qing Guo#, Jianping Guo* and Ping Chen

Atomically dispersed Pd atoms on a simple MgO support with an ultra-low loading for selective hydrogenation of acetylene to ethylene

Chemistry-An Asian Journal 16: 1225-1228, 2021View Full Text


5. Fei Chang, Wenbo Gao, Jianping Guo* and Ping Chen*

Emerging Materials and Methods toward Ammonia-Based Energy Storage and Conversion

Advanced Materials, 2005721, 2021View Full Text


6. Hanxue Yan, Wenbo Gao, Qianru Wang, Yeqin Guan, Sheng Feng, Han Wu, Qing Guo, Hujun Cao, Jianping Guo* and Ping Chen

Lithium palladium hydride promotes chemical looping ammonia synthesis mediated by lithium imide and hydride

The Journal of Physical Chemistry C, 125: 6716−6722, 2021View Full Text


7. Ji Feng, Lin Liu*, Xiaohua Ju, Jiemin Wang, Xilun Zhang, Teng He and Ping Chen

Highly Dispersed Ruthenium Nanoparticles on Y2O3 as Superior Catalyst for Ammonia Decomposition

ChemCatChem 13: 1552-1558,2021View Full Text


8. Tan Khai Chen, Zijun Jing, Yang Yu, Yong Shen Chua*, Qijun Pei, Dewen Zheng*, Xi Zhang, Zhixin Ge, Fudong Zhan, Teng He*

Syntheses of alkali-metal carbazolides for hydrogen storage

International Journal of Hydrogen Energy, 46: 11051-11058, 2021View Full Text


9. Qijun Pei, Teng He*, Yang Yu, Zijun Jing, Jintao Wang, Khai Chen Tan, Jianping Guo, Lin Liu, Hujun Cao and Ping Chen*

Fabrication of oxygen vacancies through assembling an amorphous titanate overlayer on titanium oxide for a catalytic water-gas shift reaction

Journal of Materials Chemistry A, 9: 2784-2791, 2021View Full Text


10. Sheng Feng#, Wenbo Gao#, Qianru Wang, Yeqin Guan, Hanxue Yan, Han Wu, Hujun Cao*, Jianping Guo* and Ping Chen

A multi-functional composite nitrogen carrier for ammonia production via a chemical looping route

Journal of Materials Chemistry A, 9: 1039-1047, 2021View Full Text


11. Wenbo Gao, Sheng Feng, Hanxue Yan, Qianru Wang, Hua Xie, Ling Jiang, Weijin Zhang, Yeqin Guan, Han Wu, Hujun Cao, Jianping Guo* and Ping Chen*

In-situ formed Co from Co-Mg-O solid solution synergizing with LiH for efficient ammonia synthesis

Chemical Communications 57: 8576-8579, 2021View Full Text


12. Jianping Guo and Ping Chen*

Ammonia history in the making

Nature Catalysis, 4: 734-735, 2021View Full Text


13. Haldrian Iriawan#, Suzanne Z. Andersen#, Xilun Zhang, Benjamin M. Comer, Jesús Barrio, Ping Chen*, Andrew J. Medford*, Ifan E. L. Stephens*, Ib Chorkendorff* and Yang Shao-Horn*

Methods for nitrogen activation by reduction and oxidation

Nature Reviews Methods Primers 1: 56, 2021View Full Text


14. Teng He, Hujun Cao, and Ping Chen*

The roles of alkali/alkaline earth metals in the materials design and development for hydrogen storage

Accounts of Materials Research 2: 726–738, 2021View Full Text


15. Zijun Jing, Qinqin Yuan, Yang Yu, Xiangtao Kong, Khai Chen Tan, Jintao Wang, Qijun Pei, Xue-Bin Wang*, Wei Zhou, Hui Wu*, Anan Wu*, Teng He*, and Ping Chen

Developing ideal metalorganic hydrides for hydrogen storage: from theoretical prediction to rational fabrication

ACS Materials Letters 3: 1417–1425, 2021View Full Text


16. Qijun Pei, Guanghao Qiu, Yang Yu, Jintao Wang, Khai Chen Tan, Jianping Guo, Lin Liu, Hujun Cao, Teng He*, and Ping Chen

Fabrication of more oxygen vacancies and depression of encapsulation for superior catalysis in the water–gas shift reaction

Journal of Physical Chemistry Letters 12, 10646-10653, 2021View Full Text


17. Guanghao Qiu#, Qijun Pei#, Yang Yu, Zijun Jing, Jintao Wang, Teng He*, Ping Chen

Regulation of strong metal-support interaction by alkaline earth metal salts

Chemistry an Asian Journal 16: 2633-2640, 2021View Full Text


18. Khai Chen Tan, Teng He*, Yong Shen Chu, and Ping Chen*

Recent advances of catalysis in the hydrogenation and dehydrogenation of N-heterocycles for hydrogen storage

Journal of Physical Chemistry C 125: 18553-18566, 2021View Full Text


19. Xilun Zhang, Lin Liu*, Ji Feng, Xiaohua Ju, Jiemin Wang, Teng He, Ping Chen*

Ru nanoparticles on Pr2O3 as efficient catalyst for production of hydrogen from ammonia decomposition

Catalysis Letters 152: 1170-1181, 2022View Full Text


20. Ji Feng#, Xilun Zhang#, Jiemin Wang, Xiaohua Ju, Lin Liu*, and Ping Chen*

Applications of rare earth oxide materials in ammonia synthesis and decomposition

Catalysis Science & Technology 19: 6330-6343, 2021View Full Text


21. Lin Liu#*, Xilun Zhang#, Xiaohua Ju, Ji Feng, Jiemin Wang, Ping Chen

Ru nanoparticles on Cs-doped MgO superbase as highly efficient catalysts for ammonia synthesis

Dalton Transactions 50: 12074-12078, 2021View Full Text


22. Qianru Wang#, Jaysree Pan#, Jianping Guo, Heine Anton Hansen, Hua Xie, Ling Jiang, Lei Hua, Haiyang Li, Yeqin Guan, Peikun Wang, Wenbo Gao, Lin Liu, Hujun Cao, Zhitao Xiong, Tejs Vegge* and Ping Chen*

Ternary ruthenium complex hydrides for ammonia synthesis via the associative mechanism

Nature Catalysis 4: 959–967, 2021View Full Text


23. Yeqin Guan, Weijin Zhang, Qianru Wang, Claudia Weidenthaler, Anan Wu, Wenbo Gao, Qijun Pei, Hanxue Yan, Jirong Cui, Han Wu, Sheng Feng, Runze Wang, Hujun Cao, Xiaohua Ju, Lin Liu, Teng He, Jianping Guo*, Ping Chen

Barium chromium nitride-hydride for ammonia synthesis

Chem Catalysis 1: 1042-1054, 2021View Full Text


24. Qianru Wang, Jianping Guo, Ping Chen*

The impact of alkali and alkaline earth metals on green ammonia synthesis

Chem 7: 3203-3220, 2021View Full Text


25. Qing Guo#, Ruting Chen#, Jianping Guo*, Chao Qin, Zhitao Xiong, Hanxue Yan, Wenbo Gao, Qijun Pei, Anan Wu*, and Ping Chen*

Enabling semihydrogenation of alkynes to alkenes by using a calcium palladium complex hydride

Journal of the American Chemical Society 143(49): 20891-20897, 2021View Full Text


26. Zhao Zhang, Hujun Cao*, Zhitao Xiong, Joshua Adedeji Bolarin, Weijin Zhanga and Ping Chen*

Can nitrogen-based complex hydrides be a hydrogen isotope separation material?

