Construction of a Holliday Junction in Small Circular DNA Molecules for Stable Motifs and Two-Dimensional Lattices
Xin Guo, Xue-Mei Wang, Shuai Wei, and Shou-Jun Xiao. ChemBioChem,2018,19        

DNA nanotubes assembled from tensegrity triangle tiles with circular DNA scaffolds
A Noshin, M Ali, M Wang, F Ashraf, SJ Xiao. Nanoscale,2017,9,17181-17185        

Self-Assembly of DNA Nanostructures Using Three-Way Junctions on Small Circular DNAs
M Wang, A Noshin, B Kou, SJ Xiao. ChemNanoMat,2017,10,740-744        

DNA lattices constructed from two-tile DAE-O systems possessing circular central strands
M Wang, H Huang, Z Zhang, SJ Xiao. Nanoscale,2016,8,18870-18875        

In-Phase Assembly of Slim DNA Lattices with Small Circular DNA Motifs via Short Connections of 11 and 16 Base Pairs.
Meng Wang, Xin Guo, Chuan Jiang, Xuemei Wang, and Shou-Jun Xiao. CHEMBIOCHEM. 2016,17,1132-1137        

Efficient adsorption of both methyl orange and chromium from their aqueous mixtures using a quaternary ammonium salt modified chitosan magnetic composite adsorbent.
K Li, P Li, J Cai, S Xiao, H Yang, A Li.Chemosphere, 2016,154, 310-318        

Growing Embossed Nanostructures of Polymer Brushes on Wet-Etched Silicon Templated via Block Copolymers.
X Lu, Q Yan, Y Ma, X Guo, SJ Xiao. Scientific reports. 2016, 6(20291)        

Sensitive and Accurate Measurement of Interstitial Oxygen and Substitutional Carbon in Single Crystalline Silicon by Multiple Transmission-Reflection Infrared Spectroscopy (MTR-IR).
Xiao-Bin Lu, Shou-Jun Xiao.
CHINESE JOURNAL OF INORGANIC CHEMISTRY. 2016, 32(2): 351-359        

How Small DNA Minicircles Can Be Applied to Construct DNA Nanotubes?
N Afshan, H Zheng, SJ Xiao. Chinese Journal of Chemistry. 2016,3(34):326-330.                    

Preparation of chitosan-graft-polyacrylamide magnetic composite microspheres for enhanced selective removal of mercury ions from water.
Kun Li, Yawen Wang, Mu Huang, Han Yan, Hu Yang, Shoujun Xiao, Aimin Li, J. Colloid Interface Sci. 2015, 455, 261-270                    

EDC/NHS activation mechanism of polymethacrylic acid: anhydride versus NHS-ester.
Q Yan, HN Zheng, C Jiang, K Li, SJ Xiao* - RSC Adv., 2015,5, 69939-69947        

Light-driven reversible strand displacement using glycerol azobenzene inserted DNA.
Bo Kou,   Jiaxiao Zhang,   Xu Huai,  Xingguo Liang and  Shou-Jun Xiao*, RSC Advances  2015， 5, 5055-5058.             

Small Circular DNA Molecules Act as Rigid Motifs To Build DNA Nanotubes.
Hong-Ning Zheng, Min-Yu Xiao, Qin Yan, Yin-Zhou Ma, and Shou-Jun Xiao*. J. Am. Chem. Soc.2014, 136(29), 10194–10197, DOI: 10.1021/ja504050r

Rapid Removal and Separation of Iron(II) and Manganese(II) from Micropolluted Water Using Magnetic Graphene Oxide.
Han Yan, Haijiang Li, Xue Tao, Kun Li, Hu Yang, Aimin Li, Shoujun Xiao, and Rongshi Cheng  ACS Appl. Mater. Interfaces, 2014, 6, 9871-9870.

Reversible Photoregulation of DNA Hybridization and Dissociation and Potential Applications
Kou Bo， Tan Ling Hua， Wang Chang Chun，Xiao Shou Ju Progress in Chemistry, 2014, pc140524

A novel strategy to fabricate doxorubicin/bovine serum albumin/porous silicon nanocomposites with pH-triggered drug delivery for cancer therapy in vitro.
Bing Xia*, Wen-Yi Zhang, Ji-Sen Shi and Shou-Jun Xiao, J. Mater. Chem. B, 2014, 2, 5280-5286.

