207 
Zimmerling, A., Zhou, Y., and Chen, X.B. (2021). Bioprinted Constructs for Respiratory Tissue Engineering. Bioprinting (in press) (CiteScore: 6.9) 
206 
Duan, X.M., Li, N.T., Zhu, N., and Chen. X.B.^{ } (2021).Visualization and Characterization of Tissue Scaffolds Using Synchrotron RadiationBased Microcomputed Tomography Imaging. Tissue Engineering, Part C (IF: 3.056) 
205 
Baheri Islami, S., Wesolowski, M., Revell,W., Chen, X.B. (2021). Virtual Reality Visualization of CFD Simulated Blood Flow in Cerebral Aneurysms Treated with Flow Diverter Stents. Applied Science, 11, 8082. https://www.mdpi.com/20763417/11/17/8082. 
204 
Delkash, Y., Gouin, M., Rimbeault, T., Mohabatpour, F., Papagerakis, P., Maw, S. and Chen, X.B. (2021). Bioprinting and In Vitro Characterization of an EggwhiteBased CellLaden Patch for Endothelialized Tissue Engineering Applications, Journal of Functional Biomaterials,12, 45. https://www.mdpi.com/20794983/12/3/45 (CiteScore: 7.3) 
203 
Bakhtiari, S.S.E., BakhsheshiRad, H.R., Karbasi, S., Razzaghi, M., Tavakoli, M., Ismail, A.F., Sharif, S., RamaKrishna, S., Chen, X.B. Berto. F.^{ }(in press). 3Dimensional Printing of Hydrogelsbased Nanocomposites: A Comprehensive Review on the Technology Description, Properties, and Applications, Advanced Engineering Materials (IF: 3.862) 
202 
Ning, L.Q., Zhu, N., Smith, A., Rajaram, A., Hou, H.S., Srinivasan, S., Mohabatpour, F., He, L.H., Mclnnes, A., Serpooshan, V., Papagerakis, P., and Chen, X.B. (2021). NonInvasive ThreeDimensional in situ and in vivo Characterization of Bioprinted Hydrogel Scaffolds Using Xray Propagation Based Imaging Technique, ACS Applied Materials & Interfaces, 13, 22, 25611–25623, https://doi.org/10.1021/acsami.1c02297 (IF: 8.758) 
201 
Chen, X.B., and Zimmerling A. (2021). Bioink for Bioprinting  Feature Article, The Canadian Society for Mechanical Engineering (CSME) Bulletin, 1314, Spring. http://csmescgm.ca/sites/default/files/BULLETINSPRING2021.pdf 
200 
Fu, Z.Q., Naghieh, S. Xu, C.C., Wang, C.J., and Sun, W., and Chen, X.B. (in press). Printability in Extrusion Bioprinting, Biofabrication , 13(3): 033001 https://iopscience.iop.org/article/10.1088/17585090/abe7ab (IF: 8.213 / Citescore: 14) 
199  Zimmerling A. and Chen, X.B. (in press). Innovation and Possible Longterm Impact Driven by COVID19: Manufacturing, Personal Protective Equipment and Digital Technologies. Technology in Society, 65, 101541, https://doi.org/10.1016/j.techsoc.2021.101541 (IF: 2.414) 
198  Naghieh, S. and Chen, X.B. (in press), Printability – a Key Issue in Extrusionbased Bioprinting, Journal of Pharmaceutical Analysis, https://doi.org/10.1016/j.jpha.2021.02.001 (IF: 2.673) 
197  Cham, T., Chen, X.B., and Honaramooz, A. (in press), Current Progress, Challenges, and Future Prospects of ScaffoldBased Testis Organoids, Biology of Reproduction, 104(5), 942–961, https://academic.oup.com/biolreprod/article/104/5/942/6129866 (IF: 3.322) 
196  Zimmerling A., Yazdanpanah, Z., Cooper, D., Johnston, J., and Chen, X.B. (in press), 3D Printing PCL/nHA Bone Scaffolds: Exploring the Influence of Material Synthesis Techniques, Biomaterials Research, 25, 3, https://doi.org/10.1186/s4082402100204y (SiteScope: 7.8) 
195 
Li. Z.T., Chen, Z.B., Chen, X.B. and Zhao, R.C. (in press), Effect of Unit Configurations and Parameters on the Properties of Ti6Al4V Unitstacked Scaffolds: a Tradeoff Between Mechanical and Permeable Performance, Journal of the Mechanical Behavior of Biomedical Materials, 116, 104332, https://doi.org/10.1016/j.jmbbm.2021.104332 (SiteScope: 6.6) 
194 
Hajari, M.A., Islam, S.B., Chen, X.B. (in press), Numerical Study on TumoronChip Performance and its Optimization for Nanodrugbased Combination Therapy, Biomechanics and Modeling in Mechanobiology, 20, 9831002, 10.1007/s10237021014268 (IF: 2.527)

193 
Ehsani, A., Asefnejad, A., Sadeghianmaryan, A., Rajabinejad, H., and Chen, X.B. (inprese), Fabrication of Wound Dressing Cotton NanoComposite Coated with Tragacanth/Polyvinyl Alcohol: Characterization and In Vitro Studies, ECS Journal of Solid State Science and Technology, 10, 013002, 10.1149/21628777/abdc4c (IF: 2.142) 
192 
Liu, M. and Chen, X. B. (in press). COVID19 Basics and Vaccine Development with a Canadian Perspective. Canadian Journal of Microbiology, 67(2):112118. doi: 10.1139/cjm20200421 (IF: 1.793) 
191 
Zimmerling A. and Chen, X. B. (i2020). Bioprinting for Combating Infectious Diseases. Bioprinting, 20, e00104. https://doi.org/10.1016/j.bprint.2020.e00104 (CiteScore: 5.9) 
190 
He, L.H. and Chen, X. B. (2020). Cardiomyocyte Induction and Regeneration for Myocardial Infarction Treatment: Cell Sources and Administration Strategies. Advanced Healthcare Materials, 9(22): 2001175. https://doi.org/10.1002/adhm.202001175 (IF: 7.357). 
189 
Sadeghianmaryan, A., Naghieh, S., Sardroud, H.A., Yazdanpanah, Z. Soltani, Y.A., Sernagli, J., and Chen, X.B. (2020). Extrusionbased printing of chitosan scaffolds and their in vitro characterization for cartilage tissue engineering. International Journal of Biological Macromolecules, 164(1): 31793192 https://doi.org/10.1016/j.ijbiomac.2020.08.180(IF: 5.162). 
188 
CilloVelasco, P.R., Luciano, R., Kelly, M., Peeling, L., Bergstrom, D.J., Chen, X.B., and Malve, M. (2020). The hemodynamics of aneurysms treated with flowdiverting stents considering both stent and aneurysm/artery geometries. Applied Science, 10(15): 5239 10.3390/app10155239 (IF: 2.474). 
187 
Abed S., BakhsheshiRad, H.R., Yaghoubi H., Mclnnes, A., Ning, L.Q. Sadeghianmaryan, A., and Chen, X.B., (2020). Antibacterial activities of zeolite/silvergraphene oxide nanocomposite in bone implants. Materials Technology: Advanced Performance Materials (IF: 1.820). 
186 
BakhsheshiRad, H.R., Najafinejad, A., Hamzah, E., Ismail, A.F., Filippo, B., and Chen, X.B. (2020). Clinoenstatite/tantalum coating for enhancement of biocompatibility and corrosion protection of Mg alloy. Journal of Functional Biomaterials, 11(2): 26 (IF: 2.690). 
185 
Sadeghianmaryan, A., Sardroud, H.A. Allafasghari, S., Yazdanpanah, Z., Naghieh, S., Gorji, M., and Chen, X.B., (2020). Electrospinning of polyurethane/graphene oxide for skin wound dressing and its in vitro characterization. Journal of Biomaterials Applications, 35(1): 135145 (IF: 2.220). 
