1. 2007/08-2010/11  (理学博士) 德国马普高分子所、德国美因茨大学，导师Wolfgang Knoll(院士)
2. 2004/09-2007/06  (生物化工专业硕士) 东南大学，生物电子学国家重点实验室
3. 2000/09-2004/06  (化学工程学士学位)沈阳理工大学  化学化工学院

1.2015/08-至今 中科院大学温州研究院（温州生物材料与工程研究所)，研究员

2.2016/11-至今 温州医科大学，眼视光学院/医院、生物医学工程学院  研究员

• 研究方向：主要研究表面等离子体光学传感器，单分子、单细胞生物成像开发，光电传感器开发，癌症呼吸诊断，可穿戴生物传感器。

3.2011/07-2015/07  (博后和PI)南洋理工大学生物仿生传感科学中心(CBSS, NTU, 新加坡)

• 与NTU的Bo Liedberg在生物传感、光学传感器、柔性材料方面密切合作

4.2009/01-2011/06  (科研人员) 奥地利国家技术研究院 (AIT, 奥地利维也纳)

5.2007/08-2008/12  (科研人员) 德国马普高分子研究所 (德国美因茨)

1. Light: Science & Applications (Nature子刊) 助理编辑
2. Science Research 编辑委员
3. The Scientific World Journal 客座编辑
4. 《光散射学报》编委
5. 2016    温州市龙湾区留联会副会长
6. 2017    温州市科协常委
7. 2018     浙江省光学学会第七届常务理事
8. 2018    温州市高层次人才联谊会理事
9. 2019    中国生物材料学会第三届理事会理事

1. 2018    浙江省杰出青年科学基金
2. 2018    浙江省“千名好支书”
3. 2017    浙江省领军型创新创业团队
4. 2017    浙江省“千人计划”
5. 2017    浙江省高校中青年学科带头人培养计划
6. 2017    科学中国人2016年度人物
7. 2017    温州市领军人才项目
8. 2016    温州市551人才第三层次
9. 2013    新加坡SPR论坛三等奖
10. 2011    新加坡南洋创新3等奖
11. 2007     马克斯·普朗克科学促进学会奖学金

(总引用2164次（google），H-index=28)