Periodical Assembly of Repetitive RNA Sequences Synthesized by Rolling Circle Transcription with Short DNA Staple Strands to RNA/DNA Hybrid Nanowires.
Hong-Ning Zheng , Yin-Zhou Ma and Shou-Jun Xiao*. Chem. Commun., 2014, 50, 2100-2103, DOI:10.1039/C3CC48808J.

Rolling Circle Amplification-Based DNA Origami Nanostructrures for Intracellular Delivery of Immunostimulatory Drugs.
    Xiang-Yuan Ouyang, Jiang Li, Hua-Jie Liu, Bin Zhao, Juan Yan, Yin-Zhou Ma, Shou-Jun Xiao, Shi-Ping Song, Qing Huang, Jie Chao*, Chun-Hai Fan*. Small, 2013, 9(18), 3082-3087, DOI: 10.1002/smll.201300458.

RCA Strands as Scaffolds To Create Nanoscale Shapes by a Few Staple Strands.
                Yin-Zhou Ma, Hong-Ning Zheng, Cui-E Wang, Qin Yan, Jie Chao, Chun-Hai Fan, Shou-Jun Xiao* J. Am. Chem. Soc.2013, 135, 2959-2962.                

Highly Efficient Room-Temperature Photoresponsive DNA Tethering Azobenzene Through Backbone-Inserted Glycerol via Ether Bond.
                Bo Kou, Xin Guo, Shou-Jun Xiao*, Xing-Guo Liang*. Small, 2013, 9(23), 3939–3943, DOI: 10.1002/smll.201301134.                

Fluorescence quenching in luminescent porous silicon nanoparticles for the detection of intracellular Cu²⁺.
                Bing Xia*, Wen-Yi Zhang, Ji-Sen Shi and Shou-Jun Xiao, Analyst, 2013, 138, 3629-3632.                

High hydrosilylation efficiency of porous silicon SiHx species produced by Pt-assisted chemical etching for biochip fabrication.
                Min-Yu Xiao, Huan-Mei Han, Shou-Jun Xiao*, Science China Chemistry, 2013, 56(8), 1152-1163.                

Engineered Stealth Porous Silicon Nanoparticles via Surface Encapsulation of Bovine Serum Albumin for Prolonging Blood Circulation in Vivo.
                Bing Xia*, Wenyi Zhang, Jisen Shi, and Shou-jun Xiao, ACS Appl. Mater. Interfaces, 2013, 5 (22), 11718–11724

DNA microarray fabricated on poly(acrylic acid) brushes-coated porous silicon by in situ rolling circle amplification.
                Cui-E Wang, Xue-Mei Jia, Chuan Jiang, Guang-Nan Zhuang, Qin Yan and Shou-Jun Xiao*, Analyst, 2012, 137, 4539-4545.                

Tunable cohesion and water lubrication of PEG-g-PMHS-c-PMVS copolymer membranes.
                Yan Ding, Zhan-Shi Jiao, Dong-Jie Guo*, Shou-Jun Xiao, Wei Tan, Zhen-Dong Dai, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2012, 395, 199-206.                

Different EDC/NHS Activation Mechanisms between PAA and PMAA Brushes and the Following Amidation Reactions.
                Cui-E Wang, Qin Yan, Hong-Bo Liu, Xiao-Hui Zhou, and Shou-Jun Xiao*. Langmuir, 2011, 27(19), 12058–12068.            

Covalently derivatized NTA microarrays on porous silicon for multi-mode detection of His-tagged proteins.
                Jia Pei, Yan-Chun Tang, Ning Xu, Wei Lu, Shou-Jun Xiao*, Jian-Ning Liu*, Science China Chemistry, 2011, 54(3), 526-535.                

Construction of multiple generation nitriloacetates from poly(PEGMA) brushes on planar silicon surface for enhancement of protein loading.
                Xiang Liu, Hong-Bo Liu, Peng-Feng Guo, Shou-Jun Xiao*, Physica Status Solidi (A) Applications and Materials, 2011, 208(6), 1462-1470.                