184 
BakhsheshiRad, H.R., Ismail, A.F., Aziz, M., Akbari, M., Hadisi, Z., Khoshnava, S.M., Pagan, E., and Chen, X.B. (2020). Coincorporation of graphene oxide/silver nanoparticle into polyLlactic acid fibrous: a route towards the development of cytocompatible and antibacterial coating layer on magnesium implants. Materials Science & Engineering C, 111: 110812 (IF: 4.959). 
183 
Hamvar, M., BakhsheshiRad, H. R., Omidi, M., Ismail, A.F., Aziz, M., Bilippo Berto, F., and Chen, X.B. (2020). Biocompatibility and bioactivity of hardystonitebased nanocomposite scaffold for tissue engineering applications. Biomedical Physics & Engineering Express, 6(3): 035011. 
182 
You, F., Wu, X., Kelly, M., and Chen, X.B. (2020). Bioprinting and in vitro characterization of alginate dialdehydegelatin hydrogel bioink. BioDesign and Manufacturing, 3(1): 4859 (IF: 4.095) 
181 
BakhsheshiRad, H. R., Ismail, A.F., Aziz, M., Akbari, M., Hadisi, Z., Omidi, M., and Chen, X.B. (2020). Development of the PVA/CS nanofibers containing silk protein sericin as a wound dressing: In vitro and in vivo assessment. Journal of Biological Macromolecules, 149(15): 513521. (IF: 4.784) 
180 
BakhsheshiRad, H. R., Ismail, A.F., Aziz, M., Akbari, M., Hadisi, Z., Berto, F., and Chen, X.B. (in press). In vitro and in vivo evaluation of chitosanalginate/gentamicin wound dressing nanofibrous with high antibacterial performance. Polymer Testing. (December 14, 2019) (IF: 2.943). 
179 
Naghieh, S., Sarker, M.D., Sharma. N.K., Barhoumi, Z., and Chen, X.B. (in press). Printability of 3D printed hydrogel scaffolds: influence of hydrogel composition and printing parameters”. Applied Science. (December 18, 2019). (IF: 2.217) 
178 
N.K., Sharma, S., Rathi, A., Kumar, A.K, Saini, K.V. Sarker, M.D., Naghieh, S., Ning, L.Q. Chen, X.B (in press). Micromechanisms of cortical bone failure under different loading conditions. Journal of Biomechanical Engineering. (December 8, 2019) (IF: 2.025) 
177 
Ning, L.Q., Yong, B., Mohabatpour, F., Nicholas, B., Sarker, M.D., Papagerakis P., and Chen, X.B. (in press). Processinduced cell damage: pneumatic vs. screwdriven bioprinting. Biofabrication. (accepted on November 28, 2019) (IF: 7.236). 
176. 
Sadeghianmaryan, A., Karimi, Y., Naghieh, S., Sardroud H.A., Gorji, M., and Chen, X.B. (in press). Electrospinning of scaffolds from the polycaprolactone /polyurethane composite with graphene oxide for skin tissue engineering. Applied Biochemistry and Biotechnology. (November 10, 2019) (IF: 2.140). 
175. 
Sadeghianmaryan, A., Yazdanpanah, Z., Soltani, Y.A., Sardroud, H.A., Nasirtabrizi, M.H., and Chen, X.B., (in press). Curcumin‐Loaded Electrospun Polycaprolactone/Montmorillonite Nanocomposite: Wound Dressing Application with Anti‐Bacterial and Low Cell Toxicity Properties. Journal of Biomaterials Science: Polymer Edition. (October 13, 2019). 
174. 
Yasmin, F. Chen, X.B., and Eames, B., (in press). Effect of process parameters on the initial burst release of proteinloaded alginate nanospheres. Journal of Functional Biomaterials. (September 10, 2019). 
173. 
BakhsheshiRad, H. R., Ismail, A.F., Aziz, M., Akbari, M., Hadisi, Z., and Chen, X.B. (in press). Antibacterial activity and in vivo wound healing evaluation of polycaprolactonegelatin methacryloylcephalexin electrospun nanofibrous. Materials Letters. (September 2, 2019) (IF: 3.019). 
172. 
BakhsheshiRad, H. R., Ismail, A.F., Aziz, M., Hadisi, Z., Pagan, E., Akbari, M., and Chen, X.B. (in press). Coating biodegradable magnesium alloys with electrospun polyLlactic acidakermanitedoxycycline nanofibers for enhanced biocompatibility, antibacterial activity, and corrosion resistance. Surface & Coatings Technology (August 9, 2019) (IF: 3.192). 
171. 
Bahrami, M.S., Eshghinejad, P., BakhsheshiRad^{, }H.R., Karamian^{c}, E., Chen, X.B. (in press). Electrophoretic deposition of bioglass/graphene oxide composite on Tialloy implants for improved antibacterial and cytocompatible properties. Materials Technology: Advanced Performance Materials (July 22, 2019). 
170. 
Kozhevnikov, E., Qiao, S., Han, F., Yan, W., Zhao, Y., Hou, X., Acharya, A., Shen, Y., Tian, H., Zhang, H., Chen, X.B., Zhang, Y., Yan, H., Guo, M., and Tian, W. (2019) A dualtransductionintegrated biosensing system to examine the 3D cellculture for bone regeneration. Biosensors and Bioelectronics, 141: 111481. (IF:9.518) 
169. 
Ketabat, F., Pundir, M., Mohabatpour, F., Lobanova, L., Koutsopoulos, S., Hadjiyski, L., Chen, X.B., Papagerakis, P., and Papagerakis, S. (2019). Controlled drug delivery systems for oral cancer treatment  current status and future perspectives. Pharmaceutics, 11 (7): 302 (IF: 4.773) 
168. 
Ning, L.Q., Zhu, N., Mohabatpour, F., Sarker, M.D., Schreyer, D. J., and Chen, X.B. (2019). Bioprinting Schwann cellladen scaffolds from lowviscosity hydrogel compositions. Journal of Materials Chemistry B, 2019, 7, 45384551. (IF: 4.776) 
167. 
Singh, A., Sharma, N.K., Sarker, M.D., Naghieh, S., Sehgal, S., Chen, D.X.B (2020). Assessment of elasticplastic fracture behaviour of cortical bone using small punch testing technique. Journal of Biomechanical Engineering. 142(1) (IF: 1.916) 
166. 
Chen, S., Auriat, A.M., Li, T.D., Stumpf, T.R., Wylie, R., Chen, X.B., Willerth, S.M., DeRosa, M., Tarizian, M., Cao, X.D., Tsai, T.C. (2019) Advancements in Canadian biomaterials in neurotraumatic diagnosis and therapies. Processes, 7 (6), 336. (IF: 1.279) 
165. 
Gorji, M., Sadeghianmaryan, A., Rajabinejad, H., Nasherolahkam, S., and Chen, X.B. (2019) Development of highly pHsensitive hybrid membranes by simultaneous electrospinning of amphiphilic nanofibers reinforced with graphene oxide. Journal of Functional Biomaterials. 10 (2) 23. 
164.

Soltan, N., Ning, L.Q., Mohabatpour, F., Papagerakis, P., and Chen, X.B. (2019) Printability and cell viability in bioprinting alginate dialdehydegelatin scaffolds. ACS Biomaterials Science & Engineering, 5(6), 29762987. (IF: 4.432)

163. 
BakhsheshiRad, H.R., Dayaghi, E., Ismail, A.F., Aziz, M., AkhavanFarid, A., and Chen, X.B. (2019). Synthesis and invitro characterization of biodegradable porous magnesiumbased scaffolds containing silver for bone tissue engineering. Transactions of Nonferrous Metals Society of China, 29 (5), 984996. (IF: 1.795) 
162. 