Chemical Communications 78: 10063-10066, 2021View Full Text


27. Jiang Wang, Gangtie Lei*, Claudio Pistidda, Teng He, Hujun Cao*, Martin Dornheim, Ping Chen

Hydrogen storage properties and reaction mechanisms of K2Mn(NH2)4–8LiH system

International Journal of Hydrogen Energy 46: 40196-40202, 2021View Full Text


28. Min Dai#, Joshua Adedeji Bolarin#, Gangtie Lei, Zhi Li, Teng He, Hujun Cao*, Ping Chen*

Potassium hydride reduced black TiO2−x for boosting the hydrogenation of magnesium at room temperature

Journal of Alloys and Compounds 897: 162750, 2021View Full Text


29. Joshua Adedeji Bolarin#, Zhao Zhang#, Hujun Cao*, Zhi Li, Teng He, and Ping Chen*

Room temperature hydrogen absorption of Mg/MgH2 catalyzed by BaTiO3

The Journal of Physical Chemistry C 125: 19631–19641, 2021View Full Text


30. Joshua Adedeji Bolarin, Zhao Zhang, Hujun Cao*, Zhi Li, Teng He, Ping Chen*

NaH doped TiO2 as a high-performance catalyst for Mg/MgH2 cycling stability and room temperature absorbtion

Journal of Magnesium and Alloys, 2021View Full Text


31. Qi Luo, Qinghua Wang, Xiaoxue Sun, Han Wu, Jingai Hao*, Ligang Wei, Shangru Zhai, Zuoyi Xiao, Qingda An

Dual-active-sites deep eutectic solvents based on imidazole and resorcinol for efficient capture of NH3

Chemical Engineering Journal 416: 129114, 2021View Full Text


2020说明: http://119.78.130.35:8080/_vsl/42F61252FD14952FDB3B58E86BD0F5B1/A1B3FB11/D4C?e=.gif

1. Miao Zhang*, Lin Liu*, Teng He, Xiaohua Ju and Ping Chen

Molten salt assisted pyrolysis approach for the synthesis of nitrogen-rich microporous carbon nanosheets and its application as gas capture sorbent

Microporous and Mesoporous Materials, 300: 110177, 2020View Full Text


2. Zhao Li*, Qijun Pei, Yang Yu, Zijun Jing, Jintao Wang and Teng He*

Syntheses of Pt‐Ni hollow nanoalloy for hydrogen generation from catalytic hydrolysis of ammonia borane

ChemCatChem,12: 4257-5261, 2020View Full Text


3. Jinxia Liu, Xiaohua Ju, Chunhua Tang, Lin Liu*, Hui Li* and Ping Chen

High performance stainless-steel supported Pd membranes with a finger-like and gap structure and its application in NH3 decomposition membrane reactor

Chemical Engineering Journal, 388: 124245, 2020View Full Text


4. Khai Chen Tan, Yang Yu, Ruting Chen, Teng He*, Zijun Jing, Qijun Pei, Jintao Wang, Yong Shen Chua*, Anan Wu*, Wei Zhou, Hui Wu* and Ping Chen

Metallo-N-Heterocycles - A new family of hydrogen storage material

Energy Storage Materials 26: 198–202, 2020View Full Text


5. Qianru Wang, Jianping Guo and Ping Chen

The Power of Hydrides

Joule, 4: 705-709, 2020View Full Text


6. Zijun Jing, Yang Yu, Ruting Chen, Khai Chen Tan, Teng He*, Anan Wu*, Qijun Pei, Yong Shen Chua, Dewen Zheng*, Xi Zhang, Zhixin Ge, Fudong Zhang and Ping Chen

Sodium anilinide–cyclohexylamide pair: synthesis, characterization, and hydrogen storage properties

Chemical Communications, 56: 1944-1947, 2020View Full Text


7. Qijun Pei, Teng He*, Yang Yu, Zijun Jing, Jianping Guo, Lin Liu, Zhitao Xiong and Ping Chen*

Liberating Active Metals from Reducible Oxide Encapsulation for Superior Hydrogenation Catalysis

ACS Applied Materials & Interfaces,12: 7071−7080, 2020View Full Text


8. Jirong Cui, Weijin Zhang, Hujun Cao∗ and Ping Chen

Mild-condition synthesis of A2ZnH4 (A = K, Rb, Cs) and their effects on the hydrogen storage properties of 2LiH-Mg(NH2)2

Journal of Energy Chemistry, 50: 358-364, 2020 View Full Text


9. Pei Yu, Han Wu, Jianping Guo∗, Peikun Wang, Fei Chang, Wenbo Gao,Weijin Zhang, Lin Liu and Ping Chen*

Effect of BaNH, CaNH, Mg3N2 on the activity of Co in NH3 decomposition catalysis

Journal of Energy Chemistry, 46: 16-21, 2020 View Full Text


10. Sheng Feng, Wenbo Gao, Hujun Cao, Jianping Guo*, Ping Chen

Advances in the Chemical Looping Ammonia Synthesis

Acta Chimica Sinica, 78: 916-927, 2020View Full Text


11. Zejie Lv, Junnian Wei, Wenxiong Zhang, Ping Chen, Dehui Deng, Zhangjie Shi and Zhenfeng Xi*

Direct transformation of dinitrogen: synthesis of N-containing organic compounds via N−C bond formation

National Science Review, 7: 1564-1583, 2020View Full Text


12. Michael Hirscher, Volodymyr A.Yartys, Marcello Baricco, Fei Chang, Ping Chen, Teng He,et al.

Materials for hydrogen-based energy storage-past, recent progress and future outlook

Journal of Alloys and Compounds, 827: 153548, 2020View Full Text


13. Zhao Zhang*, Hujun Cao*, Weijin Zhang, Jirong Cui, Zhitao Xiong and Ping Chen

Thermochemical transformation and reversible performance of Mg(NH2)2-NaMgH3 system

Journal of Alloys and Compounds, 827: 153548, 2020View Full Text

2019说明: http://119.78.130.35:8080/_vsl/42F61252FD14952FDB3B58E86BD0F5B1/A1B3FB11/D4C?e=.gif

1. Yang Yu, Teng He,* Anan Wu*, Qijun Pei, Abhijeet Karkamkar, Tom Autrey and Ping Chen*

Reversible Hydrogen Uptake/Release over a Sodium Phenoxide-Cyclohexanolate Pair

Angewandte Chemie-International Edition, 58(10): 3102-3107, 2019View Full Text


2. Joshua W. Makepeace, Teng He, Claudia Weidenthaler,Torben R. Jensen, Fei Chang, Tejs Vegge, Ping Chen, et. al.

Reversible ammonia-based and liquid organic hydrogen carriers for high-density hydrogen storage: Recent progress

International Journal of Hydrogen Energy, 44: 7746-7767, 2019 View Full Text


3. Yang Yu, Qijun Pei, Teng He∗ and Ping Chen

Kinetic studies of reversible hydrogen storage over sodium phenoxide-cyclohexanolate pair in aqueous solution

Journal of Energy Chemistry 39: 244–248, 2019 View Full Text


4. Teng He, Hujun Cao and Ping Chen*

Complex Hydrides for Energy Storage, Conversion,and Utilization

Advanced Materials, 31: 1902757, 2019, View Full Text


5. Qianru Wang, Yeqin Guan, Wenbo Gao, Jianping Guo and Ping Chen*

Thermodynamic Properties of Ammonia Production from Hydrogenation of Alkali and Alkaline Earth Metal Amides

ChemPhysChem, 20(10): 1376-1381, 2019View Full Text


6. Xiaohua Ju, Lin Liu*, Xilun Zhang, Ji Feng, Teng He and Ping Chen*

Highly Efficient Ru/MgO Catalyst with Surface-Enriched Basic Sites for Production of Hydrogen from Ammonia Decomposition

ChemCatChem, 11: 4161-4170, 2019View Full Text


7. Wenbo Gao, Jianping Guo* and Ping Chen*

Hydrides, amides and imides mediated ammonia synthesis and decomposition

Chinese Journal of Chemistry, 37(5): 442-451, 2019View Full Text


8. Qianru Wang, Jianping Guo* and Ping Chen*

Recent progress towards mild-condition ammonia synthesis

Journal of Energy Chemistry, 36: 25-36, 2019View Full Text


9. Jianping Guo*, Ping Chen*

多相化学合成氨研究进展

科学通报, 64(11): 1114-1128, 2019View Full Text


10. Jianping Guo, Junmin Yan, Lizhi Zhang and Ping Chen*

温和条件下氨的高效合成

催化学报,综述: S57–S63, 2019


11. Gökhan Gizer, Hujun Cao, Julián Puszkiel*, Claudio Pistidda, Antonio Santoru, Weijin Zhang, Teng He, Ping Chen, Thomas Klassen and Martin Dornheim*

Enhancement Effect of Bimetallic Amide K2Mn(NH2)4 and In-Situ Formed KH and Mn4N on the Dehydrogenation/Hydrogenation Properties of Li-Mg-N-H System

Energies, 12(14): 2779, 2019View Full Text

 

2018说明: http://119.78.130.35:8080/_vsl/42F61252FD14952FDB3B58E86BD0F5B1/A1B3FB11/D4C?e=.gif

1.Ping Chen*

Across the Board: Ping Chen

ChemSusChem, 11(15): 2469-2471, 2018 View Full Text


2.Fei Chang, Yeqin Guan, Xinghua Chang, Jianping Guo,* Peikun Wang, Wenbo Gao, Guotao Wu, Jie Zheng, Xingguo Li and Ping Chen*

Alkali and Alkaline Earth Hydrides-Driven N-2 Activation and Transformation over Mn Nitride Catalyst

Journal of the American Chemical Society, 140: 14799-14806, 2018 View Full Text


3.Han Wang, Hujun Cao, Weijin Zhang, Jian Chen, Hui Wu, Claudio Pistidda, Xiaohua Ju, Wei Zhou, Guotao Wu*, Martin Etter, Thomas Klassen, Martin Dornheim, Ping Chen*

Li2NH-LiBH4: a Complex Hydride with Near Ambient Hydrogen Adsorption and Fast Lithium Ion Conduction