1. Liu, Q.Zhang, W. Knoll*, B. Liedberg*, Y. Wang*, Rational Design of Functional Peptide-Gold Hybrid Nanomaterials for Molecular Interactions. Advanced Materials. 2020. 2000866.
2. Jiang, Q. Zhang, C. Xu, Y. Ge, L. Huang, X. Ren, Y. Wang,* Facile preparation of a hollow core-shell nanocomposite for the ultrasensitive sensing of glucose, Sensors and Actuators B: Chemical, 2020, 320, 128500.
3. Zhang, D. Jiang, C. Xu, Y. Ge, X. Liu, Q. Wei, L. Huang, X. Ren, C. Wang,* Y. Wang,* Wearable electrochemical biosensor based on molecularly imprinted Ag nanowires for noninvasive monitoring lactate in human sweat, Sensors and Actuators B: Chemical, 2020, 320, 128325.
4. Q Qian, Y Wang, M Zhang, L Chen, J Feng, Y Wang*, Y Zhou*, Ultrasensitive paper-based polyaniline/graphene composite strain sensor for sign language expression, Composites Science and Technology, 2019, 181, 107660.
5. HT Zheng, HL Bui, S Chakroborty, Y Wang*, CJ Huang*, PEGylated metal-phenolic networks for antimicrobial and antifouling properties, Langmuir, 2019, 35, 8829-8839.
6. Zhao R., Fu G., Chen Z., Tang Y., Wang Y.*, Huang S.* A novel strategy for the synthesis of hollow Pt–Cu tetradecahedrons as an efficient electrocatalyst toward methanol oxidation, CrystEngComm, 2019, 21, 1903-1909.
7. Y Su, S Yuan, D Ning, Q Zhang, W Han, Y Wang*, The template‐free synthesis of CuO@ CeO2 nanospheres: facile strategy, structure optimization, and enhanced catalytic activity toward CO oxidation, European Journal of Inorganic Chemistry, 2018, 2927-2934.
8. Chen, X. Liu, N.T. Tran, JCS. Ho, Y. Wang, D. Aili, B. Liedberg, Nanoplasmonic Sensing from the Human Vision Perspective, Analytical Chemistry, 2018, 90, 7, 4916-4924 (JCR一区, IF: 6.32).
9. Zhang J, Khan I, Zhang Q, Liu X, Dostalek J, Liedberg B, Wang Y,* Lipopolysaccharides detection on a grating-coupled surface plasmon resonance smartphone biosensor Biosensors and Bioelectronics 2018, 99, 312-317. （一区，IF:7.78）
10. Z Xie, Z Cao, Y Liu, Q Zhang, J Zou, L Shao, Y Wang*, J He, M Li*, Highly-sensitive optical biosensor based on equal FSR cascaded microring resonator with intensity interrogation for detection of progesterone molecules Optics Express 2017, 25 (26), 33193-33201.（二区，IF:3.307）
11. Zhang Q., Wu L., Wong T.I., Zhang J., Liu X., Zhou X., Bai P., Liedberg B., Wang Y.,* Surface plasmon-enhanced fluorescence on Au nanohole array for prostate-specific antigen detection, International Journal of Nanomedicine, 2017, 12, 2307-2314. (JCR一区, IF:4.320) (1 Cite).
12. Zhao, Z. Liu, M. Gong, Q. Zhang, X. Shi, Y. Hu, W. Qi, Y. Tang, Y. Wang,* Ethylenediamine-tetramethylene phosphonic acid assisted synthesis of palladium nanocubes and their electrocatalytic application for formic acid oxidation. Journal of Solid State Electrochemistry 21:1297–1303 (2017). (JCR二区, IF:2.327) (0 Cites).
13. Q Yao, Z Ye, L Sun, Y Jin, Q Xu, M Yang, Y Wang, Y Zhou, J Ji, H Chen, Bacterial infection microenvironment-responsive enzymatically degradable multilayer films for multifunctional antibacterial properties, Journal of Materials Chemistry B 2017, 5 (43), 8532-8541.
14. MB Haddada, D Hu, M Salmain, L Zhang, C Peng, Y Wang, B Liedberg, Gold nanoparticle-based localized surface plasmon immunosensor for staphylococcal enterotoxin A (SEA) detection, Analytical and Bioanalytical Chemistry, 2017, 1-8.
15. NT Tran, A Li, P Chen, Y Wang, S Li, B Liedberg, Gold mesoflowers with a high density of multilevel long sharp tips: synthesis and characterization, Journal of Materials Chemistry C 2017, 5 (20), 4884-4891.
16. -T. Yang, L. Wu, X.H. Liu, N.T. Tran, P. Bai, B. Liedberg, Y. Wang,* B. Thierry,* Exploiting surface plasmon enhanced light scattering for the design of ultrasensitive biosensing modality. Analytical Chemistry 88 (23), 11924–11930 (2016) (JCR一区, IF:6.32).
17. H. Liu,# Y. Wang,# P. Chen, A. McCadden, A. Palaniappan, J. Zhang, B. Liedberg, Peptide functionalized gold nanoparticles with optimized particle size and concentration for colorimetric assay development – detection of cardiac troponin I. ACS Sensors 1 (12), 1416-1422 (2016).
18. Wang,* L. Wu, T.I. Wong, M. Bauch, Q. Zhang, J. Zhang, X. Liu, X. Zhou, P. Bai, J. Dostalek, B. Liedberg, Directional fluorescence emission co-enhanced by localized and propagating surface plasmons for biosensing. Nanoscale 8: 8008-8016 (2016). (JCR一区, IF:7.760) (1 Cite).
19. Wang, X. Liu, P. Chen, N.T. Tran, J. Zhang, W.S. Chia, S. Boujday, B. Liedberg,* Smartphone spectrometer for colorimetric biosensing. Analyst 141: 3233-3238 (2016) (JCR二区, IF:4.033) (24 Cites).
