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62.One-Pot Synthesis of Porous Hematite Hollow Microspheres and Their Application in Water Treatment
 

62.One-Pot Synthesis of Porous Hematite Hollow Microspheres and Their Application in Water Treatment

61.Fe(2)TiO(5)/alpha-Fe(2)O(3) nanocomposite hollow spheres with enhanced gas-sensing properties
 

61.Fe(2)TiO(5)/alpha-Fe(2)O(3) nanocomposite hollow spheres with enhanced gas-sensing properties

60.Hydrothermal synthesis and structure of three novel open-framework lanthanide sulfate–oxalates
 

60.Hydrothermal synthesis and structure of three novel open-framework lanthanide sulfate–oxalates

59.Ordered Arrays of Bead-Chain-like In2O3 Nanorods and Their Enhanced Sensing Performance for Formaldehyde
 

59.Ordered Arrays of Bead-Chain-like In2O3 Nanorods and Their Enhanced Sensing Performance for Formaldehyde

58.Oxalate-induced hydrothermal synthesis of CePO4:Tb nanowires with enhanced photoluminescence
 

58.Oxalate-induced hydrothermal synthesis of CePO4:Tb nanowires with enhanced photoluminescence

57.Template-free hydrothermal synthesis of hollow hematite microspheres
 

57.Template-free hydrothermal synthesis of hollow hematite microspheres

56.Layered nanostructures of polyaniline with graphene oxide as the dopant and template
 

56.Layered nanostructures of polyaniline with graphene oxide as the dopant and template

55.Preparation and crystal structure of [enH(2)](0.5)[Ho(HPO4)(SO4)(H2O)] (en; ethylenediamine)
 

55.Preparation and crystal structure of [enH(2)](0.5)[Ho(HPO4)(SO4)(H2O)] (en; ethylenediamine)

54.Two-Dimensional Graphene Bridges Enhanced Photoinduced Charge Transport in Dye-Sensitized Solar Cells

Nailiang Yang, Jin Zhai*, Dan Wang*, Yongsheng Chen, Lei Jiang, ACS Nano, 2010, 4(2), 887-894.


Highlighted by

Science Bulletin, 2017, 62,  234-235.

J. Phys. Chem. Lett, 2011, 2 (3), 270–271.


54.Two-Dimensional Graphene Bridges Enhanced Photoinduced Charge Transport in Dye-Sensitized Solar Cells

53.Morphology manipulation of alpha-Fe2O3 in the mixed solvent system
 

53.Morphology manipulation of alpha-Fe2O3 in the mixed solvent system

52.Controlled Synthesis of Terbium Orthophosphate Spindle-Like Hierarchical Nanostructures with Improved Photoluminescence
 

52.Controlled Synthesis of Terbium Orthophosphate Spindle-Like Hierarchical Nanostructures with Improved Photoluminescence

51.Direct hydrothermal synthesis of single-crystalline hematite nanorods assisted by 1,2-propanediamine
 

51.Direct hydrothermal synthesis of single-crystalline hematite nanorods assisted by 1,2-propanediamine

50.Synthesis and Characterization of Gold Nanorods by a Seeding Growth Method
 

50.Synthesis and Characterization of Gold Nanorods by a Seeding Growth Method

49.Morphology-Control Synthesis and Photoluminescence Characterization of Cerium Compounds in Phosphoric Acid System
 

49.Morphology-Control Synthesis and Photoluminescence Characterization of Cerium Compounds in Phosphoric Acid System

48.Two Step Preparation of Cerium Oxide Nanoparticles Doped with La
 

48.Two Step Preparation of Cerium Oxide Nanoparticles Doped with La

47.Preparation of SiO_2 Aerogels Heat Insulation Composites Reinforced by Aramid Fiber
 

47.Preparation of SiO_2 Aerogels Heat Insulation Composites Reinforced by Aramid Fiber

46.Template-free Synthesis of a Novel 3D Cage-like Nanostructured alpha-Fe2O3
 

46.Template-free Synthesis of a Novel 3D Cage-like Nanostructured alpha-Fe2O3

45.Synthesis of Ordered Cubic Periodic Mesoporous Silica with High Hydrothermal Stability
 

45.Synthesis of Ordered Cubic Periodic Mesoporous Silica with High Hydrothermal Stability

44.Synthesis of hematite particles with various shapes by a simple hydrothermal reaction
 

44.Synthesis of hematite particles with various shapes by a simple hydrothermal reaction

43.General Synthesis of Homogeneous Hollow Core-Shell Ferrite Microspheres
Zhenmin Li, Xiaoyong Lai, Hong Wang, Dan Mao, Chaojian Xing, Dan Wang*, Journal of Physical Chemistry C, 2009, 113 (7), 2792-2797.