Saccharide- and temperature-responsive polymer brushes grown on gold nanoshells for controlled release of diols.
                Hong-Bo Liu, Qin Yan, Cui-E Wang, Xiang Liu, Chong Wang, Xiao-Hui Zhou, Shou-Jun Xiao*, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2011, 386(1-3), 131-134.                

Improvement of the durability of porous silicon through functionalisation for biomedical applications.
                Huan-Mei Han, Hong-Fang Li, Shou-Jun Xiao*, Thin Solid Films, 2011, 519(10), 3325-3333.                

Constructing polyamidoamine dendrons from poly(poly(ethylene glycol) monomethacrylate) brushes.
                Xiang Liu, Hong-NingZheng, Qin Yan, Cui-E Wang, Yin-Zhou Ma, Chun-Yan Tang, Shou-Jun Xiao*, Surface Science, 2011, 605(11-12), 1106-1113.                

Microwave irradiated click reactions on silicon surfaces via derivertization of covalently grafted poly(PEGMA) brushes.
                Xiang Liu, Hong-Ning Zheng, Yin-Zhou Ma, Qin Yan, Shou-Jun Xiao*, Journal of Colloid and Interface Science, 2011, 358(1), 116-122.                

On-Chip Separation and MALDI-TOF MS Analysis of His-tagged Protein with NiⅡ-NTA Derivatized Ag Nanoparticles/Porous Silicon Chip.
                Hong Yan, Chong Wang, Xiao-Hui Zhou, Shou-Jun Xiao*, Chinese Journal of Inorganic Chemistry, 2011, 27(8), 1642-1648.                

Facile Fabrication of Silver Nanoparticulate Films on Porous Silicon for Surface-Enhanced Infrared Absorption Spectroscopy.
                Xiao-Hui Zhou, Yan Hong, Shou-Jun, Xiao*, Chinese Journal of Inorganic Chemistry, 2011, 27(11), 2291-2297.                

Optimization of Metal-Assisted Etchant Components for Fabrication of Porous Silicon.
                Chong Wang, Xiao-Hui Zhou, Huan-Mei Han, Shou-Jun Xiao*, Chinese Journal of Inorganic Chemistry, 2011, 27(12): 2332-2338.                

The emerging field of RNA nanotechnology.
                Shou-Jun Xiao*, Chemistry of Life, 2011, 31(2), 173-183.                

Noncovalent antibody immobilization on porous silicon combined with miniaturized Solid-Phase Extraction (SPE) for array based immunoMALDI assays.
                Hong Yan, Asilah Ahmad Tajudin, Martin Bengtsson, Shou-Jun Xiao, Thomas Laurell, Simon Ekström*, Analytical Chemistry, 2011, 83, 4942–4948.                

OLIGONUCLEOTIDE-HIRULOG18 CONJUGATED BY CLICK CHEMISTRY AND ITS INHIBITION ON THROMBIN.
                Jie Chao, Jian-Ning Liu，Shou-Jun Xiao* and Yan-Chun Tang, International Journal of Chemical Research, 2011, 3(2), 49-55.                

A proximity-based programmable DNA nanoscale assembly line.
                Hong-Zhou Gu, Jie Chao, Shou-Jun Xiao & Nadrian C. Seeman*, Nature,2010, 465, 202–205.                

Fluorescence Enhancement by Surface Plasmon Polaritons on Metallic Nanohole Arrays.
                Peng-Feng Guo, Shan Wu, Qin-Jun Ren, Jian Lu, Zhang-Hai Chen, Shou-Jun Xiao*, Yong-Yuan Zhu*, J. Phys. Chem. Lett.2010, 1, 315–318.                

Multiple Transmission-Reflection Infrared Spectroscopy (MTR-IR) for Arachidic Acid LB Films on Hydrophilic and Hydrophobic Silicon Surfaces.
                Peng-Feng Guo, Hong-Bo Liu, Xiang Liu, Hong-Fang Li, Wen-Yi Huang, Shou-Jun Xiao*, J. Phys. Chem. C, 2010, 114, 333–341.                

Enhanced protein loading on a planar Si(111)–H surface with second generation NTA.
                Xiang Liu, Huan-Mei Han, Hong-Bo Liu, Shou-jun Xiao*, Surface Science, 2010, 604, 1315–1319.                

