Catalysis

Mark E. Davis has been cited as an author on over 300 research articles and in 6 books. Below is a listing of recent publications from 2000 till the present.

The list was last updated 11/07/2005

Recent Books

M. E. Davis and R. J. Davis, "Fundamentals of Chemical Reaction Engineering," McGraw-Hill, New York (2003).

Recent Publications

232) A. Katz and M. E. Davis, "Molecular Imprinting of Bulk Microporous Silica," Nature, 403, 286 (2000).

233) A. Brait, H. Gonzalez, P. Andy and M. E. Davis, "Alkylation of 2-Methoxynaphthalene with Propylene Oxide Using Titanium Molecular Sieves," Appl. Catal. A,194-195, 265 (2000).

234) P. Wagner, Y. Nakagawa, G. S. Lee, S. Elomari, M. E. Davis, R. C. Medrud and S. I. Zones, "Guest/Host Relationships in the Synthesis of the Novel Cage-Based Zeolites SSZ-35, SSZ-36 and SSZ-39," J. Am. Chem. Soc., 122, 263 (2000).

235) W. Li, L. Luo, H. Yamashita, J. A. Labinger and M. E. Davis, “Synthesis and Characterization of Zeolite Beta Containing Oxide Clusters of Antimony and Vanadium,” Micropor. Mesopor. Mat.,37, 57 (2000).

236) M. Okamoto, L. Luo, J. A. Labinger and M. E. Davis, “Oxydehydrogenation of Propane over Vanadyl Ion-Containing VAPO-5 and CoAPO-5,” J. Catal.,192, 128 (2000).

237) P. Andy, J. Garcia-Martinez, G. Lee, H. Gonzalez, C. W. Jones and M. E. Davis, “Acylation of 2-Methoxynaphthalene and Isobutylbenzene over Zeolite Beta,” J. Catal.,192, 215 (2000).

238) O. Chiyoda and M. E. Davis, “Adsorption Studies with Gmelinite Zeolites Containing Mono-, Di- and Tri-Valent Cations,” Micropor. Mesopor. Mat., 38, 143 (2000).

239) M. E. Davis, “Molecular design of heterogeneous catalysts,” Stud. Sur. Sci. Catal., 130A, 49 (2000).

240) P. Wagner and M. E. Davis, "Introduction to Zeolite Science," in Photofunctionalized Zeolites, M. Anpo, ed., Nova Sci. Publ., pp.1-38 (2000).

241) B. H. Toby, N. Khosrovani, C. B. Dartt, M. E. Davis and J. B. Parise, “Structure-Directing Agents and Stacking Faults in the CON System: A Combined Crystallographic and Computer Simulation Study,” Micropor. Mesopor. Mat.,39, 77 (2000).

242) A. Brait and M. E. Davis, “Alkylation of 2-Methoxynaphthalene with Propylene Oxide Using Titanium and Zirconium Containing Molecular Sieves,” Appl. Catal. A, 204, 117 (2000).

243) P. P. E. A. de Moor, T. P. M. Beelen, R. A. van Santen, L. W. Beck and M. E. Davis, “Si-MFI Crystallization Using a Dimer and Trimer of TPA Studied with Small-Angle X-ray Scattering,” J. Phys. Chem. B, 104, 7600 (2000).

244) P. M. Piccione, C. Laberty, J. Yang, M. Camblor, A. Navrotsky and M. E. Davis, “Thermochemistry of Pure-Silica Zeolites,” J. Phys. Chem. B, 104, 10001 (2000).

245) C. W. Jones, M. Tsapatsis, T. Okubo and M. E. Davis, “Organic-Functionalized Molecular Sieves (OFMSs): III. Shape Selective Catalysis,” Micropor. Mesopor. Mat.,42, 21 (2001).

246) C. W. Jones, S. Hwang, T. Okubo and M. E. Davis, “Synthesis of Hydrophobic Molecular Sieves by an Acetic Acid Treatment,” Chem. Mater., 13, 1041 (2001).

247) T. Okubo, T. Wakihara, J. Plevert, S. Nair, M. Tsapatsis, Y. Ogawa, H. Komiyama, M. Yoshimura and M. E. Davis, “Heteroepitaxial Growth of Zeolites,” Angew. Chem. Int. Ed., 40, 1069 (2001).