20. Wang, J.-Y. Huang, H.-Q. Li, Z. Chen, A.Z.-J. Zhao, Y. Wang, K.-Q. Zhang, H.-T. Sun, S.S. Al-Deyab, Y.-K. Lai, TiO2 nanotube platforms for smart drug delivery: a review. International Journal of Nanomedicine 11: 4819 (2016). (JCR一区, IF:4.320) (0 Cites).
21. Su, L. Dai, Q. Zhang, Y. Li, J. Peng, R.a. Wu, W. Han, Z. Tang, Y. Wang,* Fabrication of Cu-Doped CeO2 Catalysts with Different Dimension Pore Structures for CO Catalytic Oxidation. Catalysis Surveys from Asia 20: 231-240 (2016). (JCR三区, IF:2.038) (0 Cites).
22. Wang, Q. Xu, Z. Ye, H. Liu, Q. Lin, K. Nan, Y. Li, Y. Wang, L. Qi, H. Chen, Copolymer Brushes with Temperature-triggered, Reversibly Switchable Bactericidal and Antifouling Properties for Biomaterial Surfaces. ACS Applied Materials & Interfaces 8: 27207-27217 (2016). (JCR一区, IF:7.145) (0 Cites).
23. Wang, J. Huang, H. Li, A. Zhao, Y. Wang, K.-Q. Zhang, H.-T. Sun, Y. Lai, Recent advances on smart TiO2 nanotube platforms for sustainable drug delivery applications. International Journal of Nanomedicine (2016). (JCR一区, IF:4.320) (0 Cites).
24. Patra, T. Ding, G. Engudar, Y. Wang, M.M. Dykas, B. Liedberg, J.C.Y. Kah, T. Venkatesan, C.L. Drum, Component‐Specific Analysis of Plasma Protein Corona Formation on Gold Nanoparticles Using Multiplexed Surface Plasmon Resonance. Small 12: 1174-1182 (2016). (JCR一区, IF:8.315) (19 Cites).
25. Chen, J. Huang, P. Alagappan, Y. Wang, B. Liedberg, M. Platt, A.I.Y. TOK, A review on electronic bio-sensing approaches based on non-antibody recognition elements. Analyst 141, 2335-2346 (2016). (JCR二区, IF:4.033) (3 Cites).
26. Chen, T.K. Choo, J. Huang, Y. Wang, Y. Liu, M. Platt, A. Palaniappan, B. Liedberg, A.I.Y. Tok, Label-free electronic detection of interleukin-6 using horizontally aligned carbon nanotubes. Materials & Design 90: 852-857 (2016). (JCR二区, IF:3.996) (6 Cites).
27. Zhang,# Y. Wang,# T.I. Wong, X. Liu, X. Zhou, B. Liedberg, Electrofocusing-enhanced localized surface plasmon resonance biosensors. Nanoscale 7: 17244-17248 (2015). (JCR一区, IF:7.760) (14 Cites).
28. Y. Song, T.I. Wong, A. Sadovoy, L. Wu, P. Bai, J. Deng, S. Guo, Y. Wang, W. Knoll, X. Zhou, Imprinted gold 2D nanoarray for highly sensitive and convenient PSA detection via plasmon excited quantum dots. Lab on a Chip 15: 253-263 (2015). (JCR一区, IF:5.586) (12 Cites).
29. Palaniappan, J.A. Cheema, D. Rajwar, G. Ammanath, X.Liu, L.S. Koon, Y. Wang, U.H. Yildiz, B. Liedberg, Polythiophene derivative on quartz resonators for miRNA capture and assay. Analyst 140: 7912-7917 (2015). (JCR二区, IF:4.033) (2 Cites).
30. He, L. Zhou, Y. Wang,* C. Li, J. Yao, W. Zhang, Q. Zhang, M. Li, H. Li, W.-f. Dong, Detection of trace microcystin-LR on a 20MHz QCM sensor coated with in situ self-assembled MIPs. Talanta 131: 8-13 (2015). (JCR二区, IF:4.035) (10 Cites).
31. Chen, S.K. Lim, P. Chen, J. Huang, Y. Wang, A. Palaniappan, M. Platt, B. Liedberg, A.I.Y. Tok, Reporter-encapsulated liposomes on graphene field effect transistors for signal enhanced detection of physiological enzymes. Physical Chemistry Chemical Physics 17: 3451-3456 (2015). (JCR二区, IF:4.449) (7 Cites).
32. Zhou, T.I. Wong, H.Y. Song, L. Wu, Y. Wang, P. Bai, D.-H. Kim, S.H. Ng, M.S. Tse, W. Knoll, Development of Localized Surface Plasmon Resonance-Based Point-of-Care System. Plasmonics 9: 835-844 (2014). (JCR二区, IF:2.146) (3 Cites).
33. Zhang, L. Jing, J. Zhang, Y. Ren, Y. Wang, Y. Wang,* T. Wei, B. Liedberg, Surface plasmon resonance sensor for femtomolar detection of testosterone with water-compatible macroporous molecularly imprinted film. Analytical Biochemistry 463: 7-14 (2014). (JCR三区, IF:2.243) (27 Cites).
34. Wang, X. Liu, J. Zhang, D. Aili, B. Liedberg, Time-resolved botulinum neurotoxin A activity monitored using peptide-functionalized Au nanoparticle energy transfer sensors. Chemical Science 5: 2651-2656 (2014). (JCR一区, IF:9.144) (13 Cites).
35. Niu, L.T. Su, R. Chen, H. Chen, Y. Wang, A. Palaniappan, H. Sun, A.I.Y. Tok, 3-Dimensional photonic crystal surface enhanced upconversion emission for improved near-infrared photoresponse. Nanoscale 6: 817-824 (2014). (JCR一区, IF:7.760) (22 Cites).
36. Liu, Y. Wang, P. Chen, Y. Wang, J. Zhang, D. Aili, B. Liedberg, Biofunctionalized Gold Nanoparticles for Colorimetric Sensing of Botulinum Neurotoxin A Light Chain. Analytical Chemistry 86: 2345-2352 (2014). (JCR一区, IF: 6.32). (27 Cites)