Chemistry-a European Journal, 24(6): 1342-1347, 2018 View Full Text


4.Weijin Zhang, Zhao Zhang*, Xianchao Jia, Jianping Guo, Junhu Wang, Ping Chen*

Metathesis of Mg2FeH6and LiNH2leading to hydrogen production at low temperatures

Physical chemistry chemical physics, 20(15): 9833-9837, 2018 View Full Text


5.Miao Zhang, Lin Liu*, Xiaohua Ju, Teng He, Ping Chen*

Molten salt assisted synthesis of microporous polyaniline nanosheets with superior gas sorption properties

Microporous and Mesoporous Materials, 267: 100-106, 2018 View Full Text


6. Wenbo Gao, Jianping Guo,* Peikun Wang, Qianru Wang, Fei Chang, Qijun Pei, Weijin Zhang, Lin Liu, and Ping Chen*

Production of ammonia via a chemical looping process based on metal imides as nitrogen carriers

Nature Energy, 3(12): 1067-1075, 2018 View Full Text

 

2017说明: http://119.78.130.35:8080/_vsl/42F61252FD14952FDB3B58E86BD0F5B1/A1B3FB11/D4C?e=.gif

1. Jianping Guo, Ping Chen

Catalyst: NH3as an Energy Carrier

Chem, 3: 709-712, 2017 View Full Text


2. Zhao Li, Teng He*, Daiju Matsumura, Shu Miao, Anan Wu*, Lin Liu, Guotao Wu, Ping Chen

Atomically Dispersed Pt on the Surface of Ni Particles: Synthesis and Catalytic Function in Hydrogen Generation from Aqueous Ammonia–Borane

ACS Catalysis, 7: 6762-6769, 2017 View Full Text


3. Wenbo Gao, Peikun Wang, Jianping Guo*, Fei Chang, Teng He, Qianru Wang, Guotao Wu, Ping Chen*

Barium Hydride-Mediated Nitrogen Transfer and Hydrogenation for Ammonia Synthesis: A Case Study of Cobalt

ACS Catalysis, 7(5): 3654-3661, 2017 View Full Text


4. Peikun Wang, Fei Chang, Wenbo Gao, Jianping Guo*, Guotao Wu, Teng He, Ping Chen*

Breaking scaling relations to achieve low-temperature ammonia synthesis through LiH-mediated nitrogen transfer and hydrogenation

Nature chemistry, 9(1): 64-70, 2017 View Full Text


5. Zhao Li, Teng He*, Lin Liu, Weidong Chen, Miao Zhang, Guotao Wu, Ping Chen

Covalent triazine framework supported non-noble metal nanoparticles with superior activity for catalytic hydrolysis of ammonia borane: from mechanistic study to catalyst design

Chemical Science, 8(1): 781-788, 2017 View Full Text


6. Weijin Zhang, Han Wang, Hujun Cao, Teng He, Jianping Guo, Guotao Wu*, Ping Chen

Effects of doping FeCl3on hydrogen storage properties of Li-N-H system

Progress in Natural Science: Materials International, 27: 139–143, 2017 View Full Text


7.Han Wang, Hujun Cao, Claudio Pistidda, Sebastiano Garroni, Guotao Wu,* Thomas Klassen, Martin Dorheim, Ping Chen*

Effects of Stoichiometry on the H2-Storage Properties of Mg(NH2)2-LiH-LiBH4Tri-Component Systems

Chemistry-an Asian Journal, 12(14): 1758-1764, 2017 View Full Text


8. Lin Liu*, Quan Shi, Nan Yin, Miao Zhang, Xin Liu, Hui Zheng, Guotao Wu, Ping Chen*

Enhanced room-temperature ferromagnetic properties in ultrathin two-dimensional metal-free poly(triazine imide) nanosheets

Carbon, 124: 486-491, 2017 View Full Text


9. Fei Chang, Jianping Guo*, Guotao Wu, Peikun Wang, Pei Yu, Ping Chen*

Influence of alkali metal amides on the catalytic activity of manganese nitride for ammonia decomposition

Catalysis Today, 286: 141-146, 2017 View Full Text


10. Xiaohua Ju, Lin Liu*, Pei Yu, Jianping Guo, Xilun Zhang, Teng He, Guotao Wu, Ping Chen*

Mesoporous Ru/MgO prepared by a deposition-precipitation method as highly active catalyst for producing COx-free hydrogen from ammonia decomposition

Applied Catalysis B: Environmental, 211: 167-175, 2017 View Full Text


11. Miao Zhang, Lin Liu*, Teng He, Zhao Li, Guotao Wu, Ping Chen*

Microporous crystalline γ-Al2O3replicated from microporous covalent triazine framework and its application as support for catalytic hydrolysis of ammonia borane

Chemistry-an Asian Journal, 12(4): 470-475, 2017 View Full Text


12. Han Wang, Guotao Wu*, Hujun Cao, Claudio Pistidda, Anna-Lisa Chaudhary, Sebastiano Garroni, Martin Dornheim, and Ping Chen*

Near Ambient Condition Hydrogen Storage in a Synergized Tricomponent Hydride System

Advanced Energy Materials, 7(13), 2017 View Full Text


13. Miao Zhang, Qijun Pei, Weidong Chen, Lin Liu*, Teng He*, Ping Chen

Room temperature synthesis of reduced TiO2 and its application as a support for catalytic hydrogenation

Rsc Advances, 7(8): 4306-4311, 2017 View Full Text


14. Hujun Cao,* Han Wang, Claudio Pistidda, Chiara Milanese, Weijin Zhang, Anna-Lisa Chaudhary, Antonio Santoru, Sebastiano Garroni, Jozef Bednarcik, Hanns-Peter Liermann, Ping Chen, Thomas Klassena and Martin Dornheima

The effect of Sr(OH)2on the hydrogen storage properties of the Mg(NH2)2-2LiH system

Physical Chemistry Chemical Physics, 19(12): 8457-8464, 2017 View Full Text


15. Peikun Wang, Hua Xie, Jianping Guo, Zhi Zhao, Xiangtao Kong, Wenbo Gao, Fei Chang, Teng He, Guotao Wu, Mingshu Chen, Ling Jiang*, Ping Chen*

The Formation of Surface Li-Fe Ternary Hydride and its Function on Catalytic Ammonia Synthesis at Low Temperatures

Angew. Chem. Int. Ed., 56(30): 8716-8720, 2017 View Full Text


16. Hujun Cao*, Jianping Guo, Fei Chang, Claudio Pistidda, Wei Zhou, Xilun Zhang, Antonio Santoru, Hui Wu*, Norbert Schell, Rainer Niewa, Ping Chen, Thomas Klassen, Martin Dornheim

Transition and Alkali Metal Complex Ternary Amides for Ammonia Synthesis and Decomposition

Chemistry-a European Journal, 23(41): 9766-9771, 2017 View Full Text

 

2016说明: http://119.78.130.35:8080/_vsl/42F61252FD14952FDB3B58E86BD0F5B1/A1B3FB11/D4C?e=.gif

1. Pei Yu, Jianping Guo, Lin Liu, Peikun Wang, Guotao Wu, Fei Chang, Ping Chen*

Ammonia decomposition with manganese nitride–calcium imide composites as efficient catalysts

ChemSusChem, 9: 364–369, 2016 View Full Text


2. Weidong Chen, Haibo Yu, Guotao Wu, Teng He, Zhao Li, Zaiping Guo, Huakun Liu, Zhenguo Huang*, Ping Chen*

Ammonium Aminodiboranate: A Long-Sought Isomer of Diammoniate of Diborane and Ammonia Borane Dimer

Chemistry-a European Journal, 22(23): 7727-7729, 2016 View Full Text


3. Weidong Chen, Guotao Wu, Teng He, Zhao Li, Zaiping Guo, Huakun Liu, Zhenguo Huang*, Ping Chen

An improved synthesis of unsolvated NaB3H8and its application in preparing Na2B12H12

International Journal of Hydrogen Energy, 41(34): 15471-15476, 2016 View Full Text


4. Pei Yu, Jianping Guo*, Lin Liu, Peikun Wang, Fei Chang, Han Wang, Xiaohua Ju, Ping Chen*

Effects of Alkaline Earth Metal Amides on Ru in Catalytic Ammonia Decomposition

Journal of Physical Chemistry C, 120(5): 2822-2828, 2016 View Full Text


5. Teng He, Pradip Pachfule, Hui Wu, Qiang Xu, Ping Chen*

Hydrogen carriers

Nature Reviews Materials, 1(12), 2016 View Full Text


6. Miao Zhang, Lin Liu*, Teng He, Guotao Wu, Ping Chen*

Melamine assisted solid exfoliation approach for the synthesis of fewlayered fluorinated graphene nanosheets

