1.
Gao, D., Chen, W., Mulchandani, A. and Schultz, J. S. (2007)
Detection of Tumor Markers Based on Extinction Spectra of Visible Light Passing
through Gold Nanoholes, Applied Physics Letters (90:073901).
2.
K.
Nagamine, K. Shimomura, H. Miyadera, Y.-J. Ki, R.H. Scheicher, T. P. Das and
J.S. Schultz. Hemoglobin Magnetism in Aqueous Solution Probed by Muon Spin
Relaxation and Future Applications to Brain Research. Proc. Jpn. Acad., Ser.
B83 (2007) 120-126.
3.
K.
Nagamine, S. Shimomura, K. Imai, J.S. Schultz.
Probing magnetism in human blood by muon spin relaxation. Physica B,
374-375: 444-447 (2006)
4.
J.S.
Schultz. Optically-based Affinity Biosensors for Glucose. In Topics in
Fluorescence Spectroscopy, Volume 11, Glucose Sensing. Editors C.D. Geddes and
J.R. Lakowicz. Springer. (2006), pp 283-310.
5.
J.S.
Schultz. Inside the Cell – A New Paradigm for Unit Operations and Unit
Processes? Chemical Engineering
Education. 40(2): 126-139, (2006).
6.
D. Gao, N. McBean, J. S. Schultz, Y. Yan, A.
Mulchandani, W. Chen. Fabrication of Antibody Arrays Using Thermally Responsive
Elastin Fusion Proteins J. Am. Chem. Soc., 128 (3), 676 -677, 2006
7.
K.
Nagamine, Shimomura, K., Imai, K., Schultz, J., Mills, A. (2005) Probing
magnetism in human blood by Muon spin relaxation spectroscopy. Proceedings of MSR, 27-30.
8.
J.S. Schultz. (Biosensing) Infrastructure Overview,
pp 1-19. In International Research and Development in Biosensing.
9.
J.S.
Schultz. Biosensors. In Encyclopedia of Biomaterials and Biomedical
Engineering. Marcel
10.
K.
Ye, S. Jin, M. Ataai, J.S. Schultz, J. Ibeh. Tagging Retrovirus Vectors with a
Metal Binding Peptide and One-Step Purification by Immobilized Metal Affinity
Chromatography. J. Virology, 78: 9820-9827 (2004).
11.
K.
Ye, S. Jin, and J.S. Schultz. Genetic engineering of a fluorescent cell marker
for labeling CD34+ hematopoietic stem cells. Biotechnol. Prog. 20 561-565
(2004)
12.
K.Ye
and J.S. Schultz. Genetic engineering of an allosteric-based glucose indicator
protein for continuous glucose monitoring by fluorescence resonance energy
transfer, Anal. Chem. 75: 3451-3459 (2003)
13.
K.
Ye, H.K. Dhiman, J. Suhan, and J.S. Schultz. Effect of pH on Infectivity and
Morphology of Ecotropic Moloney Murine Leukemia Virus. Biotechnol. Prog., 19: 538-543 (2003)
14.
J.S.
Schultz. Microanalytical Techniques.
Encyclopedia of Technology. (2001)
15.
R.
Ballerstadt. and J.S. Schultz. A Fluorescence Affinity Hollow Fiber Sensor for
Continuous Transdermal Glucose Monitoring. Anal. Chem., 72: 4185-4192 (2000)
16.
R.
Ballerstadt and J.S. Schultz. Spot Assay for Rapid Detection of Blood
Glucose. In Chemical and Biological
Sensors for Environmental Monitoring.
Ed. A. Mulchandani and O. Sadik. ACS Symposium Series 762 (1999) pp
247-254.
17.
R.
Ballerstadt, M. Dahn, P. Lange, J.S. Schultz. Prototype for an Organ System
(Liver) Localization Cardiovascular Catheter. Progress in Biomedical Optics,
3595:30-37 (1999).
18.
Chemical
and Biological Terriorism. National Research Council,
19.
R.
Ballerstadt, M. Dahn, P. Lange, J.S. Schultz.