37. Zhang, Y. Wang,* A. Mateescu, K. Sergelen, A. Kibrom, U. Jonas, T. Wei, J. Dostalek, Biosensor based on hydrogel optical waveguide spectroscopy for the detection of 17β-estradiol. Talanta 104: 149-154 (2013). (JCR二区, IF:4.035) (28 Cites).
38. I. Wong, S. Han, L. Wu, Y. Wang, J. Deng, C.Y.L. Tan, P. Bai, Y.C. Loke, X. Da Yang, M.S. Tse, High throughput and high yield nanofabrication of precisely designed gold nanohole arrays for fluorescence enhanced detection of biomarkers. Lab on a Chip 13: 2405-2413 (2013). (JCR一区, IF:5.586) (19 Cites).
39. Wang,* L. Wu, X. Zhou, T.I. Wong, J. Zhang, P. Bai, E.P. Li, B. Liedberg, Incident-angle dependence of fluorescence enhancement and biomarker immunoassay on gold nanohole array. Sensors and Actuators B: Chemical 186: 205-211 (2013). (JCR一区, IF:5.41) (14 Cites).
40. Wang, W. Knoll, J. Dostalek, Bacterial pathogen surface plasmon resonance biosensor advanced by long range surface plasmons and magnetic nanoparticle assays. Analytical Chemistry 84: 8345-8350 (2012). (JCR一区, IF: 6.32). (86 Cites)
41. Mateescu, Y. Wang, J. Dostalek, U. Jonas, Thin hydrogel films for optical biosensor applications. Membranes 2: 40-69 (2012). (87 Cites)
42. Wang, J. Dostalek, W. Knoll, Magnetic nanoparticle-enhanced biosensor based on grating-coupled surface plasmon resonance. Analytical Chemistry 83: 6202-6207 (2011). (JCR一区, IF: 6.32). (98 Cites)
43. Wang, J. Dostalek *, W. Knoll, Long Range Surface Plasmon Resonance Bacterial Pathogen Biosensors with Magnetic Nanoparticles. Biophotonics, 2011.
44. Wang, C.-J. Huang, U. Jonas, T. Wei, J. Dostalek, W. Knoll, Biosensor based on hydrogel optical waveguide spectroscopy. Biosensors and Bioelectronics 25: 1663-1668 (2010). (JCR一区, IF:7.476). (56 Cites)
45. -K. Sinner, S. Ritz, Y. Wang, J. Dostálek, U. Jonas, W. Knoll, Molecularly controlled functional architectures. Materials Today 13: 46-55 (2010). (JCR一区, IF:17.793). (21 Cites)
46. Wang, J. Dostalek *, W. Knoll, Magnetic Nanoparticle-enhanced Surface Plasmon Resonance Biosensor. Proc. Eurosensors XXIV, 2010.
47. Wang, J. Dostálek, W. Knoll, Long range surface plasmon-enhanced fluorescence spectroscopy for the detection of aflatoxin M 1 in milk. Biosensors and Bioelectronics 24: 2264-2267 (2009). (JCR一区, IF:7.476). (72 Cites)
48. Wang, A. Brunsen, U. Jonas, J. Dostalek, W. Knoll, Prostate specific antigen biosensor based on long range surface plasmon-enhanced fluorescence spectroscopy and dextran hydrogel binding matrix. Analytical Chemistry 81: 9625-9632 (2009). (JCR一区, IF: 6.32). (95 Cites)
49. Wang, W. Qian, Y. Tan, S. Ding, A label-free biosensor based on gold nanoshell monolayers for monitoring biomolecular interactions in diluted whole blood. Biosensors and Bioelectronics 23: 1166-1170 (2008). (JCR一区, IF:7.476). (103 Cites)
50. Knoll, A. Kasry, F. Yu, Y. Wang, A. Brunsen, J. DostALek, New concepts with surface plasmons and nano-biointerfaces. Journal of Nonlinear Optical Physics & Materials 17: 121-129 (2008). (JCR四区, IF:0.616). (11 Cites)
51. Wang, W. Qian, Y. Tan, S. Ding, H. Zhang, Direct electrochemistry and electroanalysis of hemoglobin adsorbed in self-assembled films of gold nanoshells. Talanta 72: 1134-1140 (2007). (JCR二区, IF:4.035) (74 Cites).
52. Jing, Y. Tan, Y. Wang, S. Ding, W. Qian, Interfacial Construction of Gold Nanoshells on 3-Aminopropyl Triethoxysilane Modified ITO Electrode Surface for Studying Cytochrome b562 Electrochemistry. Journal of Nanoscience and Nanotechnology 7: 440-446 (2007). (JCR三区, IF:1.338)
53. Wang, Y. Tan, S. Ding, L. Li, W. Qian, Fabrication and Characterization of Multishell Structures Based on Au and SiO~ 2. Acata Chimica Sinica-Chinese Edition 64: 2291 (2006). (JCR四区, IF:1.843)
54. Tan, W. Qian, S. Ding, Y. Wang, Gold-nanoparticle-infiltrated polystyrene inverse opals: A three-dimensional platform for generating combined optical properties. Chemistry of Materials 18: 3385-3389 (2006). (JCR一区, IF:9.407)
55. Tan, S. Ding, Y. Wang, A. Jing, W. Qian, Regenerating optical properties of individual gold nanoparticles in alcoholic solvents without any surfactant. Journal of Nanoscience and Nanotechnology 6: 262-264 (2006). (JCR三区, IF:1.338)
56. Ding, W. Qian, Y. Tan, Y. Wang, In-situ incorporation of gold nanoparticles of desired sizes into three-dimensional macroporous matrixes. Langmuir 22: 7105-7108 (2006). (JCR二区, IF:3.993)
57. Tan, S.H. Ding, Y. Wang, W.P. Qian,* Fabrication of Gold Nanoshells and Their Potential Applications to Biology. Acta Chimica Sinica 2005, 63: 929-933. (JCR三区, IF:1.338)

