1.         Biomedical materials: biodegradable/bioactive materials including calcium phosphate ceramics or composites, calcium phosphate cement and cartilage/bone tissue engineering scaffold materials, new tissue tapes/adhesives, drug-loaded sustained release and targeted delivery, biosensors and biochips.

2.         Sewage treatment materials: include heavy metal ion/halide ion adsorption materials, environmental protection fillers, organic matter degradation materials, etc.

3.         Carbon-based electro-catalytic materials

2013.12 – Present   Xi'an Jiaotong University, China    Professor

2009.7 – 2010.6    Harvard Medical School           Postdoctoral researchers

2007.9 – 2013.11   Xi'an Jiaotong University, China     Associate professor 

2005.6 – 2007.8    Xi'an Jiaotong University, China     Lecturer  

2000.9 – 2005.6   College of Materials, Xi'an Jiaotong University, Xi'an, China    Ph.D.

1998.9 – 2000.8   College of Materials, Northwestern Polytechnical University, Xi'an, China   M.D.

1994.9 – 1998.7   College of Materials, Northwestern Polytechnical University, Xi'an, China   B.S.

2019    The doctoral student under his supervision won the "China-Germany (CSC-DAAD) Postdoctoral Fellowship"

2018    The doctoral student under his guidance won the "First-class Scholarship for Overseas Visit"

2015    The two doctoral students won the "Excellent Graduate Student" and "National Scholarship" respectively

2014    The doctoral student under the guidance was awarded "Excellent Graduate Student"

2011    "Excellent" in the general assessment of the second batch of "Young Backbone Teacher Training Program" of Xi'an Jiaotong University

2010    The National Undergraduate Innovation Experiment Project under the guidance was awarded "Excellent"

2008    Xi'an Jiaotong University Young Backbone Teacher Training Program

2008    New Century Excellent Talents Support Program of the Ministry of Education

2008    Excellent Doctoral Dissertation of Shaanxi Province

2006    Excellent Doctoral Dissertation of Xi'an Jiaotong University

1.         Sun LJ, Guo DG^*. Study on the improvement of compressive strength and fracture toughness of calcium phosphate cement [J]. Ceramics International, Available online on 19 March 2022. (IF: 4.527, SCI District 1).

2.         Guan X, Wei T, Cai JT, Sun JL, Yu S, Guo DG^*. Poly(propylene fumarate)-based adhesives with a transformable adhesion force for suture-free fixation of soft tissue wounds [J]. ACS Applied Polymer Materials, 2022, 4(3): 1855-1866. (IF: 4.089, SCI).

3.         Yu S, Yu Z, Guo DG^*, Zhu H, Zhang MH, Han JY, Yu ZT, Cao YM, Wang G. Enhanced bioactivity and interfacial bonding strength of Ti3Zr2Sn3Mo25Nb alloy through graded porosity and surface bioactivation[J]. Journal of Materials Science & Technology, 2022, 100: 137-149. (SCI: 000743581400005, IF: 8.067, SCI District 1).

4.         Sun LJ, Li TY, Yu S, Mao MM, Guo DG^*. A novel fast-setting strontium-containing hydroxyapatite bone cement with a simple binary powder system[J]. Frontiers in Bioengineering and Biotechnology, 2021, 18(9): 643557. (IF: 5.89, SCI).

5.         Yu S, Zeng DP, Zhu H, Zhang W, Wang L, Yu ZT, Huo WT, Guo DG^*, Zhang ML, Wang G. Improvement on biocompatibility and corrosion resistance of a Ti3Zr2Sn3Mo25Nb alloy through surface nanocrystallization and micro arc oxidation[J]. Journal of Materials Science, 2022, 57(8): 5298-5314. (SCI: 000752752600003; IF: 4.22, SCI District 2).

6.         Yu S, Guo DG^*, Sun LJ、Zhu H, et al. Enhancing antibacterial performance and biocompatibility of pure titanium by a two-step electrochemical surface coating. ACS Applied Materials & Interfaces, 2020; 44433-44446. (IF=9.229, SCI District 1, SCI cited 12 times).

7.         Zhu H, Guo DG^*, Zang H, Yu S, Xu KW, et al. Engineering microstructure of hydroxyapatite by electron beam irradiation to induce controllable in vitro degradation. Applied Surface Science. 2020; 528:146583. (IF=6.707, SCI District 1).

8.         Zhu H, Guo DG^*, Zang H, et al. Krypton Ion Irradiation Enhances In Vitro Dissolution of Hydroxyapatite by Engineering Crystal Structure. Journal Material Science Technology. 2019; 18(16): 5554-5562.(IF=8.067, SCI District 1, SCI cited 9 times).