CatalánEcheverría, B., Kelly, M., Peeling, L., Bergstrom, D.J., Chen, X.B., and Malve, M. (2019). CFDbased comparison study of a new flow diverting stent and commerciallyavailable ones for the treatment of cerebral aneurysms. Applied Science, 9 (7) 1341. (IF: 1.689) 
161. 
BakhsheshiRad, H.R., Chen, X.B., Ismail, A.F., and Aziz, M. (2019). Antibacterial activity and corrosion resistance of Ta_{2}O_{5} thin film and electrospun PCL/MgOAg nanofiber coatings on biodegradable Mg alloy implants. Ceramics Internationals, 45 (9), 1188311892. (IF: 3.057) 
160. 
Naghieh, S., Sarker, M.D., Abelseth. E., and Chen, X.B. (2019). Indirect 3D bioprinting and characterization of alginate scaffolds for potential nerve tissue engineering applications”. Journal of the Mechanical Behavior of Biomedical Materials, 93:183193. (IF: 3.239) 
159. 
Sarker, M.D., Naghieh, S., Sharma, N.K., Ning, L.Q., and Chen, X.B., (2019). Bioprinting of vascularized tissue scaffolds: influence of biopolymer, cells, growth factors, and gene delivery. Journal of Healthcare Engineering, 2019. (IF: 1.261) 
158. 
Sarker, M.D., Naghieh, S., McInnes, A., Ning, L.Q., Schreyer, D., and Chen, X.B, (2019). Biofabrication of peptidemodified alginate scaffolds: printability, mechanical stability and neurite outgrowth assessments. Bioprinting. 14, e00045. (CiteScore: 3.40) 
157. 
Sharma, N.K., Sarker, M.D., Naghieh, S., and Chen, X.B., (2019). Studies on the stressstrain relationship in bovine cortical bone based on rambergosgood equation. Journal of Biomechanical Engineering. 141(4), 044507. (IF: 1.916) 
156. 
Yufang Zhao, Shupei Qiao, Xiaolu Hou, Hui Tian, Shuai Deng, Kangruo Ye, Yongzhan Nie, Xiongbiao Chen, and Hongji Yan, Weiming Tian, (2019). Bioengineered tumor microenvironments with naked mole rats highmolecularweight hyaluronan induces apoptosis in breast cancer cells. Oncogene, 38, 42974309. (IF: 6.854) 
155. 
Wei, Q.H., Wang, Y.N., Rao, Y.W., Jian, A.G., Zhang, K., Lu, T.L., and Chen, X.B. (2019). Evaluating the effects of nanosilica on mechanical and tribological properties of polyvinyl alcohol/polyacrylamide polymer composites for artificial cartilage from an atomic level. Plolymers, 11(1), 76. (IF: 2.935) 
154. 
BakhsheshiRad, H.R., Chen, X.B, Ismail, A.F., Aziz, M., Abdolahi, E., Mahmoodiyan, F (2019). Improved antibacterial properties of an Mg–Zn–Ca alloy coated with chitosan nanofibers incorporating silversulfadiazinemultiwallcarbonnanotubes for bone implants. Polymers for Advanced Technologies, 30(5), 13331339. (IF: 2.715) 
153. 
Pahlevanzadeh, F., BakhsheshiRad, H.R., Ismail, A.F., Aziz, M., and Chen, X.B. (2019). Development of PMMAMonCNT bone cement with superior mechanical properties and favorable biological properties for use in bonedefect treatment. Materials Letters, 240:912. (IF: 2.687) 
152. 
You, F., Chen, X.B., Cooper, D., Chang, T.J., and Eames, B. (2019). Homogeneous hydroxyapatite/alginate composite hydrogel promotes calcified cartilage matrix deposition with potential for threedimensional bioprinting. Biofabriction, 11(1): 015015. (IF: 6.838) 
151. 
Ning, L.Q., Betancourt, N., Schreyer, D., and Chen, X.B. (2018). Characterization of cell damage and proliferative ability during and after bioprinting. ACS Biomaterials Science & Engineering (September 24, 2018) (IF: 4.432) 
150. 
BakhsheshiRad H.R., Hamzah^{ }E., Najafinezhad A., and Chen, X.B. (2019). A new multifunctional monticelliteciprofloxacin scaffold: preparation, bioactivity, biocompatibility and antibacterial property. Materials Chemistry and Physics, 222:118131. (IF: 2.210) 
149. 
Sarker, M.D., Naghieh, S., Sharma, N.K., and Chen, X.B. (2018). 3D biofabrication of vascular networks for tissue regeneration: A report on recent advances. Journal of Pharmaceutical Analysis, 8: 277296. (CiteScore: 3.14) 
148. 
Sarker, M.D., Naghieh, S., McInnes, A.D., and Chen, X.B. (2018). Regeneration of Peripheral Nerves by Nerve Guidance Conduits: Influence of Design, Biopolymers, Cells, Growth Factors, and Physical Stimuli. Progress in Neurobiology, 171: 125150. (IF: 14.163) 
147. 
Naghieh, S., Sarker, M.D., KaramoozRavari, M. R., McInnes, A.D, and Chen, X.B. (2018). Modeling of the mechanical behavior of 3Dbioplotted scaffolds considering the penetration in interlocked strands. Applied Sciences, 8(9): 1422. (IF: 1.689) 
146. 
Ning, L.Q., Sun, H.Y., Lelong, T., Guilloteau, R., Zhu, N., Schreyer, D., Chen, X.B. (2018). 3D bioprinting of scaffolds with living Schwann cells for potential nerve tissue engineering applications. Biofabrication, 10(3): 035014. (IF: 6.838) 
145. 
Malve, M., Bergstrom, D.J., and Chen, X.B. (2018). Modeling the flow and mass transport in a mechanically stimulated parametric porous scaffold under fluid structure interaction approach. International Communications in Heat and Mass Transfer, 96: 5360. (IF: 3.718) 
144. 
Sarker, M.D., Naghieh, S., McInnes, A.D., Schreyer, D.J., and Chen, X.B. (2018). Strategic design and fabrication of nerve guidance conduits for peripheral nerve regeneration. Biotechnology Journal, 13(7): 1700635. (IF: 3.446) 
143. 
Naghieh, S., Sarker, M.D., Karki, E., KaramoozRavari, M.R., and Chen, X.B. (2018). Influence of crosslinking on the mechanical behavior of 3D printed alginate scaffolds: experimental and numerical approaches. Journal of the Mechanical Behavior of Biomedical Materials, 80:111118. (IF: 3.110) 
142. 
Sarker, M.D., Izadifar, M., Schreyer, D.J., and Chen, X.B. (2018). Influence of ionic crosslinkers (Ca^{2+}/ Ba^{2+}/ Zn^{2+}) on the mechanical and biological properties of 3D boplotted hydrogel scaffolds. Journal of Biomaterials Science: Polymer Edition, 29: 11261154. (IF: 2.158) 
141. 
Naghieh, S., Sarker, M.D., Izadifar, M, and Chen, X.B. (2018). Dispensingbased bioprinting of mechanicallyfunctional hybrid scaffolds with vessellike channels for tissue engineering applications – a brief review. Journal of the Mechanical Behavior of Biomedical Materials, 78:298314. (IF: 3.110) 
140. 
Wei, Q.H., Wang, Y.N., Zhang, Y.F. and Chen, X.B. (2017). Aggregation behavior of nanosilica in polyvinyl alcohol/polyacrylamide hydrogels based on dissipative particle dynamics. Plolymers, 9: 611. (IF: 3.364) 
139. 
García, M.A.M., Izadifar, M., and Chen, X.B. (2017). Evaluation of PBS treatment and PEI coating effects on surface morphology and cellular response of 3Dprinted alginate scaffolds. Journal of Functional Biomaterials, 8:48. 
138. 
Izadifar, M., Chapman, D., Babyn, P., Chen, X.B., and Kelly, M. (2018). UVassisted 3D bioprinting of nanoreinforced hybrid cardiac patch for myocardial tissue engineering. Tissue Engineering Part C: Methods, 24(2): 7488. (IF: 3.485) 
137. 