1. Wang Y., Huang CJ., Dostalek J., Evanescent Wave Biosensors with Hydrogel Binding Matrix, in Handbook of Biofunctional Surfaces. Pan Stanford. 2013.05, ISBN-10:9814316636
2. Wang Y., Surface Plasmon and Hydrogel Optical Waveguide: New Biosensor Applications of Surface Plasmon and Hydrogel Optical. LAP LAMBERT Academic Publishing. 2012.04, ISBN-10: 3848496755.
3. Wang Y., Surface-wave Enhanced Biosensing, in Book “Introduction to Plasmonics”, Pan Stanford. 2015.03, ISBN: 978-981-4613-12-5.

1. Wang Yi; Surface plasmon biosensors and devices, 2018国际青年学者论坛暨“瓯越医学与健康”论坛, 温州, 2018-8-16至2018-8-18.
2. Wang Yi; 金纳米颗粒增强的表面等离子生物检测和成像, 第十四届全国化学传感器学术会议, 山西大同, 2019-8-15至2019-8-18. （邀请报告）
3. Wang Yi; 比色传感和智能手机生物传感器, 神仙居•医疗健康产业发展高峰论坛–生物医学传感前沿论坛,浙江仙居, 2019-8-23至2019-8-25.
4. Chen Jinjian; Zhang Qingwen; Wang Yi; Surface plasmon enhanced fluorescence and scattering biosensors,表面增强拉曼光谱国际会议, 厦门, 2017-12-5至2017-12-9.
5. Wang Yi; 金纳米颗粒增强的表面等离子生物检测和成像, 第十二届全国微全分析系统学术会议、第七届全国微纳尺度生物分离分析学术会议、第七届国际微流控学学术论坛, 陕西杨凌, 2019-5-18至2019-5-20.
6. 2017国际表面增强拉曼会议，厦门12（口头报告）
7. 2017第三届“瓯越医学与健康”国际青年论坛，温州04  （会议组织和主持）
8. 千人专家论坛，温州01  （会议组织和主持）
9. 王毅，张庆文，Surface plasmon enhanced biosensors, 2016 先进材料研究国际研讨会ISAMR，昆明10.13-16 （特邀报告）
10. 王毅，张庆文，2016中国-新加坡生物材料与转化医学论坛暨“瓯越医学与健康”国际青年论坛，温州07 （特邀报告、会议组织和主持）
11. 王毅，表面等离子体增强生物传感器的研究，中国化学年会，大连07.01-04（分会场主持）
12. 温州第一届体外诊断学术研讨会，温州01（会议组织和主持）
13. Wang Y., Surface plasmon label-free and fluorescence biosensors. Analytix, Dalian (China), 2014 (Talk)
14. Wang Y., Surface plasmon enhanced fluorescence and nanoparticles enhanced surface plasmon biosensor. Light Conference, Changchun (China), 2013 (talk)
15. Wang Y., Dostalek J., Knoll W., Grating-coupled SPR for magnetic nanoparticle immunoassay. ACS, Boston, August 22-26^th (Poster)
16. Wang Y., Dostalek J., Knoll W., Immunosensor based on long range-surface Plasmon enhanced fluorescence spectroscopy. MPIP-IMTEK-JÜLICH, Ebernburg, May 5-7^th (Talk)
17. Wang Y., Dostalek J., Knoll W., Novel biosensors based on long range-surface Plasmon enhanced fluorescence spectroscopy. IMPRS School “Polymer Synthesis”, Kloster Kirchberg, April 2-8^th (Talk)
18. Wang Y., Dostalek J., Knoll W., Immunosensor based on long range-surface Plasmon enhanced fluorescence spectroscopy for the detection of aflatoxin M₁ in milk. MPIP Conference, Naurod, April 24-28^th (Poster)
19. Dostalek J., Wang Y., Huang C.J., Chulia-Jordan R., Aulasevich A., Roskamp R., Brunsen A., Knoll W., Advanced biosensing based on surface plasmon-enhanced fluorescence spectroscopy, Nanosens, Vienna, September 29-30th 2008, Book of abstracts pp. XX.
20. Dostalek J., Wang Y., Brunsen A., Roskamp R., Knoll W., Biosensor based on long range surface plasmon-enhanced fluorescence spectroscopy, Europtrode IX, Dublin, March 30th 2008, Book of abstracts pp. 66.
21. Wang Y., Tan Y., Ding S.H., Zhu Y.M., Qian W.P., Self-assembly and Characterization of Gold/silica Nanocomposites Monolayer on Silanized Glass Plates. The third International Forum on Post-Genome Technologies（3’IFPT）, Guilin, April 25-26, 2005, 167-168.
22. Wang Y., Tan Y., Ding S.H., Jing A.H., Qian W.P., Fabrication of gold nanoshells- modified ITO electrodes and the study on its electrochemical properties. The 9^th National Conference on Electroanalytic Chemistry, Nanjing, 2005, 314-315.