248) S. I. Zones, S. J. Hwang and M. E. Davis, “Studies of the Synthesis of SSZ-25 Zeolite in a Mixed-Template System,” Chem. Eur. J., 7, 1990 (2001).

249) S. J. Hwang, N. C. Bellocq and M. E. Davis, “Effects of Structure of b -Cyclodextrin-Containing Polymers on Gene Delivery,” Bioconjugate Chem., 12, 280 (2001).

250) K. Ikeue, H. Yamashita, T. Takewaki, M. E. Davis and M. Anpo, “Characterization of Ti-Beta Zeolite and Their Reactivity for the Photocatalytic Reduction of CO 2 and H 2O,” J. Synchrotron Rad., 8, 602 (2001).

251) J. M. Escola and M. E. Davis, “Acylation of Biphenyl with Acetic Anhydride and Carboxylic Acids over Zeolite Catalysts,” Appl. Catal. A, 214, 111 (2001).

252) S. J. Hwang and M. E. Davis, “Cationic Polymers for Gene Delivery: Designs for Overcoming Barriers to Systemic Administration,” Curr. Opin. Mol. Ther., 3, 183 (2001).

253) C. W. Jones, K. Tsuji, T. Takewaki, L. W. Beck and M. E. Davis, “Tailoring Molecular Sieve Properties During SDA Removal Via Solvent Extraction,” Micropor. Mesopor. Mat., 48, 57 (2001).

254) M. E. Davis, “Evolution of Extra-Large Pore Materials,” Stud. Surf. Sci. Catal., 135, 28 (2001).

255) L. Luo, J. A. Labinger and M. E. Davis, “Comparison of Reaction Pathways for the Partial Oxidation of Propane over Vanadyl Ion-exchanged Zeolite Beta and Mo 1V 0.3Te 0.23N 0.12O x,” J. Catal., 200, 222 (2001).

256) P. M. Piccione, B. Woodfield, J. Boerio-Goates, A. Navrotsky and M. E. Davis, “Entropy of Pure-Silica Molecular Sieves,” J. Phys. Chem. B, 105, 6025 (2001).

257) M. E. Davis, “Cyclodextrin-Containing Polymers for Drug Delivery,” PharmaTech, 185 (2001).

258) Y. Kubota, J. Plevert, T. Honda, P. Wagner, M. E. Davis, T. Okubo, Y. Goto, Y. Fukushima and Y. Sugi, “Synthesis of a New Microporous Silicate Using DABCO-based Structure-Directing Agents,” Stud. Surf. Sci. Catal., 135, 342 (2001).

259) T. Wakihara, J. Plevert, S. Nair, M. Tsapatsis, S. Yamakita, Y. Ogawa, H. Komiyama, M. Yoshimura, M. E. Davis and T. Okubo, “Heteroepitaxial Connection of Zeolites with Different Pore Structures,” Stud. Surf. Sci. Catal., 135, 350 (2001).

260) P. M. Piccione and M. E. Davis, “A New Structure-Directing Agent for the Synthesis of Pure-Phase ZSM-11,” Micropor. Mesopor. Mat., 49, 163 (2001).

261) P. Wagner and M. E. Davis, "Towards the Rational Design of Zeolite Frameworks," in Supramolecular Materials Design, W. Jones ed., Cambridge University Press (2002).

262) J. G. Nery, S. J. Hwang and M. E. Davis, “On the Synthesis of SSZ-48, SSZ-43 and Their Variations,” Micropor. Mesopor. Mat., 52, 19 (2002).

263) M. E. Davis, “Non-Viral Gene Delivery Systems,” Curr. Opin. Biotech.,13, 128 (2002).

264) M. E. Davis, C. J. Dillon, J. H. Holles and J. Labinger, “A New Catalyst for the Selective Oxidation of Butane and Propane,” Angew. Chemie Int. Ed.,41, 858 (2002).

265) S. H. Pun and M. E. Davis, “Development of a Non-Viral Gene Delivery Vehicle for Systemic Application,” Bioconjugate Chem., 13, 630 (2002).

266) P. M. Piccione, S. Yang, A. Navrotsky and M. E. Davis, “Thermodynamics of Pure-Silica Molecular Sieve Synthesis,” J. Phys. Chem. B,106, 3629 (2002).

267) M. E. Davis, “Ordered Porous Materials for Emerging Applications,” Nature, 417, 813 (2002).