Wei, Q.H., Wang, Y.N., Wang, S.Z., Zhang, Y.F. and Chen, X.B. (2017). Investigating the properties and interaction mechanism of nanosilica in polyvinyl alcohol/polyacrylamide blends at an atomic level. Journal of the Mechanical Behavior of Biomedical Materials, 75: 529537. (IF: 3.110) 
136. 
Wei, Q.H., Wang, Y.N., Chai, W.H., Zhang, Y.F. and Chen, X.B. (2017). Molecular dynamics simulation and experimental study of the bonding properties of polymer binders in 3D powder printed hydroxyapatite bioceramic bone scaffolds. Ceramics International, 43(16): 1370213709. (IF: 2.986) 
135. 
You, F., Eames, B. and Chen, X.B. (2017). Application of extrusionbased hydrogel bioprinting for cartilage tissue engineering. International Journal of Molecular Science, 18(7): 1597. (IF: 3.226) 
134. 
Izadifar, M., Babyn, P., Kelly, M., Chapman, D., and Chen, X.B. (2017). Bioprinting patterndependent electrical/mechanical behavior of cardiac alginate implants: characterization and exvivo phasecontrast microtomography assessment. Tissue Engineering Part C: Methods, 23: 9. (IF: 3.485) 
133. 
Xue, H., Wu, X., Kelly, M., and Chen, X.B. (2017). Fabrication and optimal design of biodegradable polymeric stents for aneurysms treatments. Applied Sciences, 8: 8. (IF: 1.726) 
132. 
Izadifar, M., Babyn, P., Chapman, D., Kelly, M., and Chen, X.B. (2017). Potential of PropagationBased Synchrotron XRay PhaseContrast Computed Tomography for Cardiac Tissue Engineering. Journal of Synchrotron Radiation, 24: 842853. (IF: 1.877) 
131. 
Ning L.Q. and Chen, X.B. (2017). A Brief Review of Extrusionbased Tissue Scaffold BioPrinting. Biotechnology Journal, 12(8): 1600671. (IF: 3.781) 
130. 
Zhao, Y.F., Qiao, S.P., Shi, S.L., Yao, L.F., Hou, X.L., Li, C.F., Lin, F.H., Guo, K., Acharya, A., Chen, X.B., Nie, Y.Z., Tian, W.M. (2017). Modulating threedimensional microenvironment with hyaluronan of different molecular weights alters breast cancer cell invasion behavior. ACS Applied Materials & Interfaces, 9(11): 93279338. (IF: 7.145) 
129. 
Fang, R., Tian, W.M., and Chen, X.B. (2017). Synthesis of injectable alginate hydrogels with musclederived stem cells for potential myocardial infarction repair. Applied Sciences, 7: 252. (IF: 1.726) 
128. 
Sarker, M.D. and Chen, X.B. (2017). Modeling flow behavior and flow rate of medium viscous alginate for scaffold fabrication with 3D bioplotter. ASME Journal of Manufacturing Science and Engineering, 139(8): 08100208100214. (IF: 3.480) 
127. 
Ma, H.G., Qiao, S.P., Wang, Z., Geng, S., Zhao, Y.F., Hou, X.L., Tian, W.M., Chen, X.B., and Yao, L.F. (2017). Microencapsulation of leftysecreting engineered cells for pulmonary fibrosis therapy in mice. American Journal of PhysiologyLung Cellular and Molecular Physiology, 312(5): L741L747. (IF: 4.721) 
126. 
Olubamiji, A.D., Zhu, N., Chang, T.J., Nwankwo, C., Izadifar, Z., Honaramooz, A., Chen, X.B. and Eames, B.F. (2017). Traditional invasive and synchrotronbased noninvasive assessments of 3Dprinted hybrid cartilage constructs. Tissue Engineering Part C, 23(3): 156168. (IF: 3.892) 
125. 
Izadifar, M., Kelly, M., and Chen, X.B. (2017). Computational nanomedicine for mechanistic elucidation of bilayer nanoparticlemediated release for tissue engineering. Nanomedicine, 12(5) 423442. (IF: 4.889) 
124.

Bawolin, N. K. and Chen, X.B. (2017). Remote determination of timedependent stiffness of surfacedegradingpolymer scaffolds via synchrotronbased imaging. ASME Journal of Biomechanical Engineering, 139(4): 0410040410048. (IF: 2.057)

123. 
England, S., Rajaram, A., Schreyer, D.J., Chen, X.B. (2017). Bioprinted fibrinfactor XIIIhyaluronate hydrogel scaffolds with encapsulated Schwann cells and their in vitro characterization for use in nerve regeneration. Bioprinting, 5: 19. 
122. 
Zhao, Y., Yan, H., Qiao, S., Zhang, L., Wang, T., Meng, Q., Chen, X.B., Lin, F.H., Guo, K., Li, C. and Tian, W. (2016) Hydrogels bearing bioengineered mimetic embryonic microenvironments for tumor reversion. Journal of Materials Chemistry B, 2016, 4, 61836191. (IF: 4.872) 
121. 
Izadifar, M., Kelly, M., and Chen, X.B. (2016). Regulation of sequential release of growth factors using bilayer polymeric nanoparticles for cardiac tissue engineering. Nanomedicine, 11(24): 32373259 (IF: 4.889) 
120. 
Yasmin, F. and Chen, X.B. (2016). Role of Bioreactors in Regeneration of Articular Cartilage. Sensors and Materials, 28(10): 11291140. 
119. 
CoronaGomez, J., Chen, X.B. and Yang, Q.Q. (2016). Effect of Nanoparticle Incorporation and Surface Coating on Mechanical Properties of Bone Scaffolds: A Brief Review. Journal of Functional Biomaterials, 7(3): 18. 
118. 
Cao, Y., Chen, X.B., Bigsby, C., Griffith, J. and Schaider, J. (in press). An Iterative Learning PID Controller and its Application to a Terrain Simulator. International Journal of Engineering & Science (April 30, 2016). 
117. 
Bawolin, N. and Chen, X.B. (2016). SynchrotronBased in Situ Characterization of the Scaffold Mass Loss from Erosion Degradation. Journal of Functional Biomaterials, 7(3): 17. 
116. 
You, F., Wu, X., Zhu, N., Lei, M., Eames, B. and Chen, X.B. (2016). 3D Printing of Porous Cellladen Hydrogel Constructs for Potential Applications in Cartilage Tissue Engineering. ACS Biomaterials Science & Engineering, 2(7): 12001210. 
115. 
You, F., Wu, X. and Chen, X.B. (2017). 3D Printing of Alginate/gelatin Hydrogel Scaffolds and Their MechanicalProperty Characterization. International Journal of Polymeric Materials and Polymeric Biomaterials , 46(6): 299306. (IF: 1.667) 
114. 
Olubamiji, A.D., Izadifar, Z., Si, J., Cooper, D., Eames, F. and Chen, X.B. (2016). Modulating Mechanical Behaviour of 3Dprinted CartilageMimetic PCL Scaffolds: Influence of Molecular Weight & Pore Geometry. Biofabrication, 8(2): 025020. (IF: 4.702). 
113. 
Qiao, S.P., Li, C.F., Yin, Y.B., Zhao, Y.F., Meng, Q.Y., Liu, Y., Hou, X.L., Guo, K., Chen, X.B., and Tian, W.M. (2016). A Novel Alginatebased Platform for Cancer Stem Cell Research. Acta Biomaterialia, 37: 8392. (IF: 6.008) 
112. 
Ning, L.Q., Guillemot, A.G., Zhao, J.X., Kipouros, G.K., and Chen X.B. (2016). Influence of Flow Behavior of AlginateCell Mixtures on Cell Viability and Proliferation. Tissue Engineering Part C, 22(7): 652662. (IF: 3.892) 
111. 