Development of a Percutaneous Fiberoptic Hepatic Venous Localization
Catheter. Critical Care Medicine (1998).
20.
R.
Ballerstadt and J.S. Schultz, Kinetics of Dissolution of Concanavalin A/Dextran
Sols in Response to Glucose Measured by Surface Plasmon Resonance. Sensors and
Actuators, B 46:50-55 (1998).
21.
R.
Ballerstadt and J.S. Schultz,, Assay Based on Fluoresence Quenching of Ligands
Held in Close Proximity on a Multivalent Receptor. Anal. Clinica Acta.,
345:203-212 (1997)
22.
R.
Ballerstadt, M.S. Dahn, J.S. Schultz and M.P. Lange, A Homogeneous Affinity
Fluorescence Assay System for Galactose Monitoring. Sensors and Actuators, B 38-39: 171-175
(1997).
23.
R.
Ballerstadt and J.S. Schultz, A Glactose-specific affinity hollow fiber sensor
based on fluorescence resonance energy transfer. Methods in Biotechnology, Vol
7:Affinity Biosensors:Techniques and Protocols. Ed A. Mulchandani and K.R.
Rogers. Humana Press (1997) pp 89-98.
24.
K.A.
Hubbard and J.S. Schultz, Use of Biological-Based Assays in Environmental
Assessment. Chemical Engineering Progress. Chemical Engineering Progress Aug
(1997) pp 69-79.
25.
R.
Ballerstadt and J.S. Schultz, Sensor Methods for Use with Microdialysis and
Ultrafiltration. Advanced Drug Delivery
Reviews, 21:225-238 (1996).
26.
J.S.
Schultz and J.S. Schultz, The Combinatorial Library - A Multifunctional
Resourse. Biotechnology Progress, 12:729-743 (1996).
27.
J.S.
Schultz, Biological and Chemical Components For Sensors. in Handbook of
Chemical and Biological Sensors. R.F. Taylor and J.S. Schultz, Eds. Institute
of Physics,
28.
J.S.
Schultz, Interactions Between Universities and Industry. Biotechnology:
Science, Engineering, and Ethical Challenges for the 21st Century, F.B. Rudolph
and L.V. McIntire. Joseph Henry Press,
29.
J.S.
Schultz, Biotechnology-Based Recogition Elements. Technology, applications, and opportunities
for biosensors. IEEE Eng. Med. Biol., 14:210-216 (1995)
30.
J.S.
Schultz, Benign Biosynthesis. Workshop
on Green Synthesis and Processing in Chemical Manufacturing.
31.
J.S.
Schultz, Chemical Sensors and Biosensors for Fluoride: Current Status and
Developing Technologies. Adv. Dent. Res., 8:100-104 (1994)
32.
W.R.
Wagner, H. Tiffany, K.A. Thompson, J.S.Schultz, Surface Thrombin Found on
Preclotted Dacron Grafts Mediates Platelet Deposition in vitro. Abstracts. Soc.
for Biomaterials, 20th Annual Meeting.
33.
D.L.
Meadows and J.S. Schultz, Design, manufacture and characterization of an
optical fiber glucose affinity sensor based on homogeneous fluorescence energy
transfer assay system. Analytica Chimica Acta, 280:21-30 (1993)
34.
J.S.
Schultz and J.S. Schultz, Applications of Combinatorial Libraries in Cellular
Engineering. IFMBE Proc. 1st Internat. Conf. on Cellular Engineering.
35.
J.S.
Schultz, The Use of Biological Recognition Molecules in Biosensors. BioJapan
'92 Symposium Proceedings. pp 339-347 (1992)
36.
J.S.
Schultz, Fiber Optical Methods for Bioprocess Monitoring - Promises and
Problems. Harnessing Biotechnology for the 21st Century. Ed M. Ladish and A.
Bose. ACS Conference Proceeding Series, pp 334-336 (1992)
37.
D.L.
Meadows and J.S. Schultz, Miniature Fiber Optic Sensor Based on Fluorescent
Energy Transfer, SPIE Proceedings: Fiber Optic Medical and Fluorescent Sensors
and Applications, 1648: 202-211 (1992)
38.