268) G. S. Lee, Y. Nakagawa, M. E. Davis, S. J. Hwang, P. Wagner, L. Beck and S. I. Zones, “Organo-Cations in Zeolite Synthesis: Fused Bicyclo [l.m.0] Cations and the Discovery of SSZ-48,” J. Am. Chem. Soc., 124, 7024 (2002).

269) J. Boerio-Goates, R. Stevens, B. K. Hom, B. F. Woodfield, P. M. Piccione, M. E. Davis and A. Navrotsky, “Heat Capacities, Third-Law Entropies and Thermodynamic Functions of SiO 2 Molecular Sieves from T=0 K to 400 K,” J. Chem. Thermo., 34, 205 (2002).

270) T. M. Reineke and M. E. Davis, “The Effects of Charge Separation in Quaternary Ammonium, DABCO-Containing Polymers on In Vitro Toxicity and Gene Delivery,” MRS Symp. Ser., 724, 209 (2002).

271) A. P. Wight and M. E. Davis, “Design and Preparation of Organic-Inorganic Hybrid Catalysts,” Chem. Rev., 102, 3589 (2002).

272) D. P. Serrano, R. van Grieken, M. E. Davis, J. A. Melero, A. Garcia and G. Morales, “Mechanism of CIT-6 and VPI-8 Crystallization from Zincosilicate Gels,” Chem. Eur. J., 8, 5153 (2002).

273) T. M. Reineke and M. E. Davis, “Structural Effects of Carbohydrate-Containing Polycations on Gene Delivery. Part 1: Carbohydrate Size and Its Distance from Charge Centers,” Bioconjugate Chem., 14, 247 (2003).

274) T. M. Reineke and M. E. Davis, “Structural Effects of Carbohydrate-Containing Polycations on Gene Delivery. Part 2: Charge Center Types,” Bioconjugate Chem., 14, 255 (2003).

275) S. R. Popielarski, S. Mishra and M. E. Davis, “The Effects of Structure on Gene Delivery with Linear b - and g -Cyclodextrin-Containing Polycations,” J. Incl. Phenom. Macro., 44, 453 (2003).

276) M. E. Davis and N. C. Bellocq, “Cyclodextrin-Containing Polymers for Gene Delivery,” J. Incl. Phenom. Macro., 44, 17 (2003).

277) J. H. Holles, C. J. Dillon, J. A. Labinger and M. E. Davis, “A Substrate-Versatile Catalyst for the Selective Oxidation of Light Alkanes: I. Reactivity,” J. Catal., 218, 42 (2003).

278) C. J. Dillon, J. H. Holles, R. J. Davis, J. A. Labinger and M. E. Davis, “A Substrate-Versatile Catalyst for the Selective Oxidation of Light Alkanes: II. Catalyst Characterization,” J. Catal., 218, 54 (2003).

279) S. R. Popielarski, S. Mishra and M. E. Davis, “Structural Effects of Carbohydrate-Containing Polycations on Gene Delivery. 3. Cyclodextrin Type and Functionalization,” Bioconjugate Chem., 14, 672 (2003).

280) D. L. Wu, A. P. Wight and M. E. Davis, “Shape-Selective Oxidation of Primary Alcohols Using Perruthenate-Containing Zeolites,” Chem. Commun., 758 (2003).

281) C. J. Dillon, J. H. Holles, M. E. Davis and J. A. Labinger, “Heteropolyacid-based Catalysts for Selective Alkane Oxidation: Mechanism of Formation of Maleic Anhydride from Propane,” Catal. Today, 81, 189 (2003).

282) V. Dufaud and M. E. Davis, “Design of Heterogeneous Catalysts via Multiple Active Site Positioning in Organic-Inorganic Hybrid Materials,” J. Am. Chem. Soc., 125, 9403 (2003).

283) H. Lee, S. I. Zones and M. E. Davis, “A Combustion-Free Methodology for Synthesizing Zeolites and Zeolite-Like Materials,” Nature, 425, 385 (2003).

284) J. Cheng, K. T. Khin, G. S. Jensen, A. Liu and M. E. Davis, “Synthesis of Linear, Beta-Cyclodextrin-Based Polymers and Their Camptothecin Conjugates,” Bioconjugate Chem., 14, 1007 (2003).

285) T. Reineke and M. E. Davis, “Structure-property Investigation of Trehalose and b -Cyclodextrin-based Polycations for Gene Delivery,” Polymeric Mat. Sci. Eng.88, 224 (2003).