Biological functionalization and patterning of porous silicon prepared by Pt-assisted chemical etching.
                Hong-Fang Li, Huan-Mei Han, Ya-Guang Wu, Shou-Jun Xiao*, Applied Surface Science, 2010, 256, 4048-4051.                

5, 5-Divinyl-2, 2-bipyridine: a Possible New Prototype of Fluorescent Probe for Sensing Zn²⁺.
                Huan-Mei Han, Ya-Guang Wu, Shou-Jun Xiao, Chinese Journal of Inorganic Chemistry, 2010, 26(8), 1426-1430.                

Biochip Development.
                Shou-Jun Xiao*, Ling Chen, Ning Xu, Progress in Chemistry, 2009, 21(11), 2397-2410.(China)                

Dynamic patterning programmed by DNA tiles captured on a DNA origami substrate.
                Hong-Zhou Gu, Jie Chao, Shou-Jun Xiao & Nadrian C. Seeman*, Nature Nanotechnology, 2009, 4, 245-248.                

Gel-pad microarrays templated by patterned porous silicon for dual-mode detection of proteins.
                Ling Chen, Zeng-Tai Chen, Jing Wang, Shou-Jun Xiao*, Zu-Hong Lu , Zhong-Ze Gu, Lin Kang, Jian Chen, Pei-Heng Wu, Yan-Chun Tang, and Jian-Ning Liu*, Lab on a Chip, 2009, 9, 756-760.                

Click-Chemistry-Conjugated Oligo-Angiomax in the 2-D DNA Lattice and its Interaction with Thrombin.
Jie Chao, Wen-Yi Huang, Jing Wang, Shou-Jun Xiao*, Yan-Chun Tang, Jian-Ning Liu*, Biomacromolecules, 2009, 10(4), 877–883.                

Nonfouling Polypeptide Brushes via Surface-initiated Polymerization of Nε-oligo(ethylene glycol)succinate-L-lysine N-carboxyanhydride.
                Jing Wang, Matthew I. Gibson, Raphaël Barbey, Shou-Jun Xiao, Harm-Anton Klok*, Macromolecular rapid communications, 2009, 30(9-10), 845-850.                

Macroporous silicon templated from silicon nanocrystallite and functionalized SiH reactive group for grafting organic monolayer.
                    Dong-Jie Guo*, Jing Wang, Wei Tan, Shou-Jun Xiao, Zhen-Dong Dai, Journal of Colloid and Interface Science, 2009, 336(2), 723-729.                

Structural evolution of self-assembled alkanephosphate monolayers on TiO₂(cover story).
                 Hong-Bo Liu, Nagaiyanallur V. Venkataraman, Tobias E. Bauert, Marcus Textor, Shou-Jun Xiao, CHEMPHYSCHEM, 2008, 9, 1979-1981.                

Multiple Transmission-Reflection Infrared Spectroscopy for High-Sensitivity Measurement of Molecular Monolayers on Silicon Surfaces.
                 Hong-Bo Liu, Nagaiyanallur V. Venkataraman, Tobias E. Bauert, Marcus Textor, Shou-Jun Xiao*, JOURNAL OF PHYSICAL CHEMISTRY A, 2008, 112, 12372-12377.                

Porous silicon affinity chips for biomarker detection by MALDI-TOF-MS.
                 Ya-Qing Chen, Feng Bi, Shi-Quan Wang, Shou-Jun Xiao*, Jian-Ning Liu*, JOURNAL OF CHROMATOGRAPHY B-ANALYTICAL TECHNOLOGIES IN THE BIOMEDICAL AND LIFE SCIENCES, 2008, 875, 502-508.                 

DNA-templated Platinum Nanocluster Deposition.
                 Jie Chao, Xiang Liu, Hong-Bo Liu, Shou-Jun Xiao*, Inorganic Chemistry (China), 2007, 8, 1481-1484.                 

Ferrocenyl Self-assembled Monolayer on Silicon Surfaces: Preparation and Current-Voltage Measurement.
                 Jia Pei,Bing Xia,Jie Chao, Hai-Tao Wang, Hong-Bo Liu, Zhong-Dang Xiao, Shou-Jun Xiao*, Inorganic Chemistry (China), 2007, 9, 1505-1514.                 