Wiebe S., Wysokinski T., Belev G., Miller D., Webb A., Zhu N., Cooper D., Izadifar Z., Panahifar A., Samadi N., Martinson M., Ford N., Deman P., Luan X., Ianowski J., Chen X.B. and Chapman D. (2015). Biomedical Imaging Using Synchrotron Radiation: Experience at the Biomedical Imaging and Therapy (BMIT) Facility at the Canadian Light Source. Synchrotron Radiation News, 28(5): 1623. 
110.

Ning, L.Q., Xu, Y.T., Chen, X.B. and Schreyer, D.J. (2016). Influence of Mechanical Properties of AlginateBased Substrates on the Performance of Schwann Cells in Culture. Journal of Biomaterials Science: Polymer Edition, 27(9). (IF: 1.733)

109.

Olubamiji, A.D., Izadifar, Z., Zhu, N., Chang, T.J., Chen X.B. and Eames, B.F. (2016). Using SRinlinePCICT to Visualize 3DPrinted Hybrid Constructs for Cartilage Tissue Engineering. Journal of Synchrotron Radiation, 23: 802812. (IF: 1.877).

108. 
Cao, Y. and Chen, X.B. (2015). An Output Tracking Integrated Discrete PIDbased Sliding Mode Control on SISI Systems. Journal of Mechanics Engineering and Automation, 5(3): 143152. 
107. 
Izadifar, Z., Honaramooz, A., Wiebe, S., Belev, G., Chen X.B. and Chapman, D. (2015). Data of LowDose Phasebased Xray Imaging for In Situ Soft Tissue Engineering Assessments. Data in Brief, 6: 644651. 
106. 
Griffin, R., Cao, Y., Peng, J.Y. and Chen, X.B. (2015). Tool Wear Monitoring and Replacement for Tube sheet Drilling. International Journal of Advanced Manufacturing Technology, 86(5): 20112010. 
105. 
Izadifar, Z., Honaramooz, A., Wiebe, S., Belev, G., Chen X.B. and Chapman, D. (2016). LowDose Phasebased Xray Imaging Techniques for In Situ Soft Tissue Engineering Assessments. ,” Biomaterials, 82: 151167. (IF: 8.387) 
104. 
Izadifar, Z., Chang, T.J., Kulyk, W., Chen, X.B. and Eames, B.F. (2015). Analyzing Biological Performance of 3DPrinted, CellImpregnated Hybrid Constructs for Cartilage Tissue Engineering. Tissue Engineering Part C. 22(3): 173188. (IF: 3.892) 
103. 
You, F., Li, Y.B., Zou, Q., Zuo, Y., Lu, M.P., Chen, X.B. and Li, J.D. (2015). Fabrication and Osteogenesis of a Porous NanoHydroxyapatite/Polyamide Scaffold with an Anisotropic Architecture. ACS Biomaterials Science & Engineering, 1(9): 825833. 
102. 
Md. S. Hossain, D. J. Bergstrom, and X. B. Chen, 2015 “A Mathematical Model and Computational Framework for ThreeDimensional Chondrocyte Cell Growth in a Porous Tissue Scaffold Placed Inside a BiDirectional Flow Perfusion Bioreactor,” Biotechnology and Bioengineering, 112 (12): 26012610. (IF: 4.164)^{} 
101. 
Md. Sarker, X. B. Chen, and D. J. Schreyer, 2015, “Experimental Approaches to Vascularization within Tissue Engineering Constructs,” Journal of Biomaterials Science: Polymer Edition, 26(12): 683784. (IF: 1.357) 
100. 
R. Fang, S. P. Qiao, Y. Liu, Q.Y. Meng, X. B. Chen, B. Song, X. L. Hou, and W. M. Tian, 2015, “Sustained CoDelivery of BIO and IGF1 by a Novel Hybrid Hydrogel System to Stimulate Endogenous Cardiac Repair in Myocardial Infarcted Rat Hearts,” International Journal of Nanomedicine, 10: 46914703. (IF: 4.383)^{} 
99. 
P. Zhai, X. B. Chen, and D. J. Schreyer, 2015 “An in vitro Study of PeptideLoaded Alginate Nanospheres for Antagonizing the Inhibitory Effect of NogoA Protein on Axonal Growth,” Biomedical Materials 10(4): 045016. (IF: 3.697). 
98. 
P. Zhai, X. B. Chen, and D. J. Schreyer, 2015 “PLGA/Alginate Composite Microspheres for Hydrophilic Protein Delivery,” Materials Science and Engineering C, 56, 251259. (IF: 3.420) 
97. 
M. Izadifar, M. Kelly, A. Haddadi, and X. B. Chen, 2015, “Optimization of Nanoparticles for Cardiovascular Tissue Engineering,” Nanotechnology, 26(23), 235301. (IF: 3.573). 
96. 
Md. S. Hossain, D. J. Bergstrom, and X. B. Chen, 2015 “Visualization and Analysis of LargeScale Vortex Structures in ThreeDimensional Turbulent LidDriven Cavity Flow,” Journal of Turbulence, 16(10), 901924. (IF: 1.560)^{} 
95. 
N. Bawolin, A. T. Dolovich, W. J. Zheng, and X. B. Chen, 2015, “Characterization of Mechanical Properties of Tissue Scaffolds by Phase Contrast Imaging and Finite Element Modeling,” ASME Journal of Biomechanical Engineering, 137(8): 0810041/8. (IF: 1.745) 
94. 
Md. S. Hossain, D. J. Bergstrom, and X. B. Chen, 2015 “Computational Modelling of the Scaffoldfree Chondrocyte Regeneration: a TwoWay Coupling between the Cell Growth and Local Fluid Flow and Nutrient Concentration,” Biomechanics and Modeling in Mechanobiology, 19. (IF: 3.145) 
93. 
Md. S. Hossain, X. B. Chen, and D. J. Bergstrom, 2015 “Fluid Flow and Mass Transfer Over Circular Cylinder(s) Using Lattice Boltzmann Method,” Heat and Mass Transfer, published online 15 February 2015 (DOI 10.1007/s0023101515146). ^{ } 
92. 
A. Rajaram, D. J. Schreyer and X. B. Chen, 2015, “Use of the Polycation Polyethyleneimine to Improve the Physical Properties of AlginateHyaluronic Acid Hydrogel During Fabrication of Tissue Repair Scaffolds,” Journal of Biomaterials Science: Polymer Edition, 26(7), 433445. (IF: 1.733) 
91. 
M. G. Li, X. Y. Tian J. A. Kozinski, X. B. Chen, and D. K. Hwang, 2015, “Modeling Mechanical Cell Damage in Bioprinting Process Employing a Conical Needle”, Journal of Mechanics in Medicine and Biology, 15(3):1550073. (IF: 0.797) 
90. 
Y. Cao and X. B. Chen, 2015, “An ARXbased PIDSliding Mode Control on Velocity Tracking Control of a StickSlip PiezoelectricDriven Actuator,” Modern Mechanical Engineering, 5:1019. 
89. 
S. Hossain, D. J. Bergstrom, and X. B. Chen, 2015 “Modelling and Simulation of the Chondrocyte Cell Growth, Glucose Consumption and Lactate Production within a Porous Tissue Scaffold Inside a Perfusion Bioreactor,” Biotechnology Reports, 5, 5562. ^{ } 
88. 
M. Izadifar, A. Haddadi, X. B. Chen and M. Kelly, 2014, “RateProgramming of NanoParticulate Delivery Systems for Smart Bioactive Scaffolds in Tissue Engineering,” Nanotechnology, 26(1), 012001. (IF: 3.821) 
87. 
S. Hossain, D. J. Bergstrom, and X. B. Chen, 2014 “Prediction of Cell Growth Rate over Scaffold Strands Inside a Perfusion Bioreactor,” Biomechanics and Modeling in Mechanobiology, 14(2), 333344. (IF: 3.145) 
86. 