1. 钱卫平，王毅，刘亮亮，董健，一种酶类活性的传感分析方法，专利申请号：CN2
2. 钱卫平，刘亮亮，王毅，董健，一种底物浓度的传感分析方法，专利申请号：CN7
3. 王毅，胡永奇，张庆文，一种基于表面等离子体共振的光学显微镜，专利号：3（授权）2019.05.07
4. 王毅，张庆文，基于智能手机的便携式表面等离子体共振生化检测装置、及其便携式手机配件和应用，专利申请号：7
5. 王毅，张庆文，基于表面等离子体共振的手机生化成像装置，专利申请号：9
6. 王毅，张学铭，张新娟，陈进剑，张庆文，赵若鹏，一种检测多巴胺的Au纳米颗粒的制备方法，专利申请号：1
7. 王毅，胡永奇，张庆文，一种高分辨生物检测成像方法，专利申请号：7（公司）
8. 赵若鹏，王毅，张庆文，胡永奇，戚伟业，一种Pt纳米晶负载的3D石墨烯及其制备方法，专利申请号：6
9. 张庆文，王毅，一种可穿戴的乳酸检测装置及其制备方法，专利申请号：9
10. 王毅，张庆文，一种可穿戴的乳酸检测，（实用新型）专利申请号：0
11. 王毅，黄礼平，张庆文，一种用于气体检测的表面增强拉曼散射基底材料及其制备方法，1。
12. 王毅，张庆文，一种纳米等离子体光谱技术，9.（公司）
13. 王毅，姜丹锋，张庆文，核壳中空Cu(OH)2@Au@Co(OH)2复合材料、制备方法及应用，8。（中科院大学温州研究院）
14. 王毅，徐长顺，张庆文，刘啸虎，一种柔性可拉伸的透明覆铜板及其制备方法，1。（温州医科大学）
15. 刘啸虎，王毅，张庆文，李阳，解瑞峰，一种用于检测致病性病毒及其相关蛋白和预判新型未知病毒的方法，专利申请号：7
16. 王毅，黄礼平，张庆文，用于呼吸道病毒检测的拉曼基底及其制备方法与应用，专利申请号：8,申请日期：2020.07.17

