研究领域和兴趣包括油气地球物理储层参数反演，各向异性岩石物理、地震信号处理及页岩气等。

作为项目主研人员，先后参与了国家油气重大专项子课题，国家自然科学基金项目，中石油、中石化科技攻关项目等多个项目的研究。在“Journal of Geophysics and Engineering”、“Applied Geophysics”、“石油物探”、“石油地球物理勘探”等SCI及EI期刊上发表论文7篇。所发表论文曾获得2013年中国石油物探年会优秀论文奖及2013年“Journal of Geophysics and Engineering”亮点论文等。
代表性著作：
1. Yaojun Wang, Shuangquan Chen, Lei Wang and Xiangyang Li, 2013, Modeling and analysis of seismic wave dispersion based on the rock physics model, Journal of geophysics and engineering, 10(5), SCI （2013年度亮点论文）
2. Yaojun Wang, Shuangquan Chen and Xiangyang Li, 2015, Anisotropic characteristics of mesoscale fractures and applications to wide azimuth 3D P-wave seismic data. Journal of geophysics and engineering. 10(6),SCI
3. 王峣钧,李向阳. 利用衰减各向异性预测中等尺度裂缝研究[J]. 石油地球物理勘探, 2013，337-340. EI
4. 王峣钧, 陈双全, 王磊, 李向阳，邓彩凤. 基于斑块饱和模型利用地震波频散特征分析含气饱和度[J]. 石油地球物理勘探, 2014(04):715-722.EI
5. 王峣钧, 郑多明, 李向阳, 崔永福，杨鹏飞，万效国，孙绍寒. 碳酸盐岩裂缝孔洞型储层缝洞体系预测方法及应用[J]. 石油物探, 2014(06):727-736. EI
6. 马彦彦, 李国发, 王峣钧*, 周辉, 张保江. F-X域复数经验模态分解去噪方法[J]. 应用地球物理, 2015, 12(1):47-57. SCI
7. Yaojun Wang, Shuangquan Chen, Lei Wang and Xiangyang Li. 2013. Modeling and analysis of seismic wave dispersion based on rock physics models. 83st Annual Meeting, SEG, Technical Program Expanded Abstracts, pp. 1565-1569.
8. Yaojun Wang, Xiaoming Li, Keran Qian and Xiangyang Li. 2013. P-wave anisotropic attenuation attribute: A potential tool to predict meso-scale fractures. 83st Annual Meeting, SEG, Technical Program Expanded Abstracts, pp. 330-334.
9. Yaojun Wang, Shuangquan Chen and Xiangyang Li, 2014, The Anisotropic Characteristics of Mesoscale Fractures and Applications in Wide Azimuth 3D P-wave Seismic Data, The 76th EAGE Conference&Exhibition Extended Abstract. EI
10. Yaojun Wang, Shuangquan Chen and Xiangyang Li, 2015, A New Pre-stack Q Inversion Method Based on Centroid Frequency, The 77th EAGE Conference&Exhibition Extended Abstract. EI
11. Yaojun Wang, Shuangquan Chen and Xiangyang Li, 2015, A New Dispersion Inversion with Spectral Inversion Based on Poststack Seismic Data, The 77th EAGE Conference&Exhibition Extended Abstract. EI