9.         Zhu H, Guo DG^*, Sun LJ, et al. Nanostructural insights into the dissolution behavior of Sr-doped hydroxyapatite. Journal of The European Ceramic Society, 2018; 18(16): 5554-5562. (IF=5.302, SCI District 1, SCI cited 23 times).

10.     Zhu H, Guo DG^*, Qi WL, et al. Development of Sr-incorporated biphasic calcium phosphate bone cement. Biomedical Materials, 2017, 12(1), 015016. (IF=3.715, SCI District 3, SCI cited 13 times).

11.     Wang L, Guo DG^*. Preparation and Performance of Poly(butyl- fumarate)-Based Material for  Potential Application in LED Encapsulation. Materials, 2017, 10(2), 149. (IF=3.623, SCI District 3, SCI cited 5 times).

12.     Wang L, Guo DG^*, Zhu H, et al. Light emitting diodes (LEDs) encapsulation of polymer composites based on poly(propylene fumarate) crosslinked with poly(propylene fumarate)-diacrylate. RSC Adv., 2015, 5, 52888-52895. (IF=3.361, SCI District 3, SCI cited 8 times). 

13.     Wang L, Guo DG^*, Wang YY, et al. 4-Hydroxy-3-methoxy- benzaldehyde series aroylhydrazones: synthesis, thermostability and antimicrobial activities. RSC Adv., 2014, 4, 58895-58901. (IF=3.361, SCI District 3, SCI cited 20 times).

14.    Sun LJ, Guo DG^*, Zhao WA, et al. Influences of Reaction Parameters and Ce Contents on Structure and Properties of Nano-scale Ce-HA Powders. Journal of Materials Science & Technology, 2014；30(8): 776-781. (IF=8.067, SCI District 1, SCI cited 4 times).

15.     Guo DG^*, Hao YZ, Li HY, et al. Influences of Sr dose on the crystal structure parameters and Sr distributions of Sr-incorporated hydroxyapatite. Journal of Biomedical Materials Research. 2013; 101B(7): 1275-1283. (IF=4.396, SCI District 2, SCI cited 17 times).

16.     Cho WK, Ankrum JA, Guo DG, et al. Microstructured Barbs on the North American Porcupine Quill Enable Easy Tissue Penetration and Difficult Removal. PNAS. 2012 , 109 (52) :21289-21294. (IF=11.205, SCI District 1, SCI cited 84 times).

17.     Zhao W, Cui CH, Bose S, Guo DG, et al. Bioinspired multivalent DNA network for capture and release of cells. PNAS. 2012. 109 (48) 19626-19631. (IF=11.205, SCI District 1, SCI cited 219 times).

18.     Sun LJ, Ni PF, Guo DG^*, et al. Synthesis and Characterization of Tb-incorporated Apatite Nano-scale Powders. Journal of Materials Science & Technology. 2012; 28(9): 773-778. (IF=8.067, SCI District 1, SCI cited 9 times).

19.    Guo DG^*, Mao MM, Qi WL, et al. The influence of Sr and H₃PO₄ concentration on the hydration of SrCaHA bone cement. Journal of Materials Science: Materials in Medicine, 2011; 22(12): 2631-2640. (IF=3.896, SCI District 3, SCI cited 9 times).

20.    Guo DG^*, Xu KW, Liu YX. Physicochemical properties and cytotoxicities of Sr-containing biphasic calcium phosphate bone scaffolds. Journal of Materials Science: Materials in Medicine, 2010; 21(6): 1927-1936. (IF=3.896, SCI District 3, SCI cited 9 times).

21.     Guo DG^*, Sun HL, Xu KW, et al. Long-term variations in mechanical properties and in vivo degradability of CPC/r-TTCP/PLGA composite. Journal of Biomedical Materials Research. 2007; 82B(2): 533-544.(IF=4.396, SCI District 2, SCI cited 23 times).

22.     Guo DG*, Xu KW, Zhao XY, et al. Development of a strontium-containing hydroxyapatite bone cement. Biomaterials. 2005; 26 (19): 4073-4083.(IF＝12.479, SCI District 1, SCI cited 177 times).

23.     Guo DG^*, Wang AH, Han Y, et al. Characterization, physicochemical properties and biocompatibility of La-incorporated apatites. Acta Biomaterialia. 2009; 5(9): 3512-3523. (IF＝8.947, SCI District 1, SCI cited 52 times).

24.     Guo DG^*, Xu KW, Sun HL, et al. Physicochemical properties of TTCP/DCPA system cement formed in physiological saline solution and its cytotoxicity. Journal of Biomedical Materials Research. 2006; 77A: 313-323. (IF=4.396, SCI District 2, SCI cited 18 times).