（可支配项目经费1218万）

1. 国家重点研发计划项目（课题），2017YFC0111300，高分辨人工视网膜，140万，2017/02-2020/12，主持。
2. 国家卫计委科研基金重大项目，400万，2017/01-2019/12，第三。
3. 国家自然科学基金青年基金，21605116, 纳米材料增强等离子体共振用于智能手机生物传感器的研究，20万，2017/01-2019/12，主持。
4. 浙江省“千人计划”专项，ZJQRWZ20191001，基于等离子体和拉曼技术的先进光学生物传感器的开发和应用，105万，2019/1-2021/2，主持。
5. 浙江省杰出青年科学基金，LR19H180001，基于表面等离子体的高灵敏高分辨生物分析和成像技术的开发应用研究，80万，2019/1-2021/12，主持。
6. 浙江省公益技术应用研究计划项目，2017C33193, 基于表面增强拉曼技术实现非侵入型呼吸式癌症诊断和筛选的研究，30万，2017/01-2019/12，主持。
7. 温州医科大学启动项目，89219031，智能生物传感器的开发，400万。
8. 温州生物材料与工程研究所重大科研启动项目，WIBEZD2014004-02，智能生物传感器的研究开发，300万，2015/08-2020/07, 主持。
9. 温州市领军型人才创新创业项目，RX2016005,基于表面等离子体共振和增强拉曼技术的先进生物光学显微设备的开发，20万，2017/01-2019/12，主持。
10. 温州市公益性科技计划项目，Y20160065, 纳米材料增强等离子体共振用于智能手机生物传感器的研究, 3万，2017/01-2018/12, 主持。
11. 温州市龙湾区科技发展计划项目，2016YG15，基于表面等离子体共振和增强拉曼技术的生物光学显微设备的开发，100万，2017/01-2019/12，主持。
12. 新加坡MOE项目，RG102/14, Multi-Parametric Interrogation for Diagnostic Applications, 2014/11-2016/10，20万新币，已结题，参与。
13. 奥地利研究促进会，P244920-N20,Active Plasmonics with Responsive Hydrogels, 2013/02-2016/01，45万欧元，已结题，参与。
14. 新加坡A-star项目，102 152 0014，Development of Highly Sensitive Localized Surface Plasmon Resonance Technology Platform for Point-Of-Care Clinical Screening and Medical Diagnostics, 140万新币，2010/05-2013/10， 已结题，参与。
15. 新加坡A-star项目，102 152 0015，Integrated Plasmonic Nanostructures for Biomimetic Sensing, 57万新币，2010/05-2013/10，已结题，参与。
16. 欧盟第六框架计划，FP6-2005-FOOD-036300，Integrated System for a Reliable Traceability of Food Supply Chains, 2007/01-2010/12, 200万欧元，已结题，参与。
17. 德国研究基金会，KN224/18-1，Functionalized Hydrogel for the Multi-analyte Biosensors, 2006/01-2008/12, 13万欧元，已结题，参与。