A. Rajaram, D. J. Schreyer, and X. B. Chen, 2014, “Bioplotting AlginateHyaluronic Acid Hydrogel Scaffolds with Structural Integrity and Preserved Schwann Cell Viability," 3D Printing and Additive Manufacturing 1(4): 194203. 
85. 
C. Little, W. Kulyk, and X. B. Chen, 2014, “Effect of Chondroitin Sulphate and Hyaluronic Acid on Chondrocytes,” Journal of Functional Biomaterials 5(3): 197210. 
84. 
M. Izadifar, M. Kelly, and X. B. Chen, 2014, “Engineering Angiogenesis for Myocardial Infarction Repair: Recent Developments, Challenges, and Future Directions,” Cardiovascular Engineering and Technology, 5(4): 281307. 
83. 
Y. Cao and X. B. Chen, 2014, “A Survey of Modeling and Control Issues for Piezoelectric Actuators,” ASME Journal of Dynamic Systems, Measurement and Control, 137(1): 014001. 
82. 
S. Z. Liu, J. Y. Peng, Y. B. Zhang,^{ }and X. B. Chen, 2014, “Modeling RotaryScrewDriven Dispensing Systems for Electronics Packaging,” IEEE Trans. on Components, Packaging and Manufacturing Technology, 4(8): 13591365 (IF: 1.261). 
81. 
X. Y. Tian and X. B. Chen, 2014, “Effects of Cell Density on Mechanical Properties of Alginate Hydrogel Tissue Scaffolds,” Journal of Biomimetics, Biomaterials, and Tissue Engineering, 19: 7785. 
80. 
A. Olubamiji, Z. Izadifar, and X. B. Chen, 2014, “Synchrotron imaging techniques for bone and cartilage tissue engineering: potentials, current trends, and future directions,” Tissue Engineering Part, 20(5): 50322 (IF: 4.022). 
79. 
X. B. Chen, 2014, “DispensedBased BioManufacturing Scaffolds for Tissue Engineering Applications,” International Journal on Engineering Applications, 2(1). 
78. 
M. D. Wang, P. Zhai, D. J. Schreyer, R. S. Zheng, X. D. Sun, F. Z. Cui, and X. B. Chen, 2013, “Novel Crosslinked Alginate/Hyaluronic Acid Hydrogels for Nerve Tissue Engineering,” Frontiers of Materials Science, 7(3): 269284. 
77. 
Y. Cao and X. B. Chen, 2014, “An Output Tracking Based Discrete PIDSliding Mode Control on MIMO Systems,” IEEE/ASME Transactions on Mechatronics, 19(4): 11831194. 
76. 
Y. Cao and X. B. Chen, 2013, “Two Modified Discrete PIDbased Sliding Mode Controllers for Piezoelectric Actuators,” International Journal of Control, 87(1): 920. 
75. 
Z. Izadifar, L.D. Chapman, and X. B. Chen, 2013, “Computer Tomography Diffraction Enhanced Imaging for in situ Visualization of Tissue Scaffolds Implanted in Cartilage," Tissue Engineering Part C, 20(2): 1408 (IF: 4.022). 
74. 
Y. Cao and X. B. Chen, 2014, “Disturbance Observer Based Sliding Mode Control for a ThreeDOF Nanopositioning Stage,” IEEE/ASME Transactions on Mechatronics, 19(3): 924931 (IF: 2.33). 
73. 
J. Y. Peng and X. B. Chen, 2014, “Integrated PIDBased Sliding Mode State Estimation and Control for Piezoelectric Actuators,” IEEE/ASME Transactions on Mechatronics, 19(1): 8899 (IF: 2.33). 
72. 
H. J. Yan, Y. He, Y. B. Yin, X. M. Wang, F. Z. Cui, X. B. Chen, Y. Li, S. Zhang, Y. Z. Nie, and W. M. Tian, 2013, “SelfAssembled Monolayers with Different Chemical Group Substrates for the Study of MCF7 Breast Cancer Cell Line Behavior,” Biomedical Materials, 8(3): 035008 (IF: 2.158). 
71. 
P. Zhai, X. B. Chen, and D. J. Schreyer, 2013 “Preparation and Characterization of Alginate Microspheres for Sustained Protein Delivery within Tissue Scaffolds,” Biofabrication, 5(1):015009 (IF: 3.480). 
70. 
M. Izadifar and X. B. Chen, 2012, “Radio Frequency Heating of Implanted Tissue Engineered Scaffolds: Simulation and Experimental Studies,” Frontiers of Heat and Mass Transfer, 3: 043004. 
69. 
N. Zhu, D. Cooper, H. Niu, and X. B. Chen, 2013, “A Study on the in vitro Degradation of PolyLLactide/ChitosanMicrospheres Scaffolds,” Frontiers of Materials Science, 7(1): 7682. 
68. 
J. Y. Peng and X. B. Chen, 2013, “A Survey of Modeling and Control of Piezoelectric Actuators,” Modern Mechanical Engineering, 3(1): 120. 
67. 
X. P. Bai, R. Fang, S. Zhang, S. L. Shi, Z. L. Wang, X. B. Chen, J. Y. Yang, X. L. Hou, Y. Z. Nie, Y. Li, and W. M. Tian, 2013 “SelfCrossLinkable Hydrogels Composed of Partially Oxidized Alginate and Gelatin for Myocardial Infarction Repair,” Journal of Bioactive and Compatible Polymers, 28(2): 123140 (IF: 2.207). 
66. 
Z. Izadifar, X. B. Chen, and W. Kulyk, 2012 “Strategic Design and Fabrication of Engineered Scaffolds for Articular Cartilage Repair,” Journal of Functional Biomaterials, 3(4): 799838. 
65. 
S. Hossain, X. B. Chen, and D. J. Bergstrom, 2012 “Investigation into the in vitro Culture Process for SkeletalTissueEngineered Constructs Using Computational Fluid Dynamics and Experimental Methods,” ASME Journal of Biomechanical Engineering, 134(12):121003 (IF: 1.9). 
64. 
A. Rajaram, X. B. Chen, D. J. Schreyer, 2012, “Strategic Design and Recent Fabrication Techniques for Bioengineered Tissue Scaffolds to Improve Peripheral Nerve Regeneration," Tissue Engineering Part B, 18(6): 454467 (IF: 4.636). 
63. 
J. Y. Peng and X. B. Chen, 2012, “Novel Models for OneSided Hysteresis of Piezoelectric Actuators,” Mechatronics, 22(6): 757765 (IF: 0.944 and 5year IF: 1.343). 
62. 
Y. Cao, L. Cheng, X. B. Chen, and J. Y. Peng, 2013, “An InversionBased Model Predictive Control with an IntegralofError State Variable for PiezoelectricActuators,” IEEE/ASME Transactions on Mechatronics, 18(3): 895904 (IF: 2.33). 
61. 
X. Y. Tian, M. G. Li, and X. B. Chen, 2013, “BioRapidPrototyping of Tissue Engineering Scaffolds and the ProcessInduced Call Damage,” Journal of Biomimetics, Biomaterials, and Tissue Engineering, vol.17, pp 123. 
60. 
S. L. Yao, X. Liu, X. M. Wang, A. Merollic, X. B. Chen, F. Z. Cui, 2013, “Directing Neural Stem Cell Fate with Biomaterial Parameters for Injured Brain Regeneration,” Progress in Natural Science: Materials International, 23(2):103–112 (IF: 1.035). 
59. 
Y. Cao and X. B. Chen, 2013, “State Space System Identification of 3DegreeofFreedom (DOF) PiezoActuator Driven Stages with Unknown Configuration,” Actuators, 2(1):118. 
58. 
S. Liu, Y. Zhang, and X. B. Chen, 2012, “Experiment and Dynamic Model of Motor for RotaryScrewDriven Dispensing System,” Applied Mechanics and Materials, 220223:10711076. 
57. 