25.     Guo DG^*, Xu KW, Han Y, et al. The influence of the Sr doses on the in vitro biocompatibility and in vivo degradability of the single-phase Sr-incorporated HAP cement. Journal of Biomedical Materials Research. 2008; 86A(4): 947-958. (IF =4.396, SCI District 2, SCI cited 58 times).

26.     Guo DG^*, Han Y, Xu KW, et al. The in situ synthesis of biphasic calcium phosphate scaffolds with controllable compositions, structures, and adjustable properties. Journal of Biomedical Materials Research. 2009; 88A: 43-52. (IF =4.396, SCI District 2, SCI cited 46 times).

27.     Guo DG^*, Xu KW, et al. Influence of cooling modes on purity of solid-state synthesized tetracalcium phosphate. Materials Science Engineering B. 2005; 116(2): 175-181. (IF=4.051, SCI District 3, SCI cited 21 times).

1.         Guo DG, Guan X. A hydrogen bonding-enhanced photocurable hard tissue adhesive and its preparation method and method of use. China Invention Patent. ZL 202210067043.6 (Acceptance time:2022.1).

2.         Guo DG, Yang YC. An adsorption type bone apatite and its preparation method and application. China Invention Patent. ZL201911050003.5 (Authorized:2021.3).

3.         Guo DG, Zhang WL. A method based on desorption of heavy metal ions after adsorption of calcined bone apatite. China Invention Patent. ZL202011315121.7 (Acceptance time:2020.12).

4.         Guo DG, Gao Y. A multi-stage catalytic structural composite material for efficient electrolytic hydrogen precipitation in water and its preparation method. China Invention Patent. ZL202110169351.5 (Acceptance time:2021.2).

5.         Guo DG, Li XY, Sun JL. A diamond/copper composite thermally conductive material and its preparation method. China Invention Patent. ZL202011554453.0 (Acceptance time:2020.1).

6.         Guo DG, Li TY, Sun JL. A polyvinyl alcohol/gelatin composite electrostatic spinning trauma dressing and its preparation method. China Invention Patent. ZL202011554453.0 (Acceptance time:2020.12).

7.         Guo DG, Jiao QY, Sun LJ. A stirred bone cement injector and a method of stirring bone cement for injection. China Invention Patent. ZL201911050006.9 (Authorized:2020.11).

8.         Guo DG, Wei T. An adenine-enhanced biodegradable soft tissue adhesive and its preparation method and method of use. China Invention Patent. ZL201911049881.5 (Authorized:2020.10).

9.         Guo DG, Liu RX. A new type of modified bacterial cellulose heparin gelatin dressing preparation method. China Invention Patent. ZL201911049850X (Authorized:2020.11).

10.     Guo DG, Zhu H. A method for improving the degradability of hydroxyapatite by electron irradiation. China Invention Patent, ZL2019104472748 (Authorized:2020.5).

11.     Guo DG, Wang L. Application of PPF/PPF-DA light-curing material in the preparation of bone tape. China Invention Patent，ZL2016112068127 (Authorized:2020.5).

12.     Guo DG, Wang L. Environmentally friendly polybutylene glycol fumarate based material for LED encapsulation adhesive and its preparation method. China Invention Patent, ZL 2016102179496 (Authorized:2018.1).

13.     Guo DG, Wang L. A new type of environmentally friendly thermally stable LED packaging adhesive and its preparation method. China Invention Patent. ZL201410452764.4 (Authorized:2016.1).

14.     Guo DG, Qi WL, Xu KW, et al. Preparation process of strontium apatite-doped bioactive bone cement. China Invention Patent. ZL200810236536.8 (Authorized:2013.4).

15.     Guo DG, Qi WL, Xu KW, et al. Preparation process of biodegradable strontium-doped biphasic calcium phosphate bioactive bone cement. China Invention Patent. ZL200810236529.8 (Authorized:2013.1).

16.     Guo DG, Xu KW, Han Y. High strength biodegradable calcium strontium phosphate composite bone cement and its preparation method. China Invention Patent. ZL 200710017716.2 (Authorized:2010.1).

17.     Guo DG, Xu KW, Han Y, et al. Preparation process of biodegradable foam-like strontium-doped calcium phosphate ceramic bone scaffold material. China Invention Patent. ZL2005100431592 (Authorized: 2007.5).

18.     Guo DG, Xu KW, Han Y. Preparation process of strontium-containing nano calcium phosphate bioactive bone cement. China Invention Patent. ZL200410025920.5 (Authorized: 2007.1).