Materials Letters, 171: 191–194, 2016 View Full Text


7.Hujun Cao*, Antonio Santoru, Claudio Pistidda, Theresia M. M. Richter, Anna-Lisa Chaudhary, Gokhan Gizer, Rainer Niewa, Ping Chen, Thomas Klassena and Martin Dornheim

New synthesis route for ternary transition metal amides as well as ultrafast amide–hydride hydrogen storage materials

Chemical Communications, 52(29): 5100-5103, 2016 View Full Text


8. Miao Zhang, Lin Liu*, Teng He, Guotao Wu, Ping Chen*

Synthesis of two-dimensional microporous carbonaceous polymer nanosheets and their application as high-performance CO2capture sorbent

Chemistry–An Asian Journal, 11: 1849–1855, 2016 View Full Text


9. Zhao Li, Teng He*, Guotao Wu, Weidong Chen, Yongshen Chua, Jianping Guo, Dong Xie, Xiaohua Ju, Ping Chen*

Synthesis, structure and the dehydrogenation mechanism of calcium amidoborane hydrazinates

Physical Chemistry Chemical Physics, 18(1): 244-251, 2016 View Full Text


10. Peikun Wang, Jianping Guo**, Zhitao Xiong, Guotao Wu, Junhu Wang, Ping Chen*

The interactions of Li3FeN2with H2and NH3

International Journal of Hydrogen Energy, 41(32): 14171-14177, 2016 View Full Text


11. Lars H. Jepsen, Peikun Wang, Guotao Wu, Zhitao Xiong, Flemming Besenbacher, Ping Chen and Torben R. Jensen*

Thermal decomposition of sodium amide, NaNH2, and sodium amide hydroxide composites, NaNH2–NaOH

Physical Chemistry Chemical Physics, 18(36): 25257-25264, 2016 View Full Text


12. Lars H. Jepsen, Peikun Wang, Guotao Wu, Zhitao Xiong, Flemming Besenbacher, Ping Chen and Torben R. Jensen*

Synthesis and decomposition of Li3Na(NH2)4and investigations of Li–Na–N–H based systems for hydrogen storage

Physical Chemistry Chemical Physics, 18(3): 1735-1742, 2016 View Full Text

 

2015说明: http://119.78.130.35:8080/_vsl/42F61252FD14952FDB3B58E86BD0F5B1/A1B3FB11/D4C?e=.gif

1. Lin Liu, Miao Zhang, Zhitao Xiong, Daqiang Hu, Guotao Wu, Ping Chen*

Ammonia borane assisted solid exfoliation of graphite fluoride for facile synthesis of fluorinated graphene nanosheets

Carbon, 81: 702-709, 2015 View Full Text


2.Teng He*, Lin Liu, Guotao Wu, Ping Chen

Covalent triazine framework-supported palladium nanoparticles for catalytic hydrogenation of N-heterocycles

J. Mater. Chem. A, 3: 16235, 2015 View Full Text

Citation Frequency: 6


3. Fei Chang, Jianping Guo, Guotao Wu, Lin Liu, Miao Zhang, Teng He, Peikun Wang, Pei Yu, Ping Chen*,

Covalent triazine-based framework as an efficient catalyst support for ammonia decomposition

RSC Advances, 5: 3605-3610, 2015 View Full Text

Citation Frequency: 6


4.Jianping Guo, Zheng Chen, Anan Wu*, Fei Chang, Peikun Wang, Daqiang Hu, Guotao Wu, Zhitao Xiong, Pei Yu, Ping Chen*,

Electronic promoter or reacting species? The role of LiNH2on Ru in catalyzing NH3decomposition

Chemical Communications, 51(82): 15161-15164, 2015 View Full Text


5. Weidong Chen, Zhenguo Huang*, Guotao Wu, Teng He, Zhao Li, Juner Chen, Zaiping Guo, Huakun Liu, Ping Chen*

Guanidinium octahydrotriborate: an ionic liquid with high hydrogen storage capacity

J. Mater. Chem. A, 3: 11411-11416, 2015 View Full Text


6.Jianping Guo, Fei Chang,Peikun Wang, Daqiang Hu, Pei Yu,Guotao Wu, Zhitao Xiong, Ping Chen*,

Highly Active MnN–Li2NH Composite Catalyst for Producing COx-Free Hydrogen

ACS Catal., 5: 2708-2713, 2015 View Full Text

Citation Frequency: 6


7.Teng He, Qijun Pei, Ping Chen*

Liquid organic hydrogen carriers

Journal of Energy Chemistry, 24(5): 587-594, 2015 View Full Text


8.Teng He, Hui Wu, Guotao Wu*, Zhao Li, Wei Zhou, Xiaohua Ju, Dong Xie, Ping Chen*

Lithium amidoborane hydrazinates: synthesis, structure and hydrogen storage properties

J. Mater. Chem. A, 3: 10100-10106, 2015 View Full Text


9.Jianping Guo, Peikun Wang, Guotao Wu, Anan Wu, Daqiang Hu, Zhitao Xiong, Junhu Wang, Pei Yu, Fei Chang, Zheng Chen,Ping Chen*,

Lithium Imide Synergy with 3d Transition-Metal Nitrides Leading to Unprecedented Catalytic Activities for Ammonia Decomposition

Angew. Chem. Int. Ed., 54: 2950-2954, 2015 View Full Text

Citation Frequency: 11


10.Weidong Chen , Zhenguo Huang* , Guotao Wu, Ping Chen*,

New synthetic procedure for NaNH2(BH3)2and evaluation of its hydrogen storage properties,

Science China Chemistry, 58(1): 169-173, 2015 View Full Text


11. Lin Liu, Guotao Wu*, Weidong Chen, Zhitao Xiong, Teng He, Ping Chen*,

Synthesis and hydrogen storage properties of lithium borohydride urea complex

International Journal of Hydrogen Energy, 40(1): 429-434, 2015 View Full Text


12. Juner Chen, Yong Shen Chua, Hui Wu, Zhitao Xiong, Teng He, Wei Zhou, Xiaohua Ju, Minghui Yang, Guotao Wu*, Ping Chen*,

Synthesis, structures and dehydrogenation of magnesium borohydrideeethylenediamine composites

International Journal of Hydrogen Energy, 40(1): 412-419, 2015 View Full Text


13. Hujun Cao*, Theresia M. M. Richter, ClaudioPistidda, Anna-Lisa Chaudhary, Antonio Santoru, G?khanGizer, Rainer Niewa, Ping Chen, Thomas Klassen, MartinDornheim

Ternary Amides Containing Transition Metals for Hydrogen Storage: A Case Study with Alkali Metal Amidozincates

Chemsuschem, 8(22): 3777-3782, 2015 View Full Text


14.Xueli Zheng*, Yongshen Chua, Zhitao Xiong, Weidong Chen, Zhijie Jiang, Guotao Wu*, Ping Chen

The effect of NH3content on hydrogen release from LiBH4-NH3system

International Journal of Hydrogen Energy, 40(13): 4573-4578, 2015 View Full Text


15. Han Wang, Hujun Cao, Guotao Wu*, Teng He, Ping Chen

The improved Hydrogen Storage Performances of the Multi-Component Composite: 2Mg(NH2)2-3LiH-LiBH4

Energies, 8(7): 6898-6909, 2015 View Full Text


16.Zhao Li, Teng He*, Guotao Wu, Xiaohua Ju, Ping Chen*

The synthesis, structure and dehydrogenation of calcium borohydride hydrazinates

International Journal of Hydrogen Energy, 40(15): 5333-5339, 2015 View Full Text

 

 

2014说明: http://119.78.130.35:8080/_vsl/42F61252FD14952FDB3B58E86BD0F5B1/A1B3FB11/D4C?e=.gif

1. Yongshen Chua*, Qijun Pei, Xiaohua Ju, Wei Zhou, Terrence J. Udovic, Guotao Wu, Zhitao Xiong, Ping Chen*, Hui Wu*

Alkali Metal Hydride Modification on Hydrazine Borane for Improved Dehydrogenation

Journal of Physical Chemistry C, 118(21): 11244-11251, 2014 View Full Text


2. Hujun Cao, Guotao Wu, Yao Zhang, Zhitao Xiong, Jieshan Qiu, Ping Chen*

Effective thermodynamic alteration to Mg(NH2)2–LiH system achieving near ambient-temperature hydrogen storage

Journal of Materials Chemistry A, 2: 15816-15822, 2014 View Full Text

Citation Frequency: 8


3. Pei Yu, Yongshen Chua*, Hujun Cao, Zhitao Xiong*, Guotao Wu, Ping Chen

Hydrogen storage over alkali metal hydride and alkali metal hydroxide composites

Journal of Energy Chemistry, 23(4): 414-419, 2014 View Full Text


4. Hujun Cao, Han Wang, Teng He*, Guotao Wu, Zhitao Xiong, Jieshan Qiu, Ping Chen*,

Improved kinetics of the Mg(NH2)2-2LiH system by addition of lithium halides

RSC Advances, 4: 32555-32561, 2014 View Full Text

Citation Frequency: 6


5. Juner Chen, Hui Wu, Guotao Wu, Zhitao Xiong, Ruiming Wang, Hongjun Fan, Wei Zhou, Bin Liu, Yongshen Chua, Xiaohua Ju, Ping Chen*