Poly-benzyl domains grown on porous silicon and their I–V rectification.
                 Jie Chao, Huan-Mei Han, Bing Xia, Long Ba, Hong-Bo Liu and Shou-Jun Xiao*, Applied Surface Science,2007, 23, 9130-9136.                 

 Preparation of organic monolayers with azide on porous silicon via Si-N bonds.
                 Jing Wang, Dong-Jie Guo, Bing Xia, Jie Chao, Shou-Jun Xiao*, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2007, 305(1), 66-75.                 

Metal Acetylacetonate Domains Grown on H-Terminated Porous Silicon at Room Temperature and Their Specific I-V Behavior.
                 Jie Chao, Hai-Tao Wang, Bing Xia,Hong-Bo Liu, Zhong-Dang Xiao, and Shou-Jun Xiao*, J. Phy. Chem. B, 2006, 110, 24565-24570.                 

Grazing Angle Mirror- Backed Reflection (GMBR) for Infrared Analysis of Monolayers on Silicon.
                Hong-Bo Liu, Shou-Jun Xiao*, Ya-Qing Chen, Jie Chao, Jing Wang, Yue Wang, Yi Pan, Xiao-Zeng You, and Zhong-Ze Gu, J. Phy. Chem. B, 2006, 110, 17702–17705.                 

Biofunctionalisation of porous silicon (PS) surfaces by using homobifunctional cross-linkers.
                 Bing Xia, Shou-Jun Xiao*, Dong-Jie Guo, Jing Wang, Jie Chao, Hong-Bo Liu, Jia Pei, Ya-Qing Chen, Yan-Chun Tang and Jian-Ning Liu*,  J. Mater. Chem., 2006, 16, 570-578.                  

Grafting organic and biomolecules on H-terminated porous silicon from a diazirine.
                  Shuai Wei, Jing Wang, Dong-Jie Guo, Hong-Bo Liu, Ya-Qing Chen, Jie Chao, Shou-Jun Xiao*, Chem. Lett., 2006, 1172-1173.                  

Reaction of porous silicon with both end-functionalized organic compounds bearing α-bromo and ω-carboxy groups for immobilization of biomolecules.
                  Dong-Jie Guo, Shou-Jun Xiao*, Bing Xia, Shuai-Wei, Jia Pei, Yi Pan, Xiao-Zeng You, Zhong-Ze Gu, Zuhong Lu, J. Phy. Chem. B, 2005, 109(43), 20620-20628.                 

Stability improvement of porous silicon surface structures by grafting polydimethylsiloxane polymer monolayers.
                  Bing Xia, Shou-Jun Xiao*, Jing Wang, Dong-Jie Guo, Thin Solid Films, 2005, 474, 306-309.                  

A simple method for covalent immobilization of proteins on porous silicon surface.
                  Bing Xia, Jun Li, Shou-Jun Xiao*, Dong-Jie Guo, Jing Wang, Yi Pan, and Xiao-Zeng You. Chemistry Letter, 2005, 34, 226-227.                  

Surface reactions of 4-aminothiophenol with heterobifunctional crosslinkers bearing both succinimidyl ester and maleimide for biomolecular immobilization.
                  Shou-Jun Xiao*, Marco Wieland, Samuel Brunner, Journal of Colloid and Interface Science, 2005, 290, 172–183.                  

Assembly of fullerene arrays templated by DNA scaffolds.
                  Cheng Song, Ya-Qing Chen, Shou-Jun Xiao*, Long Ba, Zhong-Ze Gu, Yi Pan, and Xiao-Zeng You, CHEMISTRY OF MATERIALS, 2005, 17, 6521-6524.                   

Diffusion of hydrosilanes from the control layer to the vinylsilane-rich flow membrane during the fabrication of micro-fluidic chips.
                  Dong-Jie Guo, Shou-Jun Xiao*, Hong-Bo Liu, Jie Chao, Bing Xia, Jing Wang, Jia Pei, Yi Pan,Zhong-Ze Gu, Xiao-Zeng You, Langmuir, 2005, 21(23), 10487-10491.                  