43.General Synthesis of Homogeneous Hollow Core-Shell Ferrite Microspheres

42.Preparation and potocatalytic property of porous TiO2 film with net-like framework
 

42.Preparation and potocatalytic property of porous TiO2 film with net-like framework

41.Low-temperature hydrothermal synthesis and structure control of nano-sized CePO4
 

41.Low-temperature hydrothermal synthesis and structure control of nano-sized CePO4

40.Removal of Cd2+ from aqueous solution with carbon modified aluminum-pillared montmorillonite
 

40.Removal of Cd2+ from aqueous solution with carbon modified aluminum-pillared montmorillonite

39.Removal of Cd2+ from aqueous solutions by hydroxyapatite

Ronghai Zhu, Ranbo Yu, Jianxi Yao, Dan Mao, Chaojian Xing, DanWang.

Catalysis Today, 2008, 139, 1–2, 94-99.

https://www.sciencedirect.com/science/article/abs/pii/S0920586108003854?via%3Dihub

39.Removal of Cd2+ from aqueous solutions by hydroxyapatite

38.Hierarchical Three-Dimensional Cobalt Phosphate Microarchitectures: Large-Scale Solvothermal Synthesis, Characterization, and Magnetic and Microwave Absorption Properties
 

38.Hierarchical Three-Dimensional Cobalt Phosphate Microarchitectures: Large-Scale Solvothermal Synthesis, Characterization, and Magnetic and Microwave Absorption Properties

37.Mesoporous indium oxide synthesized via a nanocasting route
 

37.Mesoporous indium oxide synthesized via a nanocasting route

36.Morphology control of hydroxyapatite through hydrothermal process
 

36.Morphology control of hydroxyapatite through hydrothermal process

35.Preparation and electrode performance of ferrihydrites for rechargeable lithium batteries
 

35.Preparation and electrode performance of ferrihydrites for rechargeable lithium batteries

34.Synthesis and property of three novel organically templated layered cerium materials
 

34.Synthesis and property of three novel organically templated layered cerium materials

33.Effect of organic solvents on the preparation of silica microspheres by hydrolysis of TEOS
 

33.Effect of organic solvents on the preparation of silica microspheres by hydrolysis of TEOS

32.Size and morphology control in the synthesis of SBA-15

Dan Wang

RECENT PROGRESS IN MESOSTRUCTURED MATERIALS, PROCEEDINGS OF THE 5TH INTERNATIONAL MESOSTRUCTURED MATERIALS SYMPOSIUM - IMMS2006, 2007

https://publons.com/publon/17783253/

32.Size and morphology control in the synthesis of SBA-15

31.Preparation of plank-like BaTiO3 by hydrothermal soft chemical process from layered titanate precursors

Long Zhou;  R. Yu;  K. Zhu;  J. Yao;  X. Xing;  D. Wang;  X. Wu

HIGH-PERFORMANCE CERAMICS IV, 2007

https://publons.com/publon/17783254/

31.Preparation of plank-like BaTiO3 by hydrothermal soft chemical process from layered titanate precursors

30.Synthesis of porous TiO(2) monolith by organic membrane template

Yao Jianxi, Wang Dan

Studies in Surface Science and Catalysis, 2007.

https://publons.com/publon/27112074/

30.Synthesis of porous TiO(2) monolith by organic membrane template

29.An Effective Route for Porous Ferrihydrite Preparation from Layered Double Hydroxide Precursors
 

29.An Effective Route for Porous Ferrihydrite Preparation from Layered Double Hydroxide Precursors

28.Solvothermal synthesis and characterization of CdS nanowires/PVA composite films
 

28.Solvothermal synthesis and characterization of CdS nanowires/PVA composite films

27.Single crystal growth of ZrW2O8 by hydrothermal route.
 

27.Single crystal growth of ZrW2O8 by hydrothermal route.

26.A novel organically templated hybrid open-framework manganese
 

26.A novel organically templated hybrid open-framework manganese

25.High-Pressure Synthesis and Structure of SrCo6O11: Pillared Kagome´ Lattice System with a 1/3 Magnetization Plateau
 

25.High-Pressure Synthesis and Structure of SrCo6O11: Pillared Kagome´ Lattice System with a 1/3 Magnetization Plateau

24.Hydrothermal synthesis and crystal structure of a novel 2-D polymeric manganese (II) complex with mixed ligands
 

24.Hydrothermal synthesis and crystal structure of a novel 2-D polymeric manganese (II) complex with mixed ligands

23.In Situ Ligand Synthesis for a Novel 1-D Mn Coordination Polymer
 

23.In Situ Ligand Synthesis for a Novel 1-D Mn Coordination Polymer

22.Organic solvent control of inorganic structure: a one-dimensional zirconium phosphate inorganic polymer
 

22.Organic solvent control of inorganic structure: a one-dimensional zirconium phosphate inorganic polymer

21.Self-assembly of a novel manganiferous coordination polymer with mixed ligands
 

21.Self-assembly of a novel manganiferous coordination polymer with mixed ligands

20.Preparation of palladium membrane over porous stainless steel tube modified with zirconium oxide
Dan Wang, Jianhua Tong ,  Hengyong Xu, Yasuyuki Matsumura*,  Catalysis Today,2004 ,93–95,689-693 