X. Yan, D. J. Bergstrom, and X. B. Chen, 2012, “Modeling of Cell Cultures in Perfusion Bioreactors," IEEE Transactions on Biomedical Engineering, 59(9):256875 (IF: 1.79). 
56. 
H. X. Zheng, W. M. Tian, H. J. Yan, H. D. Jiang, S. S. Liu, L. Yu, F. Han, L. J. Wei, X. B. Chen, Y. Li, 2012, “Expression of Estrogen Receptor α in Human Breast Cancer Cells Regulates Mitochondrial Oxidative Stress under Simulated Microgravity,” Advances in Space Research, 49(10):14321440 (IF: 1.076). 
55. 
Y. Cao and X. B. Chen, 2012, “A Novel Discrete ARMAbased Model for Piezoelectric Actuator Hysteresis,” IEEE/ASME Transactions on Mechatronics, 17(4): 737744 (IF: 2.33). 
54. 
N. Cao, X. B. Chen, and D. Schreyer, 2012, “Influence of Calcium Ions on Cell Survival and Proliferation in the Context of an Alginate Hydrogel," ISRN Chemical Engineering, 2012: 516461 (9pp). 
53. 
H. Zheng, W. M. Tian, H. J. Yan, L. Yue, Y. Zhang, F. T. Han, X. B. Chen, and Y. Li, 2012, “Rotary Culture Promotes the Proliferation of MCF7 Cells Encapsulated in ThreeDimensional CollagenAlginate Hydrogels via Activation of ERK1/2MAPK Pathway,” Biomedical Materials, 7(1):015003 (IF: 2.467). 
52. 
Q. S. Zhang, X. B. Chen, Q. Yang, and W. J. Zhang, 2012, “Development and Characterization of a Novel Piezoelectricdriven Stickslip Actuator with AnisotropicFriction Surfaces,” International Journal of Advanced Manufacturing Technology, 61:10291034 (IF: 1.071). 
51. 
X. Yan, X. B. Chen, D. J. Bergstrom, 2011, “Modeling of the Flow within Scaffolds in Perfusion Bioreactors,” American Journal of Biomedical Engineering 1(2):7277. 
50. 
J. Y. Peng and X. B. Chen, 2011, “Modeling of Piezoelectric Actuators Based on a New RateIndependent Hysteresis Model,” Modern Mechanical Engineering, 1(2):2530. 
49. 
M. G. Li, X. Y. Tian, D. J. Schreyer, and X. B. Chen, 2011, “Effect of Needle Geometry on Flow Rate and Cell Damage in the DispensingBased Biofabrication Process,” Biotechnology Progress, 27(6):177784 (IF: 2.178). 
48. 
N. Zhu, D. Chapman, D. Cooper, D. Schreyer, and X. B. Chen, 2011, “Xray Diffraction Enhanced Imaging as a Novel Method to Visualize Low Density Scaffolds in Soft Tissue Engineering,” Tissue Engineering Part C, 17(11):107180 (IF: 4.636 and 5year IF: 5.444). 
47. 
N. Zhu, M. G. Li, D. Cooper, and X. B. Chen, 2011, “Development of Novel Hybrid Poly (Llactide)/Chitosan Scaffolds Using Rapid Freeze Prototyping Technique,” Biofabrication,3(3): 034105 (9pp) (IF: 1.857). 
46. 
X. P. Bai, H. X. Zheng, R. Fang, T. R. Wang, X. L. Hou, Y. Li, X. B. Chen, W. M. Tian, 2011, “Fabrication of Engineered Heart Tissue Grafts from Alginate/Collagen Barium Composite Microbeads,” Biomedical Materials, 6(4): 045002 (10pp) (IF: 2.467). 
45. 
C. J. Little, N. K. Bawolin, and X. B. Chen, 2011, “Mechanical Properties of Natural Cartilage and Tissue Engineered Constructs," Tissue Engineering Part B, 17(4): 213227, 2011 (IF: 4.636 and 5year IF: 5.444). 
44. 
M. D. Wang, P. Zhai, X. B. Chen, D. J. Schreyer, X. D Sun, and F. Z. Cui, 2011, “Bioengineered Scaffolds for Spinal Cord Repair," Tissue Engineering Part B, vol. 17, no. 3, pp. 177194 (IF: 4.636 and 5year IF: 5.444). 
43. 
M. G. Li, X. Y. Tian, and X. B. Chen, 2011, “Temperature Effect on the ShearInduced Cell Damage in Biofabrication," Artificial Organ, 35(7): 741746 (IF: 1.719). 
42. 
J. W. Li, E. Matias, N. Chen, C.Y. Kim, J. Wang, J. Gorin, F. He, P. Thorpe, Y. Lu, W.F. Chen, P. Grochulski, X.B. Chen, and W.J. Zhang, 2011, “Investigations of Mechanical Vibrations for Beamlines at the Canadian Light Source,” Journal of Synchrotron Radiation, vol. 18, pp. 109116 (IF: 2.335). 
41. 
Z. M. Zhang, Q. An, W. J. Zhang, Q. Yang, Y. J. Tang, X. B. Chen, 2011, “Modeling of Directional Friction on a Fully Lubricated Surface with Regular Anisotropic Asperities,” Meccanica, vol. 46, pp. 535545 (IF: 1.056). 
40. 
J. W. Li, X. B. Chen, and W. J. Zhang, 2011, “AxiomaticDesignTheoryBased Approach to Modeling Linear High Order System Dynamics,” IEEE/ASME Transactions on Mechatronics, vol. 16, no. 2, pp. 341350 (IF: 2.33). 
39. 
J. Y. Peng and X. B. Chen, 2011, “Modeling of PiezoelectricDriven StickSlip Actuators,” IEEE/ASME Transactions on Mechatronics, vol. 16, no. 2, pp. 394399 (IF: 2.33). 
38. 
N. Zhu, M. G. Li, Y. J. Guan, D. J. Schreyer,^{ }and X. B. Chen, 2010, “Effect of Laminin Blended with Chitosan on Axon Guidance on Patterned Substrates,” Biofabrication, vol. 2, 045002 (IF: 1.857). 
37. 
N. K. Bawolin, M. G. Li, X. B. Chen, and W. J. Zhang, 2010, “Modeling MaterialDegradationInduced Elastic Property of Tissue Engineering Scaffolds,” ASME Journal of Biomechanical Engineering, vol. 132, no. 11, pp. 11100117 (IF: 1.6). 
36. 
M. G. Li, X. Y. Tian, N. Zhu, D. Schreyer, and X. B. Chen, 2009, “Modeling ProcessInduced Cell Damage in the BioDispensing Process," Tissue Engineering Part C, vol. 16, no. 3, pp. 533542 (IF: 4.636 and 5year IF: 5.444). 
35. 
N. Zhu, X. B. Chen, and D. Chapman, 2010, “A Brief Review of Visualization Techniques for Nerve Tissue Engineering Applications,” Journal of Biomimetics, Biomaterials, and Tissue Engineering, vol. 7, pp. 8199. 
34. 
J. W. Li, X. B. Chen, and W. J. Zhang, 2010, “A New Approach to Modeling System Dynamics – in the Case of Piezoelectric Actuator with a Host System,” IEEE/ASME Transactions on Mechatronics, vol. 15, no. 3, pp. 371380 (IF: 2.33). 
33. 
N. K. Bawolin, W. J. Zhang, X. B. Chen, 2010, “A Brief Review of the Modelling of the Time Dependent Mechanical Properties of Tissue Engineering Scaffolds,” Journal of Biomimetics, Biomaterials, and Tissue Engineering, vol. 6, pp. 1933. 
32. 
M. G. Li, X. Y. Tian, and X. B. Chen, 2009, “A Brief Review of DispensingBased Rapid Prototyping Techniques in Tissue Scaffold Fabrication,” Biofabrication, vol. 1, 032001 (IF: 1.857). 
31. 