286) M. E. Davis, “Reflections on Routes to Enantioselective Solid Catalysts,” Topics in Catal., 25, 3 (2003).

287) N. C. Bellocq, S. H. Pun, G. S. Jensen and M. E. Davis, “Transferrin-containing, cyclodextrin polymer-based particles for tumor-targeted gene delivery,” Bioconjugate Chem., 14, 1122 (2003).

288) M. E. Davis, S. H. Pun, N. C. Bellocq, T. M. Reineke, S. R. Popielarski, S. Mishra and J. D. Heidel, “Self-Assembling Nucleic Acid Delivery Vehicles via Linear, Water-Soluble, Cyclodextrin-Containing Polymers,” Current. Med. Chem., 11, 1241 (2004).

289) I. Ogino and M. E. Davis, “Molecular Sieve Synthesis using Alkylated Sparteine Derivatives as Structure-Directing Agents,” Micropor. Mesopor. Mat.,67, 67 (2004).

290) S. Mishra, P. Webster and M. E. Davis, “PEGylation Significantly Affects Cellular Uptake and Intracellular Trafficking of Non-viral Gene Delivery Particles,” Eur. J. Cell Biol., 83, 97 (2004).

291) A. Corma and M. E. Davis, “Issues in the Synthesis of Crystalline Molecular Sieves: Towards the Crystallization of Low Framework-Density Structures,” Chem. Phys. Chem., 5, 304 (2004).

292) S. H. Pun, N. C. Bellocq, J. Cheng, B. H. Grubbs, G. S. Jensen, M. E. Davis, F. Tack, M. Brewster, M. Janicot, B. Janssens, W. Floren and A. Bakker, “Targeted delivery of RNA-cleaving DNA enzyme (DNAzyme) to tumor tissue by transferrin-modified, cyclodextrin-based particles,” Cancer Biol. Ther., 3, 641 (2004).

293) P. Andy and M. E. Davis, “Dehydrogenation of Propane over Platinum Containing CIT-6,” Ind. Eng. Chem. Res., 43, 2922 (2004).

294) J. Cheng, K. T. Khin and M. E. Davis, “Antitumor Activity of Beta-Cyclodextrin Polymer-Camptothecin Conjugates,” Mol. Pharm., 1, 183 (2004).

295) S. P. Elangovan, M. Ogura, M. E. Davis and T. Okubo, “SSZ-33: A Promising Material for Use as a Hydrocarbon Trap,” J. Phys. Chem. B, 108, 13059 (2004).

296) S. H. Pun, N. C. Bellocq, A. Liu, G. Jensen, T. Machemer, E. Quijano, T. Schluep, S. Wen, H. Engler, J. Heidel and M. E. Davis, “Cyclodextrin-Modified Polyethylenimine Polymers for Gene Delivery,” Bioconjugate Chem., 15, 831 (2004).

297) S. H. Pun and M. E. Davis, “Cyclodextrin-Containing Polymers for Gene Delivery,” Polymeric Gene Delivery: Principles and Applications, M. M. Amiji, ed., CRC Press, 182 (2004).

298) M. E. Davis and M. E. Brewster, “Cyclodextrin-based pharmaceutics: Past, present, future,” Nat. Rev. Drug. Disc., 3, 1023 (2004).

299) J. D. Heidel, S. Hu, X. F. Liu, T. J. Triche and M. E. Davis, “Lack of Interferon Response in Animals to Naked siRNA,” Nat. Biotech., 22, 1579 (2004).

300) N. C. Bellocq, D. W. Kang, X. Wang, G. S. Jensen, S. H. Pun, T. Schluep, M. L. Zepeda and M. E. Davis, “Synthetic Biocompatible Cyclodextrin-Based Constructs for Local Gene Delivery to Improve Cutaneous Wound Healing,” Bioconjugate Chem., 15, 1201 (2004).

301) H. Lee, S. I. Zones and M. E. Davis, “A New Synthesis Method for Zeolites,” Stud. Sur. Sci. Catal.,154, 102 (2004).

302) H. Lee, S. Zones and M. E. Davis, “Zeolite Synthesis Using Degradable Structure-Directing Agents and Pore-Filling Agents,” J. Phys. Chem. B, 109, 2187 (2005).