Lithiated Primary Amine - A New Material for Hydrogen Storage

Chemistry-a European Journal, 20(22): 6632-6635, 2014 View Full Text


6. Juner Chen, Teng He, Guotao Wu*, Zhitao Xiong, Lin Liu, Xiaohua Ju, Ping Chen*

Lithium Borohydride Ethylenediaminates: A Case Study of Solid-State LiBH4-Organic Amine Complexes

Journal of Physical Chemistry C, 118(25): 13451-13459, 2014 View Full Text


7. Hujun Cao, Jianhui Wang, Yongshen Chua, Han Wang, Guotao Wu, Zhitao Xiong, Jieshan Qiu, Ping Chen*,

NH3Mediated or Ion Migration Reaction: The Case Study on Halide-Amide System

Journal of Physical Chemistry C, 118(5): 2344-2349, 2014 View Full Text


8. Yao Zhang*, Zhitao Xiong, Hujun Cao, Guotao Wu, Ping Chen*,

The enhanced hydrogen storage performance of (Mg-B-N-H)-doped Mg(NH2)-2LiH system

International Journal of Hydrogen Energy, 39(4): 1710-1718, 2014 View Full Text


9. Juner Chen, Guotao Wu, Zhitao Xiong, Hui Wu, Yongshen Chua, Wei Zhou, Bin Liu, Xiaohua Ju, Ping Chen*,

Synthesis, Thermal Behavior, and Dehydrogenation Kinetics Study of Lithiated Ethylenediamine

Chemistry-a European Journal, 20(42): 13636-13643, 2014 View Full Text

 

2013说明: http://119.78.130.35:8080/_vsl/42F61252FD14952FDB3B58E86BD0F5B1/A1B3FB11/D4C?e=.gif

1. Teng He, Hui Wu, Juner Chen, Wei Zhou, Guotao Wu, Zhitao Xiong, Tao Zhang, Ping Chen*,

Alkali and alkaline-earth metal borohydride hydrazinates: synthesis, structures and dehydrogenation

Phys. Chem. Chem. Phys., 15(25): 10487-10493, 2013 View Full Text


2. Jianhui Wang, Haiwen Li, Ping Chen,

Amides and borohydrides for high-capacity solid-state hydrogen storage-materials design and kinetic improvements

Mrs Bulletin, 38(6): 480-487, 2013 View Full Text


3. Hujun Cao, Yao Zhang*, Jianhui Wang, Zhitao Xiong, Guotao Wu, Jieshan Qiu, Ping Chen*,

Effects of Al-based additives on the hydrogen storage performance of the Mg(NH2)2-2LiH system

Dalton transactions, 42(15): 5524-5531, 2013 View Full Text


4. Jing Zhang, Teng He*, Bin Liu, Lin Liu, Zelun Zhao, Daqiang Hu, Xiaohua Ju, Guotao Wu and Ping Chen*,

Effects of graphitic carbon nitride on the dehydrogenation of ammonia borane

Chinese Journal of Catalysis, 34(7): 1303-1311, 2013 View Full Text


5. Lin Liu, Daqiang Hu, Teng He, Yao Zhang, Guotao Wu, Hailiang Chu, Peikun Wang, Zhitao Xiong*, Ping Chen,

Lithium borohydride–melamine complex as a promising material for chemical hydrogen storage

Journal of Alloys and Compounds, 552: 98-101, 2013 View Full Text


6. Lin Liu, Zhitao Xiong, Daqiang Hu, Guotao Wu, Ping Chen*,

Production of high quality single- or few-layered graphene by solid exfoliation of graphite in presence of ammonia borane

Chem. Comm, 49(72): 7890-7892, 2013 View Full Text


7. Hujun Cao, Yongshen Chua, Yao Zhang*, Zhitao Xiong, Guotao Wu, Jieshan Qiu, Ping Chen*,

Releasing 9.6 wt% of H2from Mg(NH2)2-3LiH-NH3BH3through mechanochemical reaction

International Journal of Hydrogen Energy, 38(25): 10446-10452, 2013 View Full Text


8. Lin Liu, Zhitao Xiong, Daqiang Hu, Guotao Wu, Bin Liu, and Ping Chen*,

Solid Exfoliation of Hexagonal BN Crystals for Synthesis of Few-Layer BN Nanosheets

Chemistry Letters, 42(11): 1415-1416, 2013 View Full Text


9. Jianhui Wang, Ping Chen*, Hongge Pan, Zhitao Xiong, Mingxia Gao, Guotao Wu, Chu Liang, Cao Li, Bo Li, Jieru Wang,

Solid–Solid Heterogeneous Catalysis: The Role of Potassium in Promoting the Dehydrogenation of the Mg(NH2)2/2LiH Composite

ChemSusChem, 6: 2181-2189, 2013 View Full Text


10. Juner Chen, Teng He, Guotao Wu*, Zhitao Xiong, Ping Chen,

Synthesis and hydrogen storage properties of lithium borohydride amidoborane complex

International Journal of Hydrogen Energy, 38(25): 10944-10949, 2013 View Full Text


11. Hui Wu, Yong Shen Chua, Vaiva Krungleviciute, Madhusudan Tyagi, Ping Chen, Taner Yildirim, Wei Zhou*,

Unusual and Highly Tunable Missing-Linker Defects in Zirconium Metal-Organic Framework UiO-66 and Their Important Effects on Gas Adsorption

Journal of the American Chemical Society,135(28): 10525-10532, 2013 View Full Text

  

2012

1. Teng He, Hui Wu, Guotao Wu, Junhu Wang, Wei Zhou, Zhitao Xiong, Juner Chen, Tao Zhang and Ping Chen*,

Borohydride hydrazinates: high hydrogen content materials for hydrogen storage

Energy & Environmental Science, 5: 5686-5689, 2012 View Full Text


2. Weiliang Xu, Ruimin Wang, Guotao Wu and Ping Chen*,

Calcium amidoborane, a new reagent for chemoselective reduction of a,b-unsaturated aldehydes and ketones to allylic alcohols

RSC Advances, 2: 6005-6010, 2012 View Full Text


3. Weiliang Xu, Hongjun Fan, Guotao Wu and Ping Chen*,

Comparative study on reducing aromatic aldehydes by using ammonia borane and lithium amidoborane as reducing reagents

New J. Chem., 36: 1496-1501, 2012 View Full Text


4. S. Bhattacharya, Zhitao Xiong, Guotao Wu, Ping Chen, Y.P. Feng, C. Majumder, G.P. Das*,

Dehydrogenation Mechanism of Monoammoniated Lithium Amidoborane [Li(NH3)NH2BH3]

The Journal of Physical Chemistry C, 116(16): 8859-8864, 2012 View Full Text


5. Juner Chen, Yao Zhang, Zhitao Xiong, Guotao Wu, Hailiang Chu, Teng He and Ping Chen*,

Enhanced hydrogen desorption from the Co-catalyzed LiBH4-Mg(BH4)2eutectic composite

International Journal of Hydrogen Energy, 37: 12425-12431, 2012 View Full Text


6. Yong Shen Chua, Wen Li, Guotao Wu, Zhitao Xiong and Ping Chen*,

From Exothermic to Endothermic Dehydrogenation-Interaction of Monoammoniate of Magnesium Amidoborane and Metal Hydrides

Chem. Mater., 24: 3574-3581, 2012 View Full Text


7. Wen Li, Guotao Wu, Zhitao Xiong, Yuanping Feng and Ping Chen*,

Li+ionic conductivities and diffusion mechanisms in Li-based imides and lithium amide

Phys. Chem. Chem. Phys., 14: 1596-1606, 2012 View Full Text


8. Wen Li, Ling Miao, Ralph H. Scheicher, Zhitao Xiong, Guotao Wu*, C. Moysés Araújo, Andreas Blomqvist, Rajeev Ahuja, Yuanping Feng and Ping Chen*,

Li-Na Ternary Amidoborane for Hydrogen Storage: Experimental and First-principles Study

Dalton Trans., 41: 4754-4764, 2012 Advance Article View Full Text


9. Weiliang Xu, Yonggui Zhou, Ruimin Wang, Guotao Wu and Ping Chen*,

Lithium amidoborane, highly chemoselective reagent for reduction of α, β-unsaturated ketones to allylic alcohols

Org. Biomol. Chem., 10: 367-371, 2012 View Full Text


10. Hujun Cao, Yao Zhang, Jianhui Wang, Zhitao Xiong, Guotao Wu, Ping Chen*,

Materials design and modification on amide-based composites for hydrogen storage

Progress in Natural Science: Materials International, 22(6): 550-560, 2012 View Full Text