X. Y. Tian, M.G. Li, N. Cao, J.W. Li, and X.B. Chen, 2009 "Characterization of Flow Behaviours of Alginate/Hydroxyapaptite Mixtures for Tissue Scaffold Fabrication" Biofabrication, vol. 1, 045005 (IF: 1.857). 
30. 
M. G. Li, X. Y. Tian, and X. B. Chen, 2009, “Modeling of Flow Rate, Pore Size and Porosity for the DispensingBased Tissue Scaffolds Fabrication,” ASME Journal of Manufacturing Science and Engineering, vol. 131, pp. 03450115. 
29. 
X. B. Chen, M. G. Li, and N. Cao, 2009, “Modeling of the Fluid Volume Transferred in Contact Dispensing Processes,” IEEE Trans. on Electronics Packaging Manufacturing, vol. 32, no. 3, pp. 133137 (IF: 1.16). 
28. 
J. W. Li, X. B. Chen, Q. An, S. D. Tu, and W. J. Zhang, 2009 “Friction Models Incorporating Thermal Effects in Highly Precision Actuators,” Review of Scientific Instruments, vol. 80, 04501416 (IF: 1.598 and 5year IF: 1.745). 
27. 
M. G. Li and X. B. Chen, 2009, “Recent Patents in Fluid Dispensing Processes for Electronics Packaging,” Recent Patents on Mechanical Engineering, vol. 2(1): 1925. 
26. 
J. W. Li, G. S. Yang, C. Zhang, S. D. Tu, and X. B. Chen, 2009. “Thermal Error Modeling for Complex Physical Systems: TheStateofArts Review,” International Journal of Advanced Manufacturing Technology, vol. 42, pp.168179 (IF: 1.071). 
25. 
M. Hashemi and X. B. Chen, 2008 “Theoretical Investigation into the Performance of the RotaryScrew Fluid Dispensing Process,” Canadian Society for Mechanical Engineering (CSME) Transactions, vol. 32, no. 34, pp. 325331 (IF: 0.281). 
24. 
X. B. Chen, Q. S. Zhang, D. Kang, and W. J. Zhang, 2008, “On the Dynamics of PiezoActuated Positioning Systems,” Review of Scientific Instruments 79, 1161013 (IF: 1.598 and 5year IF: 1.745). 
23. 
X. B. Chen, 2009, “Modeling and Control of Fluid Dispensing Processes: A StateoftheArt Review”, International Journal of Advanced Manufacturing Technology, vol. 43, pp.276286 (IF: 1.071). 
22. 
X. B. Chen, M. G. Li, and H. Ke, 2008, “Modeling of the Flow Rate in the DispensingBased Process for Fabricating Tissue Scaffolds,” ASME Journal of Manufacturing Science and Engineering, 130(2), 2100317. 
21. 
X. B. Chen, D. Kang, and Q. S. Zhang, 2008, “On the Dynamics of PiezoelectricDriven StickSlip Actuators,” Key Engineering Materials, 375, 648652. 
20. 
J. W. Li, G. S. Yang, C. Zhang, S. D. Tu, and X. B. Chen, 2008 “Thermal Effect on Piezoelectric StickSlip Actuator Systems,” Review of Scientific Instruments, 79, 04610813 (IF: 1.598 and 5year IF: 1.745). 
19. 
X. B. Chen, 2007, “Modeling of Rotary Screw Fluid Dispensing Process,” ASME Journal of Electronic Packaging, vol. 129, no. 2, 172178. 
18. 
X. B. Chen, J. Kai, and M. Hashemi, 2007, “Evaluation of Fluid Dispensing Systems Using Axiomatic Design Principles,” ASME Journal of Mechanical Design, vol. 129, no. 6, pp. 640648. 
17. 
X. B. Chen and H. Ke, 2006, “Effects of Fluid Properties on Dispensing Processes for Electronics Packaging,” IEEE Trans. on Electronics Packaging Manufacturing, vol. 29, no. 2, pp. 7582 (IF: 1.16). 
16. 
X. B. Chen, 2005, “TimeDependent Rheological Behavior of Fluids for Electronics Packaging,” ASME Journal of Electronic Packaging, vol. 127, no. 4, pp.370374. 
15. 
X. B. Chen, G. Schoenau, and W. J. Zhang, 2005, “Modeling and Control of TimePressure Dispensing processes for Surface Mount Technology,” IEEE/ASME Trans. on Mechatronics, vol. 10, no. 3, pp. 326334 (IF: 2.33). 
14. 
X. B. Chen and J. Kai, 2004, “Modelling of PositiveDisplacement Fluid Dispensing Processes,” IEEE Trans. on Electronics Packaging Manufacturing, vol. 27, no. 3, pp. 157163 (IF: 1.16). 
13. 
X. B. Chen, W. J. Zhang, and G. Schoenau, 2003, “OffLine Control of TimePressure Dispensing Processes for Electronic Packaging,” IEEE Trans. on Electronics Packaging Manufacturing, vol. 26, no. 4, pp. 286293 (IF: 1.16). 
12. 
X. B. Chen, G. Schoenau, and W. J. Zhang, 2002 “On the Flow Rate Dynamics in TimePressure Dispensing Processes,” ASME Journal of Dynamic Systems, Measurement, and Control, vol. 124, no. 4, pp. 693698. 
11. 
Y. F. Li and X. B. Chen, 2001, “EndPoint Sensing and State Observation of a FlexibleLink Robot,” IEEE/ASME Trans. on Mechatronics, vol. 6, no. 3, pp.351356 (IF: 2.33). 
10. 
W. J. Zhang and X. B. Chen, 2001, “Mechatronics Design of Programmable ClosedLoop Mechanism,” Journal of Mechanical Engineering Science, vol. 215, no.3, pp.365376 (IF: 1.266). 
9. 
X. B. Chen, G. Schoenau, and W. J. Zhang, 2000, “Modelling of TimePressure Fluid Dispensing Process,” IEEE Trans. on Electronics Packaging Manufacturing, vol. 23, no. 4, pp. 300305 (IF: 1.16). 
8. 
Y. F. Li and X. B. Chen, 1998, “On the Dynamic Behavior of Force/Torque Sensor for Robots,” IEEE Trans. on Instrumentation and Measurement, vol. 47, no.1, pp. 304308 (IF: 1.106). 
7. 
X. B. Chen, A. Geddam, and Z. J. Yuan, 1997, “Accuracy Improvement of ThreeAxis CNC Machining Centers by Quasistatic Errors Compensation,” SME Journal of Manufacturing Systems, vol. 16, no. 5, pp. 323336. 
6. 
X. B. Chen, Y. X. Yao and Z. J. Yuan, 1997, “A New Analytical Modeling Method for Space Manipulators,” Robot, vol. 19, no. 3, pp.218223 (in Chinese). 
5. 
X. B. Chen, Z. J. Yuan and Y. X. Yao, 1997, “Study on Calibration of 6Axis Wrist Force Sensors for Robots,” Robot, vol. 19, no. 1, pp.712 (in Chinese). 
4. 
X. B. Chen, Z. J. Yuan and Y. X. Yao, 1995, “An Application of Microprocessor 8098 in Wrist Force Sensors for Robotics,” Mcrocomputer Application, vol. 16, no. 5, pp.2628 (in Chinese). 
3. 
X. B. Chen, Y. X. Yao and Z. J. Yuan, 1995, “The Interface and Calibration Method of 6Axis Force/Momont Sensors,” Journal of Transducer Technology, vol. 16, no. 5, pp.3740 (in Chinese). 
2. 
X. B. Chen, Z. J. Yuan, Y. X. Yao, and X.L. Han, 1995, “On the dynamics of Space Manipulator,” Journal of Harbin Instititute of Technology (English Edition), vol. E2, no.2. 
1. 
X. B. Chen, Y. X. Yao and Z. J. Yuan, 1994, “Parallel Communication Using RAMs,” Application of Electronic Technology, no. 8, pp.3939 (in Chinese). 
Loading...