Reactions of surface amines with heterobifunctional crosslinkers bearing both succinimidyl ester and maleimide for grafting biomolecules.
                  Shou-Jun Xiao*, Samuel Brunner, Marco Wieland, J. Phy. Chem. B, 2004, 108, 16508-16517.                

Poly[[terachlorogold(III)potassium(I)(AuÐK)]-l-4,40-bipyridine].
                  Cheng Song, Yi-Zhi Li, Ya-Qing Chen, Shou-Jun Xiao* and Xiao-Zeng You,Acta Cryst. E, 2004, 60, 1741－1743.                  

Selfassembly of Metallic Nanoparticle Arrays by DNA Scaffolding.
                  Shou-Jun Xiao, Fu-Rong Liu, Abbey E. Rosen, James F. Hainfeld, Nadrian C. Seeman, Karin Musier-Forsyth, Richard A. Kiehl*, J. Nanoparticle Res., 2002, 4, 313-317, cited over 80 times.                  

Characterization and properties of titanium implant surfaces.
                  C. Sittig, M. Wieland, Shou-Jun Xiao, and M. Textor, Proceedings, Synos Tagung Munsterlingen, 1999.                  

Covalent Attachment of Cell-Adhesive,(Arg-Gly-Asp)-Containing Peptides to Titanium Surfaces.
                  Shou-Jun Xiao, Marcus Textor, and Nicholas D. Spencer*, Langmuir, 1998, 14, 5507-5516, cited over 140 times.                  

Immobilization of the cell-adhesive peptide Ary-Gly-Asp-Cys (RGDC) on titanium surfaces by covalent chemical attachment.
                  S.J. Xiao, M. Textor, N.D. Spencer*, M. Wieland, B. Keller, H. Sigrist, J. Mater.: Mater. Med.1997, 8867-8872.                  

Amphotropic behaviour of a series of single-chain monoaza crown ethers.
                      Xiang-Ping Qian, Zi-Hou Tai*, Shou-Jun Xiao, Zu-Hong Lu, Yu Wei, Thin Solid Films, 1996, 285, 301-303.                  

Molecular packing in LB films of a new porphyrin investigated by atomic force microscopy.
                  Xiang-Ping Qian, Zi-Hou Tai*, Xing-Zhong Sun, Shou-Jun Xiao, Mai-Ming Wu, Zu-Hong Lu, Yu Wei, Thin Solid Films, 1996, 285, 432-435.                  

Polymorphism of domains in phase-separated mixed monolayer films investigated by atomic force microscopy.
                  Hai-Ming Wu, Shou-Jun Xiao and Yu Wei, Chinese Science Bulletin, 1996, 41(2), 127-130.                  

Novel microstructures prepared by the mixed Langmuir-Blodgett technique and identified by atomic force microscopy.
                  Hai-Ming Wu*, Shou-Jun Xiao, Japanese Journal of Applied Physics (Part 2) Letters, 1996, 35(2A), L161-L163,.                  

Novel domain structures in the mixed monolayers identified by atomic force microscopy.
                  Hai-Ming Wu, Shou-Jun Xiao, Zu-Hong Lu, Yu Wei, Chemistry Letters., 1995, 5, 403-404.                  

Morphologies of phase-separated monolayers investigated by atomic force microscopy.
                  Shou-Jun Xiao*, Hai-Ming Wu, Xiao-Min Yang, Nai-Hong Li, Yu Wei, Xing-Zhong Sun and Zi-Hou Tai, Thin Solid Films, 1995, 256, 210-214.                  

Polymorphism of domains in phase-separated languir-blodgett films.
                  Hai-Ming Wu, Shou-Jun Xiao, Zi-Hou Tai, Yu Wei, Physics Letters A.1995 199(1-2), 119-122.                  

Phase-separated structures in binary mixed monolayers investigated by atomic force microscopy.
                  Hai-Ming Wu, Shou-Jun Xiao, Zu-Hong Lu and Yu Wei, Chinese Science Bulletin , 1995, 40(23), 1963-1967.                  

Investigation of binary mixed monolayer of phospholipid and porphyrin by atomic force microscopy.
                  Xiao-Min Yang, Shou-Jun Xiao, Zu-Hong Lu, Yu Wei, Science in China B, 1995, 25(3), 283-288, (in Chinese).                  