11. Yong Shen Chua, Wen Li, Wendy J. Shaw, Guotao Wu*, Tom Autrey, Zhitao Xiong*, Ming Wah Wong, and Ping Chen,

Mechanistic Investigation on the Formation and Dehydrogenation of Calcium Amidoborane Ammoniate

ChemSusChem, 5(5): 927-931, 2012 View Full Text


12. Weiliang Xu, Guotao Wu, Wei Yao, Hongjun Fan, Jishan Wu, and Ping Chen*,

Metal Amidoboranes Superior Double-Hydrogen-Transfer Agents in the reduction of ketones and imines

Chem. Eur. J., 18: 13885-13892, 2012 View Full Text


13. Teng He, Junhu Wang, Zheng Chen, Anan Wu, Guotao Wu, Jie Yin, Hailiang Chu, Zhitao Xiong*, Tao Zhang and Ping Chen,

Metathesis of alkali-metal amidoborane and FeCl3in THF

J. Mater. Chem., 22(15): 7478-7483, 2012 View Full Text


14. Yong Shen Chua, Hui Wu*, Wei Zhou, Terrence J. Udovic, Guotao Wu*, Zhitao Xiong, Ming Wah Wong and Ping Chen,

Monoammoniate of Calcium Amidoborane: Synthesis, Structure, and Hydrogen-Storage Properties

Inorganic Chemistry, 51(3): 1599-1603, 2012 View Full Text


15. Weiliang Xu, Xueli Zheng, Guotao Wu and Ping Chen*,

Reductive Amination of Aldehydes and Ketones with Primary Amines by Using Lithium Amidoborane as Reducing Reagent

Chin. J. Chem., 30: 1775-1780, 2012 View Full Text


16. Wen Li, Guotao Wu, Yongshen Chua, Yuan Ping Feng and Ping Chen*,

Role of NH3in the Dehydrogenation of Calcium Amidoborane Ammoniate and Magnesium Amidoborane Ammoniate A First-Principles Study

Inorg Chem, 51: 76-87, 2012 View Full Text


17. Bin Liu, Yong Shen Chua, Guotao Wu, Zhitao Xiong, Ping Chen*,

Synthesis and dehydrogenation of LiCa(NH2)3(BH3)2

International Journal of Hydrogen Energy, 37: 9076-9081, 2012 View Full Text


18. Zheng Chen, Zhening Chen, Anan Wu*, Guotao Wu, Zhitao Xiong*, Ping Chen, Xin Xu,

Theoretical Studies on Dehydrogenation Reactions in Mg2(BH4)2(NH2)2Compounds

Chin. J. Chem. Phys., 25(6): 676-680, 2012 View Full Text

 

2011

1. Yong Shen Chua, Ping Chen*, Guotao Wua, and Zhitao Xiong,

Development of amidoboranes for hydrogen storage

Chemical Communications, 47: 5116-5129, 2011View Full Text


2. Jianhui Wang, Guotao Wu*, Yong Shen Chua, Jianping Guo, Zhitao Xiong, Yao Zhang, Mingxia Gao, Hongge Pan and Ping Chen*,

Hydrogen Sorption from the Mg(NH2)2-KH System and Synthesis of an Amide-Imide Complex of KMg(NH)(NH2)

ChemSusChem, 4: 1622-1628, 2011View Full Text


3. Hailiang Chu, Guotao Wu, Yao Zhang*, Zhitao Xiong*, Jianping Guo, Teng He, and Ping Chen,

Improved Dehydrogenation Properties of Calcium Borohydride Combined with Alkaline-Earth Metal Amides

The Journal of Physical Chemistry C, 115: 18035-18041, 2011View Full Text


4. Xueli Zheng, Guotao Wu*, Teng He, Hailiang Chu, Hua Chen and Ping Chen,

Improved hydrogen desorption properties of Co-doped Li2BNH6

Chinese Science Bulletin, 56(23): 2481-2485, 2011View Full Text


5. Xueli Zheng, Zhitao Xiong*, Yonghao Lim, Guotao Wu, Ping Chen, Hua Chen,

Improving Effects of LiH and Co-Catalyst on the Dehydrogenation of Li4BN3H10

The Journal of Physical Chemistry C, 115: 8840-8844, 2011View Full Text


6. Teng He, Junhu Wang, Tao Liu, Guotao Wu, Zhitao Xiong, Jie Yin, Hailiang Chu, Tao Zhang, Ping Chen* ,

Quasi in Situ Mossbauer and XAS Studies On FeB Nanoalloy for Heterogeneous Catalytic Dehydrogenation of Ammonia Borane

Catalysis Today, 170: 69-75, 2011View Full Text


7. Xueli Zheng, Guotao Wu, Wen Li, Zhitao Xiong, Teng He, Jianping Guo, Hua Chen and Ping Chen* ,

Releasing 17.8 wt% H2from lithium borohydride ammoniate

Energy & Environmental Science, 4: 3593-3600, 2011View Full Text


8. Juner Chen, Zhitao Xiong*, Guotao Wu, Hailiang Chu and Ping Chen,

Review on Hydrogen Storage in Mg(BH4)2

Journal of Materials Science and Engineering, 29(4): 639-646, 2011View Full Text

 

2010

1. Teng He, Junhu Wang, Guotao Wu, Hyunjeong Kim, Thomas Proffen, Anan Wu, Wen Li, Tao Liu, Zhitao Xiong, Chengzhang Wu, Hailiang Chu, Jianping Guo, Tom Autrey, Tao Zhang, Ping Chen* ,

Growth of Crystalline Polyaminoborane through Catalytic Dehydrogenation of Ammonia Borane on FeB Nanoalloy

Chemistry - A European Journal, 16: 12814-12817, 2010View Full Text


2. Andreas Blomqvist, C. Moysés Araújo, Ralph H. Scheicher, Pornjuk Srepusharawoot, Wen Li, Ping Chen and Rajeev Ahuja*,

Hydrogen as promoter and inhibitor of superionicity: A case study on Li-N-H systems

Physical Review B, 82(2): 024304-1-024304-5, 2010View Full Text


3. Hailiang Chu, Zhitao Xiong, Guotao Wu, Jianping Guo, Xueli Zheng, Teng He, Chengzhang Wu, and Ping Chen* ,

Hydrogen Storage Properties of Ca(BH4)2-LiNH2System

Chem Asian J, 5(7): 1594-1599, 2010View Full Text


4. Hailiang Chu, Zhitao Xiong, Guotao Wu, Teng He, Chengzhang Wu, and Ping Chen* ,

Hydrogen storage properties of Li-Ca-N-H system with different molar ratios of LiNH2/CaH2

International Journal of Hydrogen Energy, 35(15): 8317-8321, 2010View Full Text


5. Hailiang Chu, Zhitao Xiong, Guotao Wu, Jianping Guo, Teng He and Ping Chen* ,

Improved dehydrogenation properties of Ca(BH4)2-LiNH2combined system

Dalton Trans, 39: 10585-10587, 2010View Full Text


6. Zhitao Xiong, Yong Shen Chua, Guotao Wu, Li Wang, Ming Wah Wong, Tom Autrey, Tim Kemmitt and Ping Chen* ,

Interaction of ammonia borane with Li2NH and Li3N.

Dalton Trans, 39:720-722, 2010View Full Text


7. Yong Shen Chua, Guotao Wu, Zhitao Xiong and Ping Chen*,

Investigations on the solid state interaction between LiAlH4and NaNH2

Journal of Solid State Chemistry, 183(9): 2040-2044, 2010View Full Text


8. Wen Li, Guotao Wu, Moysés Araújo, Ralph H. Scheicher, Andreas Blomqvist, Rajeev Ahuja, Zhitao Xiong, Yuanping Feng and Ping Chen* ,

Li+Ion Conductivity and Diffusion Mechanism in α-Li3N and β-Li3N

Energy & Environmental Science, 3: 1524-1530, 2010View Full Text


9. Chengzhang Wu, Guotao Wu, Zhitao Xiong, Xiuwen Han, Hailiang Chu,Teng He and Ping Chen*,

LiNH2BH3. NH3BH3: Structure and Hydrogen Storage Properties.

Chem Mater, 22(1): 3-5, 2010View Full Text


10. Chengzhang Wu, Guotao Wu*, Zhitao Xiong, William I. F. David, Kate R. Ryan, Martin O. Jones, Peter P. Edwards, Hailiang Chu, and Ping Chen* ,

Stepwise Phase Transition in the Formation of Lithium Amidoborane.