J.S.
Schultz,
39.
C.
Komives and J.S. Schultz, Fiber-optic Fluorimeter Signal Enhancement and
Application to Biosensor Design. Talanta, 39: 429-441 (1992).
40.
Weber,
and J.S. Schultz, Fiber-optic Fluorimetry in Biosensors: Comparison between
Evanescent Wave Generation and Distal-face Generation of Fluorescent Light.
Biosensors and Bioelectronics, 7:193-197 (1992).
41.
J.S.
Schultz. Biosensors. Scientific American. pp 64-69, August 1991.
42.
D.L.
Meadows, J.S. Schultz, and J.S. Shafer.
Determining the Extent of Labeling Tetramethylrhodamine Isothiocyanate
Protein Conjugates. J. Immunol. Methods,
143: 263-272 (1991).
43.
C.
Komives, and J.S. Schultz, Optical Fiber Biochemical Sensors for Continuous
Monitoring. Medical Design and Materials. 1: 24-30 (1991).
44.
C.
Komives, and J.S. Schultz, Improvement of Optical Fiber Based Biosensors. Ann.
Int. Conf. IEEE Eng. Med. Biol. Soc., 12: 478-479 (1990).
45.
D.L.
Meadows, and J.S. Schultz, A Molecular Model for Singlet/Singlet Energy
Transfer of Monovalent Ligand/Receptor Interactions. Biotechnology and
Bioengineering. 37: 1066-1075 (1991).
46.
J.S.
Schultz, Engineering of Hematopoietic Cells.
In Tissue Engineering, R. Skalak and C. Fox, Eds. Alan Liss, pp 313-318
(1988).
47.
D.
Meadows and J.S. Schultz, Fiber Optic Biosensors Based on Fluorescence Energy
Transfer. Talanta 35: 145-150 (1988).
48.
M.
Meyerhof and J.. Schultz, Status of Monitoring In Biotechnology. Enzyme and
Microb. Tech. 9: 677-699 (1987).
49.
J.
S. Schultz and S. Mansouri, Optical Affinity Sensors, in "Methods in
Enzymology," Vol 137 Immobilized Enzymes and Cells, part D. K. Mosbach,
ed. (1987). Academic Press. pp 349-365.
50.
J.S.
Schultz, Sensitivity and Dynamics of Bioreceptor-Based Biosensors, in
Biochemical Engineering V., Annals N.Y. Acad. Sci. 506: 406-411 (1987).
51.
D.E.
Guinnup and J.S. Schultz, Investigation of Aggregation Kinetics via Laser Light
Scattering. J. Phys. Chem., 90:3282-3288 (1986).
52.
R.A.
Ashmun, D.E. Hultquist, and J.S. Schultz, Kinetic Analysis in Single, Intact
Cells by Microspectrophotometry: Evidence for Two Populations of Erythrocytes
in an Individual Heterozygous for Glucose-6-Phosphate Dehydrogenase
Dificiency. Amer. J. Hematology, 23:
311-316 (1986).
53.
J.S.
Schultz, Medical Applications of Membranes. In "Synthetic Membranes:
Science, Engineering and Applications." P.M. Bungay, H.K. Lonsdale, and
M.N. de Pinho, eds. D. Reidel,
54.
J.S.
Schultz, Carrier‑Mediated Transport in Synthetic Membranes. In
"Synthetic Membranes: Science, Engineering and Applications." P.M.
Bungay, H.K. Lonsdale, and M.N.de Pinho, eds. D. Reidel,
55.
J.S.
Schultz, Design of Fiber‑Optic Biosensors Based on Bioreceptors. In
"Biosensors: Fundamentals and Applications." A.P.F. Turner,
56.
B.L. Liu and J.S. Schultz, Equilibrium
Binding in Immunosensors. IEEE Trans. Biomed. Eng. BME‑33: 133‑138
(1986).
57.
R.
Jain and J. S. Schultz, Light Assisted Transport of Nitric Oxide Across
Membranes Containing Nitrosyl Chloride Solutions. J. Membrane Sci., 26:313-327
(1986).