303) B. A. Holmberg, S. J. Hwang, M. E. Davis and Y. Yan, “Synthesis and Proton Conductivity of Sulfonic Acid Fuctionalized Zeolite Beta Nanocrystals,” Micropor. Mesopor. Mat., 80, 347 (2005).

304) R. P. Kulkarni, D. D. Wu, M. E. Davis and S. W. Fraser, “Quantitating Intracellular Transport of Polyplexes by Spatio-Temporal Correlation Spectroscopy,” Proc. Nat. Acad. Sci. USA, 102, 7523 (2005).

305) R. P. Kulkarni, S. Mishra, S. E. Fraser and M. E. Davis, “Single Cell Kinetics of Intracellular, Non-Viral, Nucleic Acid Delivery Vehicle Acidification and Trafficking,” Bioconjugate Chem., 16, 986 (2005).

306) S. Hu-Lieskovan, J. D. Heidel, D. W. Bartlett, M. E. Davis and T. J. Triche, “Sequence-specific knockdown of EWS-FLI1 by targeted, non-viral delivery of siRNA inhibits tumor growth in a murine model of metastatic Ewing’s sarcoma,” Cancer Res., 65, 8984 (2005).

307) S. R. Popielarski, S. H. Pun and M. E. Davis, “A Nanoparticle-Based Model Delivery System to Guide the Rational Design of Gene Delivery to the Liver. 1. Synthesis and Characterization,” Bioconjugate Chem., 16, 1063 (2005).

308) S. R. Popielarski, S. Hu-Lieskovan, S. W. French, T. J. Triche and M. E. Davis, “A Nanoparticle-Based Model Delivery System to Guide the Rational Design of Gene Delivery to the Liver. 2. In Vitro and In Vivo Uptake Results,” Bioconjugate Chem., 16, 1071 (2005).

309) S. D. Rose, D. H. Kim, M. Amarzguioui, J. D. Heidel, M. A. Collingwood, M. E. Davis, J. J. Rossi and M. A. Behlke, “Functional polarity is introduced by Dicer processing of short substrate RNAs,” Nucl. Acids Res., 33, 1 (2005).

310) S. I. Zones, H. Lee, M. E. Davis, J. Casci and A. W. Burton, “Strategies in Developing Routes to Commercialization of Novel High Silica Zeolites,” in Molecular Sieves: From Basic Research to Industrial Applications. Proceedings of the 3rd FEZA Conference, Stud. Surf. Sci. Catal.,158A, 1-10 (2005).

311) T. Schluep, J. Cheng, K. T. Kim and M. E. Davis, “Pharmacokinetics and biodistribution of the camptothecin-polymer conjugate IT-101 in rats and tumor-bearing mice,” Cancer Chemother. Pharmacol., in press.

312) J. Heidel, S. Mishra and M. E. Davis, “Molecular Conjugates,” Adv. Biochem. Eng. Biotech., in press.

313) J. M. Galownia, A. P. Wight, A. Blanc, J. A. Labinger and M. E. Davis, “Partially reduced heteropolyanions for the oxidation of ethane to ethylene and acetic acid at atmospheric pressure,” J. Catal., in press.

314) H. Lee, S. I. Zones and M. E. Davis, “Synthesis of molecular sieves using ketal structure-directing agents and their degradation inside the pore space,” Micropor. Mesopor. Mat., in press.

315) J. L. Anthony and M. E. Davis, “Assembly of Zeolites and Crystalline Molecular Sieves,” Adv. Nanomaterials, in press.

316) D. W. Kang, N. C. Bellocq, T. Schluep, C. D. Cooper, D. Gu, E. M. Quijano, S. F. Wen, J. A. Coleman, S. H. Pun, M. E. Davis and M. L. Zepeda, “Use of Linear Beta-Cyclodextrin Based Matrix for Local Adenovirus Mediated Gene Delivery,” Wound Repair Regen., in press.

317) S. I. Zones, S. J. Hwang, S. Elomari, I. Ogino, M. E. Davis and A. Burton, “The fluoride-based route to all-silica molecular sieves; a strategy for synthesis of new materials based upon close-packing of guest-host products,” C. R. Chimie, in press.

318) A. Burton, R. J. Darton, M. E. Davis, R. E. Morris and S. I. Zones, “SDA location and non-centrosymmetric structure of fluoride-containing zeolite SSZ-55,” Micropor. Mesopor. Mat., in press.