Inorg Chem, 49(9): 4319-4323, 2010View Full Text


11. Hailiang Chu, Guotao Wu*, Zhitao Xiong, Jianping Guo, Teng He, and Ping Chen* ,

Structure and Hydrogen Storage Properties of Calcium Borohydride Diammoniate

Chemistry of Materials, Manuscript, 22(21): 6021-6028, 2010View Full Text


12. YongShen Chua, Guotao Wu, Zhitao Xiong, Abhi Karkamkar, Jianping Guo, Mingxian Jian, Ming Wah Wong, Thomas Autrey and Ping Chen* ,

Synthesis, structure and dehydrogenation of magnesium amidoborane monoammoniate

Chemical Communications, 46: 5752-5754, 2010View Full Text


13. Wen Li, Ralph H. Scheicher, C. Moysés Araújo, Guotao Wu, Andreas Blomqvist, Chenzhang Wu, Rajeev Ahuja, Yuan Ping Feng and Ping Chen*,

Understanding from First Principles why LiNH2BH3.NH3BH3Shows Improved Dehydrogenation over LiNH2BH3and NH3BH3

Journal of Physical Chemistry C, 114: 19089-19095, 2010View Full Text

 

2009

1. Xueli Zheng, Weiliang Xu, Zhitao Xiong, Yongshen Chua , Guotao Wu, Song Qin, Hua Chen and Ping Chen*,

Ambient temperature hydrogen desorption from LiAlH4–LiNH2mediated by HMPA,

J Mater Chem, 19:8426-8431, 2009View Full Text


2. Yong Shen Chua, Guotao Wu, Zhitao Xiong, Teng He, and Ping Chen*,

Calcium Amidoborane Ammoniate;Synthesis,Structure, and Hydrogen Storage Properties,

Chem Mater, 21(20):4899-4904, 2009View Full Text


3.Jianhui Wang, Jianjing Hu, Yongfeng Liu, Zhitao Xiong, Guotao Wu, Hongge Pan, Ping Chen*,

Effects of triphenyl phosphate on the hydrogen storage performance of the Mg(NH2)2-2LiH system.

Journal of Materials Chemistry, 19(15) : 2141-2146, 2009View Full Text


4.Teng He, Zhitao Xiong, Guotao Wu, Hailiang Chu, Chengzhang Wu, Tao Zhang and Ping Chen*,

Nanosized Co- and Ni-Catalyzed Ammonia Borane for Hydrogen Storage,

Chem Mater, 21(11):2315-2318, 2009View Full Text


5. Jianhui Wang, Tao Liu, Guotao Wu, Wen Li, Yongfeng Liu, C. Moyses Araujo, Ralph H. Scheicher, Rajeev Ahuja, Zhitao Xiong, Ping Yang, Mingxia Gao, Hongge Pan and Ping Chen*,

Potassium Modified Mg(NH2)2/2LiH System for Hydrogen Storage,

Angewandte Chemie, 48(32): 5828-5832, 2009View Full Text


6.C. Moyses Araujo*, Andreas Blomqvist, Ralph H Scheicher, Ping Chen, Rajeev Ahuja,

Superionicity in the hydrogen storagematerial Li2NH: Molecular dynamics simulations

Physical Review B, 79(17): 172101, 2009View Full Text

 

2008

1.Wan Si Tang, Guotao Wu, Tao Liu, Andrew T. S. Wee, Chaw Keong Yong, Zhitao Xiong, Andy T. S. Hor and Ping Chen*,

Cobalt-catalyzed hydrogen desorption from the LiNH2-LiBH4system,

Dalton Trans, 18:2395-2399,2008 View Full Text

Citation Frequency: 43

2.Xueli Zheng, Zhitao Xiong, Song Qin, Yongshen Chua, Hua Chen and Ping Chen*,

Dehydrogenation of LiAlH4in HMPA,

International Journal of Hydrogen Energy, 33(13):3346-3350, 2008 View Full Text

Citation Frequency: 8

3. Yongfeng Liu, Jianjiang Hu, Guotao Wu, Zhitao Xiong, Ping Chen*,

Formation and equilibrium of ammonia in the Mg(NH2)2-2LiH hydrogen storage system,

Journal of Physical Chemistry C, 112(4):1293-1298, 2008 View Full Text

Citation Frequency: 18

4. Zhitao Xiong, Chaw Keong Yong, Guotao Wu, Ping Chen*, Wendy Shaw, Abhi Karkamkar, Thomas Autrey, et. al.

High-capacity hydrogen storage in lithium and sodium amidoboranes,

Nature Materials, 7(2): 138-141, 2008 View Full Text

Citation Frequency: 388

5. Jianjiang Hu, Yongfeng Liu, Guotao Wu, Zhitao Xiong, Yong Shen Chua and Ping Chen*,

Improvement of Hydrogen Storage Properties of the Li-Mg-N-H system by Addition of LiBH4,

Chemistry of Materials, 20(13):4398-4402, 2008 View Full Text

Citation Frequency: 65

6. Zhitao Xiong, Yong Shen Chua, Guotao Wu, Weiliang Xu, Ping Chen*, Wendy Shaw, Abhi Karkamkar, John Linehan, Tricia Smurthwaite, Thomas Autrey* ,

Interaction of lithium hydride and ammonia borane in THF,

Chem Commun, 45: 5595–5597, 2008 View Full Text

Citation Frequency: 57

7. Jianjiang Hu, Maximilian Fichtner*, Ping Chen,

Investigation on the Properties of the Mixture Consisting of Mg(NH2)2, LiH, and LiBH4as a Hydrogen Storage Material,

Chemistry of Materials, 20(22): 7089-7094, 2008 View Full Text

Citation Frequency: 25

8. S Bhattacharya, Guotao Wu, Ping Chen, YP Feng, GP Das*,

Lithium calcium imide [Li2Ca(NH)2] for hydrogen storage: Structural and thermodynamic properties,

Journal of Physical Chemistry B, 112(36): 11381-11384, 2008 View Full Text

Citation Frequency: 9

9. Ping Chen and Min Zhu,

Recent process in hydrogen storage

Materials today, 11:36-43, 2008 View Full Text

Citation Frequency: 191

10. Zhitao Xiong, Guotao Wu, Yong Shen Chua, Jianjiang Hu, Teng He, Weiliang Xu and Ping Chen*,

Synthesis of sodium amidoborane (NaNH2BH3) for hydrogen production,

Energy & Environmental Science, 1:360-363,2008 View Full Text

Citation Frequency:73

2007

1. Zhitao Xiong, Guotao Wu, Jianjiang Hu, Ping Chen*,

Ca-Na-N-H system for reversible hydrogen storage

Journal of Alloys and Compounds, 441(1-2):152-156, 2007 View Full Text

Citation Frequency: 24

2. Yongfeng Liu, Jianjiang Hu, Zhitao Xiong, Guotao Wu, Ping Chen,

Improvement of the hydrogen-storage performances of Li-Mg-N-H system

Journal of Materials Research, 22(5):1339-1345, 2007 View Full Text

Citation Frequency: 33

3.Yongfeng Liu, Jianjiang Hu, Zhitao Xiong, Guotao Wu, Ping Chen*, Kenji Murata, Ko Sakata,

Investigations on hydrogen desorption from the mixture of Mg(NH2)2and CaH2,

Journal of Alloys and Compounds, 432:298-302, 2007 View Full Text

Citation Frequency: 25

4.Zhitao Xiong, Jianjiang Hu, Guotao Wu, Yongfeng Liu, Ping Chen*,

Large amount of hydrogen desorption and stepwise phase transition in the chemical reaction of NaNH2and LiAlH4,

Catalysis Today, 120:287-291, 2007 View Full Text

Citation Frequency: 24

5. Yongfeng Liu, Jianjiang Hu, Guotao Wu, Zhitao Xiong, Ping Chen*,

Large amount of hydrogen desorption from the mixture of Mg(NH2)2and LiAlH4,

Journal of Physical Chemistry C, 111(51): 19161-19164, 2007 View Full Text

Citation Frequency: 28

6. Ping Chen*, Zhitao Xiong, Gtuotao Wu, Yongfeng Liu, Jianjiang Hu, Weifang Luo,

Metal–N–H systems for the hydrogen storage,

Scripta Materialia, 56:817, 2007 View Full Text

Citation Frequency: 59

7.Zhitao Xiong, Guotao Wu, Jianjiang Hu, Yongfeng Liu, Ping Chen*, Weifang Luo, and James Wang,

Reversible Hydrogen Storage by a Li-Al-N-H Complex,

Advanced Functional Materials, 17:1137-1142, 2007 View Full Text

Citation Frequency: 79

8.Jianjiang Hu, Yongfeng Liu, Guotao Wu, Zhitao Xiong, Ping Chen*

Structural and compositional changes during hydrogenation/dehydrogenation of the Li-Mg-N-H system,

Journal of Physical Chemistry C, 111(49): 18439-18443, 2007 View Full Text

Citation Frequency: 58

9.Guotao Wu, Zhitao Xiong,Tao Liu, Yongfeng Liu, Jianjiang Hu, Ping Chen*, Yuanping Feng, Andrew T. S. Wee,