58.
J.
S. Schultz, Fiberoptic Sensors in Artificial Organs, Am. Soc. Artif. Internal
Organs, Trans. 32:705-710 (1986).
59.
K.
R. Srinivasan, S. Mansouri, and J. S. Schultz, Coupling of Concanavalin A to
Cellulose Hollow Fibers for use in a Glucose Affinity Sensor, Biotech. and
Bioeng., 28:233-239 (1986).
60.
R.
L. Dedrick, M. F. Flessner, J. M. Collins, J. S. Schultz. A Distributed Model of Peritoneal Transport.
In Frontiers in Peritoneal Dialysis.
Field, Rich and Assoc.,
61.
K.
Srinivasan, H. S. Fogler, E. Gulari, T. Nolan, and J. S. Schultz, Removal of
Trace Levels of Dioxin from Water by Sorption on Modified Clay. Environmental
Progress, 4:239‑245 (1985).
62.
B.
L. Liu and J. S. Schultz, Characterization of Immunosensor Binding Reactions,
Proceedings of the 7th Annual Conference of IEEE/EMBS, Chicago 1985. IEEE
Publ.#85CH2198‑0 pp 125‑129.
63.
J.
S. Schultz, Medical Applications of Fiber Optic Sensors, Medical
Instrumentation 19: Vol 4, pp 158‑163 (1985).
64.
M.
F. Flessner, R. L. Dedrick, J. S. Schultz.
Exchange of Macromolecules Between the Peritoneal Cavity and the
Plasms., Am. J. Physiol. 248 (Heart Circ. Physiol. 17):H15‑H25 (1985).
65.
M.
F. Flessner, R. L. Dedrick, J. S. Schultz, A Distributed Model of Peritoneal
Plasma Transport: Analysis of Experimental Data in the Rat. Am. J. Physiol. 248
(Renal Fluid Electrolyte Physiol. 17):F413‑F424 (1985).
66.
S.
Mansouri and J. S. Schultz, A Miniature Optical Glucose Sensor Based on
Affinity Binding, BIO/TECHNOLOGY, 2:385‑390 (1984).
67.
S.
Mansouri and J.S. Schultz, Optical Glucose Sensor Based on Reversible
Competitive Binding. IEEE,
68.
M.
F. Flessner, R. L. Dedrick, J. S. Schultz, A Distributed Model of Peritoneal‑Plasma
Transport: Theoretical Considerations.
Am. J. Physiol., 246 (Regulatory Integrative Comp., Physiol. 15): R597‑R607
(1984).
69.
R.
A. Ashmun, D. E. Hultquist, and J. S. Schultz, Quantitation of Glucose‑6‑phosphate
dehydrogenase in single cells by microspectrophotometry. The Red Cell: Sixth
70.
R.
Jain and J. S. Schultz, Data Analysis for Concentration Measurements in the
Nonlinear Response Region of Ion‑Selective Electrodes. Anal. Chem., 56: 141‑147 (1984).
71.
J.
S. Schultz, Optical Affinity Sensor for Metabolites. Proceedings, "Physiological Sensors in
Medicine: A Forum," IVAC Corp., San Diego, CA W. Bochenko and C. Jones,
Ed. p 59‑63, (1983).
72.
R.
Jain and J. S. Schultz, An analysis of carrier‑mediated photo‑diffusion
membranes. J. Membrane Science, 15:63‑80
(1983).
73.
J.
S. Schultz and S. M. Lindenauer, Ex‑vivo evalutation on blood‑surface
interfaces. In "Biologic and Synthetic Vascular Protheses," J.
Stanley, et al. ed., Grune and Straton (1982) pp.113‑129.
74.
R.
L. Dedrick, M. F. Flessner, J. M Collins, J. S. Schultz, Is the Peritonium a
Membrane? ASAIO Jounal, 5:1‑8
(1982).
75.
J.
S. Schultz, S. M. Lindenauer, J. A. Penner, Thrombus formation on surfaces in
contact with blood in "Biomaterials:
Interfacial Phenomena Applications" S.L. Cooper et al. ed, Adv. in
Chem. Series #199 (1982) pp.44‑58
76.