20.Preparation of palladium membrane over porous stainless steel tube modified with zirconium oxide

19.Photocatalysis property of needle-like TiO2 prepared from a novel titanium glycolate precursor
 

19.Photocatalysis property of needle-like TiO2 prepared from a novel titanium glycolate precursor

18.Novel Complicated Titanate Consisted of Three Sublattices
 

18.Novel Complicated Titanate Consisted of Three Sublattices

17.Preparation of Thin Palladium Membrane on Porous Stainless Stell Support Modified with Cerium Hydroxide
 

17.Preparation of Thin Palladium Membrane on Porous Stainless Stell Support Modified with Cerium Hydroxide

16.A novel open-framework cerium phosphate fluoride: (NH4)[(CeF2)-F-IV(PO4)]
 

16.A novel open-framework cerium phosphate fluoride: (NH4)[(CeF2)-F-IV(PO4)]

15.Soft chemical properties of layered zirconium hydroxy phosphate
 

15.Soft chemical properties of layered zirconium hydroxy phosphate

14.Synthesis and characterization of the first organically templated layered cerium phosphate fluoride: [(CH2)(2)(NH3)(2)](0.5)[(CeF3)-F-IV(HPO4)]
 

14.Synthesis and characterization of the first organically templated layered cerium phosphate fluoride: [(CH2)(2)(NH3)(2)](0.5)[(CeF3)-F-IV(HPO4)]

13.An effective preparation route to a giant magnetoresistance material: Hydrothermal synthesis and characterization of La0.5Sr0.5MnO3
 

13.An effective preparation route to a giant magnetoresistance material: Hydrothermal synthesis and characterization of La0.5Sr0.5MnO3

12.A novel layered zirconium phosphate [NH4](2)[Zr(OH)(3)(PO4)] synthesized through non-aqueous route
 

12.A novel layered zirconium phosphate [NH4](2)[Zr(OH)(3)(PO4)] synthesized through non-aqueous route

11.Hydrothermal synthesis of perovskite-type solid solution of (1-x)BaTiO3 center dot xLa(2/3)TiO(3)
 

11.Hydrothermal synthesis of perovskite-type solid solution of (1-x)BaTiO3 center dot xLa(2/3)TiO(3)

10.Synthesis, characterization, and catalytic phenol hydroxylation of a novel complex oxide HxV2Zr2O9.H2O
 

10.Synthesis, characterization, and catalytic phenol hydroxylation of a novel complex oxide HxV2Zr2O9.H2O

9.Hydrothermal synthesis of a giant magnetoresistance material La0.5Ba0.5MnO3 under mild conditions
 

9.Hydrothermal synthesis of a giant magnetoresistance material La0.5Ba0.5MnO3 under mild conditions

8.Hydrothermal Synthesis and Characterization of a Novel One-Dimensional Titanium Glycolate Complex Single Crystal:  Ti(OCH2CH2O)2
 

8.Hydrothermal Synthesis and Characterization of a Novel One-Dimensional Titanium Glycolate Complex Single Crystal:  Ti(OCH2CH2O)2

7.Catalytic performance in phenol hydroxylation by hydrogen peroxide over a catalyst of V-Zr-O complex
 

7.Catalytic performance in phenol hydroxylation by hydrogen peroxide over a catalyst of V-Zr-O complex

6.Novel Open-Framework Material:  Cerium Oxyfluoride with CeO6F2 Dodecahedron
 

6.Novel Open-Framework Material:  Cerium Oxyfluoride with CeO6F2 Dodecahedron

5.Nonaqueous synthesis and characterization of a novel layered zirconium phosphate templated with mixed organic and inorganic cations
 

5.Nonaqueous synthesis and characterization of a novel layered zirconium phosphate templated with mixed organic and inorganic cations

4.Hydrothermal synthesis of A-site deficient perovskite-type solid solution system (1–x) BaTiO3• xLa2/3TiO3 (x= 0.1–1.0)
 

4.Hydrothermal synthesis of A-site deficient perovskite-type solid solution system (1–x) BaTiO3• xLa2/3TiO3 (x= 0.1–1.0)

3.A novel open-framework cerium phosphate fluoride: (NH4)[(CeF2)-F-IV(PO4)]
 

3.A novel open-framework cerium phosphate fluoride: (NH4)[(CeF2)-F-IV(PO4)]

2.The first organically templated layered cerium phosphate-hydrogen sulfate: [enH(2)](0.5)[Ce-III(PO4)(HSO4)(OH2)]
 

2.The first organically templated layered cerium phosphate-hydrogen sulfate: [enH(2)](0.5)[Ce-III(PO4)(HSO4)(OH2)]

1.Non-aqueous synthesis and structure of a novel monodimensional zirconium phosphate: [NH4](3)[Zr(OH)(2)(PO4)(HPO4)]
 

1.Non-aqueous synthesis and structure of a novel monodimensional zirconium phosphate: [NH4](3)[Zr(OH)(2)(PO4)(HPO4)]

 
   
 
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