Investigation of phase behaviour and domain structure of phospholipid monolayers by atomic force microscopy.
                  Xiao-Min Yang, Dong Xiao, Shou-Jun Xiao, Yu Wei, Chinese Science Bulletin, 1994, 39(24), 2076-2079.                  

Atomic force microscopy studies of domain structures in phase-separated monolayers.
                  Shou-Jun Xiao*, Hai-Ming Wu, Xiao-Min Yang, Yu Wei, Xing-Zhong Sun and Zi-Hou Tai, Physics Letters A, 1994, 193, 289.                  

Observation of phase separation of phospholipid in mixed monolayer Langmuir-Blodgett films by atomic force microscopy.
                  Xiao-Min Yang*, Shou-Jun Xiao, Dong Xiao and Yu Wei, Surface Science, 1994, 316, L1110-1114.                  

Observation of chiral domain morphology of phosolipid in monolayer Langmuir-Blodgett films by atomic force microscopy.
                  Xiao-Min Yang*, Dong Xiao, Shou-Jun Xiao, and Yu Wei, Physics Letters A, 1994, 193, 195-199.                  

Domain structures of phospholipid monolayer Langmuir-Blodgett films determined by atomic force microscopy.
                  Xiao-Min Yang, Dong Xiao, Shou-Jun Xiao and Yu Wei, Applied Physics A., 1994, 59, 139-143.                  

Molecular assemblies of diazafluorenone shiff-base amphiphiles.
                  Zi-Hou Tai*, Xiang-Ping Qian, Juan Zou, Shou-Jun Xiao, Fu-Sheng Zhang, Molecular Engineering, 1994, 3, 293-299.                  

Dendritic patterns of two-dimensional silver films formed with a series of amphiphilic schiff bases of diazafluorenone.
                  Zi-Hou Tai*, Gen-Cheng Zhang , Xiang-Ping Qian , Shou-Jun Xiao , Zu-Hong Lu, Yu Wei, Langmuir, 1993, 9, 1601-1603,.                  

Photochromism of spiropyran on supermolecular assemblies.
                  Shou-Jun Xiao, Zu-Hong Lu, Yi-Jun Miao, Zhao-Hui Liu, Rong Zhu, Yu Wei, Thin Solid Films, 1992, 210/211, 784-786.                  

Langmuir-Blodgett resists of diazonaphthoquinone novolac resin produced by a new continuous horizontal deposition method.
                  Zu-Hong Lu, Shou-Jun Xiao, Yu Wei, Thin Solid Films, 1992,  207, 484-486.                  

Ultrathin conductive films prepared by pyrosis of photosensitive polyimide Langmuir-Blodgett films.
                  Zu-Hong Lu, Ji-Yu Fang, Lin Wang, Shou-Jun Xiao, Yu Wei, Solid State Commuications, 1992, 82, 711-713.                  

Studies of generation of ultrafine semiconductor particles in polydiacetylene Langmuir-Blodgett films accompanied with colour transition.
                  Rong Zhu, Yu Wei, Chun-Wei Yuan, Shou-Jun Xiao, Zu-Hong Lu, Solid State Communications, 1992, 84, 449-451.                  

Structural and optical characterization of Langmuir-Blodgett films with alternating bilayers of hemicynine dye and cadmium stearate.
                  Ji-Yu Fang, Shou-Jun Xiao, and Yu Wei, Solid State Communications , 1991, 79, 985-987.                  

Diels-Alder reaction of alantolactone and isoalantolactone with conjugated dienes.
                  Yun-Yi Jia, Shou-Jun Xiao, Tin-Wei Dong, Acta Chimica Sinica (HUA XUE XUE BAO), 1991 , 49, 610-613(in Chinese).                  

Application of carbene reactive intermediates in organic synthesis. Synthesis of analog of verbenol.
                   Jia-Jun Wu, Feng-Gang Tao, Shou-Jun Xiao, Shihui Wu YOU JI HUA XUE, 1986, 6, 456-459(in Chinese).                  