J.
S. Schultz, S. Mansouri, and
77.
R.
Jain and J.S. Schultz, A Numerical Technique for Solving Carrier Mediated
Transport Problems. J. Membrane Science,
11:79‑106 (1981).
78.
S.M.
Lindenauer, J.S. Schultz, J. A. Penner, Direct comparison of biomaterials and
endothelium in an ex‑vivo shunt.
Trans. Am. Soc. Art. Int. Organs, 27:231‑235 (1981).
79.
J.S.
Schultz, S.M. Lindenauer, J.A. Penner,
80.
J.S.
Schultz, Facilitation of CO2 through layers with a spatial
distribution of carbonic anhydrase. In
"Biophysics and Physiology of Carbon Dioxide." C. Bauer, G. Gros, H.
Bartels, Springer‑Verlag,
81.
82.
J.S.
Schultz and G. Sims, Affinity sensors for individual metabolites, Biotech. and
Bioeng., Symp. 9:65‑71 (1979).
83.
J.S.
Schultz, R. Valentine, and C.Y. Choi, Reflection coefficients of homopore
membranes: Effects of molecular size and
configuration, J. General Physiology, 73:49‑60 (1979).
84.
J.S.
Schultz, A.A. Ciarkowski, S.M. Lindenauer, and
J.A. Penner, Effects of hematological parameters on thrombus
formation.Trans. Am. Soc. Artif. Organs, 24:565‑567 (1978)
85.
J.S.
Schultz and D. Heidel, Models for growth kinetics of yeast, Biotech. and
Bioengineering, 20:301‑303 (1978).
86.
J.S.
Schultz and W. Armstrong, Permeability of the interstitial space of muscle (rat
diaphragm) to solutes of different molecular weights. J. Pharm Sci., 67:696‑700
(1978).
87.
J.S.
Schultz, Carrier‑mediated photodiffusion membranes, Science, 197:1177‑1179
(1977).
88.
J.S.
Schultz, Carrier‑mediated transport in liquid‑liquid membrane
systems, recent developments in separation science, N.N. Li, ed. CRC Press,
Bol. III‑ Part B, 243‑260 (1977).
89.
J.S.
Schultz, J. Goddard, A. Ciarkowski, J.A. Penner, S.M. Lindenauer, An ex‑vivo method for the
evaluation of biomaterials in contact with blood.
90.
J.S.
Schultz, A. Ciarkowski, J. D. Goddard, S.M. Lindenauer, J.A. Penner, Kinetics of thrombus formation. American Soc, Artif. Internal Organs, 21:269‑277
(1976).
91.
J.S.
Schultz, Transport of solutes across the intact rat diaphragm. In
Microcirculation 2: Transport mechanisms, disease states, J. Grayson and
92.
J.D.
Goddard, J.S. Schultz and S.R. Suchdeo, Facilitated transport via carrier‑mediated
diffusion in membranes: Part II. Mathematical aspects and analyses, AIChE
Journal, 20:625‑645 (1974).
93.
J.S.
Schultz, J.D. Goddard and S.R. Suchdeo, Facilitated transport via carrier‑mediated
diffusion in membranes: Part I.
Mechanistic aspects, experimental systems and characterisitc regimes.
AIChE Journal. 20:417-445 (1974).
94.
95.
J.D.
Goddard, S.R. Suchdeo, and J.S. Schultz, Carrier‑mediated heat transport.
Chem.
96.
S.R.
Suchdeo and J.S. Schultz, The permeability of gases through reacting
solutions: The carbon dioxide‑bicarbonate
membrane system, Chem. Eng. Sci., 29:13‑23 (1974).
97.
S.R.
Suchdeo, and J.S. Schultz, Mass Transfer of carbon dioxide across
membranes: Facilitation in the presence
of bicarbonate ion and enzyme carbonic anhydrase. Biochimica et Biophysica Acta., 352:412‑440
(1974).
98.
S.R.