Synthesis and Characterization of a New Ternary Imide-Li2Ca(NH)2,

Inorganic Chemistry, 46:517-521, 2007 View Full Text

Citation Frequency: 24

2006

1. Jianjiang Hu, Zhitao Xiong, Guotao Wu, Ping Chen*, Kenji Murata, Ko Sakata,

Effects of ball-milling conditions on dehydrogenation of Mg(NH2)2-MgH2

Journal of Power Sources, 159:120-125, 2006

Citation Frequency: 32

2.Yongfeng Liu, Zhitao Xiong, Jianjiang Hu, Guotao Wu, Ping Chen*, Kenji Murata, Ko Sakata,

Hydrogen absorption/desorption behaviors over a quaternary Mg-Ca-Li-N-H system

Journal of Power Sources, 159:135-138, 2006

Citation Frequency: 22

3. Jianjiang Hu, Zhitao Xiong, Guotao Wu, Yongfeng Liu, Ping Chen*,

Hydrogen Release from Mg(NH2)2-MgH2through Mechanochemical Reaction

Journal of Physical Chemistry B, 110(30):14688-14692, 2006 View Full Text

Citation Frequency:76

4. Jianjiang Hu, Zhitao Xiong, Guotao Wu, Ping Chen*, Kenji Murata and Ko Sakata,

Hydrogen releasing reaction between Mg(NH2)2and CaH2

Journal of Power Sources, 159:116-119, 2006

Citation Frequency: 26

5. Zhitao Xiong, Guotao Wu, Jianjiang Hu and Ping Chen*,

Investigation on chemical reaction between LiAlH4and LiNH2

Journal of Power Sources, 159:167-170, 2006

Citation Frequency: 50

6. Zhitao Xiong, Guotao Wu, Jianjiang Hu, Ping Chen*, Weifang Luo, James Wang,

Investigations on hydrogen storage over Li-Mg-N-H complex---the effect of compositional changes

Journal of Alloys and Compounds 417: 190-194, 2006 View Full Text

Citation Frequency: 49

7. Ping Chen*, Zhitao Xiong, Lefu Yang, Guotao Wu, Weifang Luo,

Mechanistic investigations on the heterogeneous solid-state reaction of magnesium amides and lithium hydrides

Journal of Physical Chemistry B, 110(29):14221-14225, 2006 View Full Text

Citation Frequency: 84

8. Ting Yu, Yanwu Zhu, Xiaojing Xu, Kuan-Song Yeong, Zexiang Shen, Ping Chen, Chwee-Teck Lim, John Thiam-Leong Thong, Chorng-Haur Sow*,

Substrate-friendly synthesis of metal oxide nanostructures using a hotplate

Small 2:80-84, 2006 View Full Text

Citation Frequency: 78

9.Yongfeng Liu, Tao Liu, Zhitao Xiong, Jianjiang Hu, Guotao Wu, Ping Chen*, Andrew T. S. Wee, Ping Yang, Kenji Murata, Ko Sakata,

Synthesis and structural characterization of a new alkaline earth imide: MgCa(NH)2

European Journal of Inorganic Chemistry, 21:4368-4373, 2006 View Full Text

Citation Frequency: 15

 

2005

1. Ting Yu, Yanwu Zhu, Xiaojing Xu, Zexiang Shen, Ping Chen, Chwee-Teck Lim, John Thiam-Leong Thong, Chorng-Haur Sow,

Controlled growth and field-emission properties of cobalt oxide nanowalls

Advanced Materials, 17:1595, 2005

Citation Frequency: 181

2. Zhitao Xiong, Jianjiang Hu, Guotao Wu, Ping Chen*,

Hydrogen absorption and desorption in Mg-Na-N-H system

Journal of Alloys and Compounds, 395:209-212, 2005

Citation Frequency: 57

3. Zhitao Xiong, Jianjiang Hu, Guotao Wu, Ping Chen*, Weifang Luo, Karl Gross, James Wang,

Thermodynamic and kinetic investigations of the hydrogen storage in the Li-Mg-N-H system

Journal of Alloys and Compounds 398: 235-239, 2005 View Full Text

Citation Frequency: 168

2004-2002

1.Zhitao Xiong, Guotao Wu, Jianjiang Hu, Ping Chen*,

Ternary Imides for Hydrogen Storage

Advanced Materials, 16:1522-1524, 2004 View Full Text

Citation Frequency: 296

2. Ping Chen*, Jizhong Luo, Zhitao Xiong, Jianyi Lin, Kuang Lee Tan ,

Interaction between lithium amide and lithium hydride

Journal of Physical Chemistry B, 107:10967-10970, 2003

Citation Frequency: 302

3. Zhitao Xiong, Ping Chen*, Jizhong Luo, Jianyi Lin, Kuang Lee Tan ,

Investigations into the interaction between hydrogen and calcium nitride

J Mater Chem, 13(7): 1676-1680, 2003

Citation Frequency: 20

4. Ping Chen*, Zhitao Xiong, Jizhong Luo, Jianyi Lin and Kuang Lee Tan ,

Interaction of hydrogen with metal nitrides and imides

Nature, 420 (6913):302-304,2002 View Full Text

        Citation Frequency: 1082

5. ZY Zhong, Zhitao Xiong, LF Sun, Jizhong Luo, Ping Chen, et al.,

Nanosized nickel(or cobalt)/graphite composites for hydrogen storage

J Phys Chem B, 106 (37): 9507-9513 , 2002

        Citation Frequency: 52

2001 and Before

1.Bin Xue, Ping Chen*, Qi Hong, et al.,

Growth of Pd, Pt, Ag and Au nanoparticles on carbon nanotubes

J Mater Chem, 11(9):2378-2381, 2001

Citation Frequency: 262

2. Ping Chen, Lin J, Kuang Lee Tan ,

Carbon nanotubes: A future material of life

Iubmb Life, 49(2):105-108, 2000

Citation Frequency: 15

3. Ping Chen, Wu X, Lin J*, et al.,

Comparative studies on the structure and electronic properties of carbon nanotubes prepared by the catalytic pyrolysis of CH4and disproportionation of CO

Carbon, 38(1):139-143, 2000

Citation Frequency: 28

4.Ji L, Tang S, Ping Chen, et al.,

Effect of nanostructured supports on catalytic methane decomposition

Pure Appl Chem, 72(1-2):327-331, 2000

5. Wu XB, Ping Chen, Lin J, et al.,

Hydrogen uptake by carbon nanotubes, International Journal of Hydrogen Energy

Int Jour Hydrogen Energ, 25(3):261-265, 2000

Citation Frequency: 104

6. Xuan Sun, Yuenan Xiong, Ping Chen, et al.,

Investigation of an optical limiting mechanism in multiwalled carbon nanotubes

Appl Optics, 39(12):1998-2001, 2000

Citation Frequency: 89

7.Ping Chen, Wu X, Xuan Sun, et al.,

Electronic structure and optical limiting behavior of carbon nanotubes

Phys Rev Lett, 82(12):2548-2551, 1999

Citation Frequency: 297

8. Ping Chen, Wu X, Lin J, et al.,

High H-2 untake by alkali-doped carbon nanotubes under amibent pessure and moderate temperatures

Science, 285(5424):91-93, 1999

Citation Frequency: 904

9.Yu Zhang, HongBin Zhang, GuoDong Lin, Ping Chen, YouZhu Yuan and K.R. Tsai,

Preparation, characterization and catalytic hydroformylation ptoperties of carbon nanotubes-supported Rh-phosphine catalyst

Applied Catalysis A-General, 187(2): 213-224, 1999

Citation Frequency: 120

10. Ping Chen, Wu X, Lin J, et al.,

Systhesis of Cu nanoparticles and microsized fibers by using carbon nanotubes as a template

J Phys Chem B, 103(22): 4559-4561, 1999

Citation Frequency: 82

11. Ping Chen, HongBin Zhang, GuoDong Lin and K.R. Tsai,

Development of coking-resistant Ni-based catalyst for partial oxidation and CO2-reforming of methane to syngas

Appled Catalysis A-General, 166(2): 343-350, 1998

Citation Frequency: 52

12.Ping Chen, HongBin Zhang, GuoDong Lin and K.R. Tsai,

Studies on structure and property of carbon-nanotubes formed catalytically from decompostion of CH4or CO

Chemical Journal of Chinese Universities-Chinese, 19(5): 765-769, 1998

Citation Frequency: 41

13. Ping Chen, HongBin Zhang, GuoDong Lin, Guo ZP and K.R. Tsai,

Coke-resistant Ni-based catalyst for partial oxidation and CO2-reforming of methane to syngas

Chemical Research in Chinese Universities, 13(1): 83-85, 1997

14.Ping Chen, HongBin Zhang, GuoDong Lin, Qi Hong and K.R. Tsai,

Growth of carbon nanotubes by catalytic decomposition of CH4or CO on a Ni-MgO catalyst

Carbon, 35(10-11): 1495-1501, 1997

Citation Frequency: 292

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