Biochemical modification of titanium surfaces.
                Shou-Jun Xiao*, G.Kenausis, M. Textor,Chapter 13 in 'Titanium in Medicine'; Brunette, D. M., Tengvall, P., Textor, M., Thomsen, P., Eds.; Springer: Berlin, Heidelberg, New York, 2001, 417-456.                

红外光谱仪的多次透射－反射测量附件.
                肖守军，刘洪波，Tobias Bauert，发明专利，200610097859.4，2006.11.06                

一种表面永久亲水性的硅橡胶.
                肖守军，郭东杰，发明专利，CN200410014981.1，20045.24                

Polymer Surface Modifications.
                Jiang Huang, Shou-Jun Xiao, Marc A Unger Patent of US, US 020174-003810US, April 15, 2002

Apparatus with inverse conical container for preparation of monomolecular films.
                Rong Zhu, Yu Wei, Shou-Jun Xiao,Patent of Invention (China), CN 1081933 A, Feb. 16, 1994, 8pp.                

Apparatus with lifting-type inverse conical inner container in water tank for preparation of monomolecular films.
                Rong Zhu, Yu Wei, Shou-Jun Xiao, Patent of Invention (China), CN 1081932 A, Feb. 16, 1994, 7pp.                

The Programmable Design and Self-assembly of two-Dimensional DNA Crystals and Application in the Bio-Nanotechnology.
                宋琤，2002~2005

硅表面单分子膜的电子传递和生物传感.
                夏兵，2003~2006

硅材料表面蛋白质分子的固定和检测.
                郭东杰，2003~2006

基质辅助激光解吸离子时间飞行质谱（MALDI-TOF-MS）在生物分子检测中的应用.
                陈亚清，2002~2007

Multiple Transmission-Reflection  Infrared Spectroscopy (MTR-IR) for highly-sensitive detection of molecular monolayers on silicon surface.
                刘洪波，2004~2008

基于原子力显微镜研究的硅表面有机薄膜和DNA纳米结构.
                晁洁，2003~2008

表界面单分子膜和聚合物刷的制备及生物传感.
                王晶，2003~2009

灵敏的表面单分子膜光谱表征技术.
                郭鹏峰，2006~2009

基于二维DNA支架的生物分子固定和检测.
                黄文艺，2006~2009

硅表面单分子膜的电子传递和生物传感.
                韩焕美，2005~2010

平面硅Si(111)-H表面共价偶联的单分子膜和高分子刷的制备及其化学转换用于固定生物分子.
               刘祥，2007.9~2010.12

多孔硅表面增强亲和捕获蛋白及激光解析电离质谱检测.
                颜红，2006.9~2011.6

多孔硅DNA芯片制备及具有重复片段的DNA长链纳米自组装研究.
                王翠娥，2009.9~2012.6

光活性基因Diazirine和Azide的化合物对多孔硅表面的修饰及蛋白质的固定.
                魏帅，2005.5

Multiple Transmission-Reflection FTIR Spectroscopy fo Investigation of Silicon Based Monolayers.
                Tobias Bauert, 2006

以二维DNA晶体为模板生长新型高分子纳米结构.
                刘小鹏，2006.5

硅表面蛋白质微阵列的形成与检测.
                陈增太，2008.5

多孔硅表面的多种修饰及蛋白质的固定和检测.
                裴佳，2008.1

多孔硅表面的多种修饰及蛋白质的固定和检测.
                陈凌，2009.5

多孔硅材料的多功能化应用.
                许宁，2009.5

多孔硅的稳定及图案化和生物功能化.
                李红芳，2010.5

新型金属有机骨架材料的合成与分析.
                卜飞，2010.5

金属辅助法制备多孔硅及其生物功能化.
                王冲，2011.5

多孔硅上银纳米粒子薄膜的制备及其在表面增强红外光谱中的应用.
                周小会，2011.5

硅表面图案化银微纳米结构的制备及其表面增强拉曼性质的研究.
                贾雪梅，2012.5

多孔硅表面的修饰及蛋白质的固定.
                裴佳，2005.6

多孔硅的制备及其表面蛋白质的固定.
                周祺，2006.6

人工DNA的合成与纳米技术及DNA探针.
                郭鑫，2011.6

晶硅表面氢化反应制备高分子刷.
                林子奇，2013.6