Suchdeo, and J.S. Schultz, Effect of carbonic anhydrase on the facilitated
diffusion of CO2 through bicarbonate solutions. Adv. in Medicine and
Biology, Plenum Press, 37B:969‑974 (1973).
99.
S.R.
Suchdeo, J.D. Goddard and J.S. Schultz, An analysis of the competitive
diffusion of O2 and CO through hemoglobin solutions. Adv. in
Medicine and Biology, Plenum Press, 37B:951‑961 (1973).
100. R.L. Curl and J.S. Schultz, A
polygonal approximation for unsteady state diffusion of oxygen in hemoglobin
solutions. Advances in Medicine and
Biology, Plenum Press, 37B:929‑935 (1973).
101. D.J. Fink, T.Y. Na, and J.S.
Schultz, Effectiveness factor calculations for immobilized enzyme catalysts,
Biotechnol. and Bioengineering 15:879‑888 (1973).
102. J.S. Schultz, Asymmetry in
biological permeability barriers with carrier transport, In Passive
Permeability of Cell Membranes, Ed. F. Kreuzer and J.F.G. Slegers, Biomembranes
3:57‑77 (1972).
103. R.E. Beck and J.S. Schultz,
Hindrance of solute diffusion within membranes as measured with microporous
membranes of known pore geometry. Biochimica and Biophysica Acta, 255:273‑303
(1972).
104. S.R. Suchdeo and J.S. Schultz, Mathematical
approaches to the analysis of facilitated transport phenomenon in membranes,
Chem. Eng.Symp. Ser. No. 114, 67:165‑173 (1971).
105. J.S. Schultz, Passive asymmetric
transport through biological membranes, Biophysical Journal, 11:924‑943
(1971).
106. J.S. Schultz, J. Eaton, G. Brewer,
Blood Rogeometer‑ A device for measuring oxygen transport rates to whole
blood. Proceedings 23rd Annual
Conference on Engineering in Medicine and Biology, p. 417 (1970).
107. J.S. Schultz, Comment on membrane
transport, Trans. Amer. Soc.Art. Internal Organs 16:125‑126 (1970).
108. R.E. Beck and J.S. Schultz, Hindered
diffusion in microporous membranes with known pore geometry, Science 170:1302‑1305
(1970).
109. R.M. Bassett and J.S. Schultz, Non‑equilibrium
facilitated diffusion of oxygen through membranes of aqueous cobalto‑dihistidine. Biochimica et Biophysica Acta. 211:194‑215, (1970).
110. J.
Eaton, G. Brewer, J.S. Schultz and C. Sing, Variations in 2,3 diphophoglycerate
and ATP levels inhuman erythrocytes and the effect on oxygen release. "Red Cell Metabolism and Function". G. Brewer, ed.
Adv. in Experimental Medicine and Biology, 6:21‑37 (1970).
111. J.D. Goddard, J.S. Schultz and R.J.
Bassett, On membrane diffusion with near‑equilibrium reaction. Chem.Eng.Sci. 25 :665‑683 (1970).
112. S.M. Lindenauer, J.S. Schultz, W.
Self and W. DiGiulio, Tissue Distibution of S35 Toluidine Blue,
Surgical Forum 20:78‑80 (1969).
113. J.S. Schultz and P. Gerhardt,
Dialysis Culture of Micro‑organisms: Design, Theory, and Results,
Bacteriol. Revs. 33:1‑47 (1969).
114. J.S. Schultz, Mathematical Analysis
of the Rotating Disc Oxygenator, Proc. 20th Ann. Conf. Engineering in Medicine
and Biology, 29.2 (1967)
115. J. Harold, J.S. Schultz, and P.
Gerhardt, Differential dialysis culture for separation and concentration of a
macromolecular product, Appl. Microbiol. 15 :1192‑1197 (1967).
116. P. Gerhardt and J.S. Schultz,
Dialysis Culture, J. Ferm. Tech. (
117. L. Jensen and J. S. Schultz,
Apparatus for monitoring the oxygen uptake and carbon dioxide production of fermentations,
Biotechnol. and Bioengineering. 8:539‑548
(1966).
118. L. Jensen, J. S. Schultz, and P.
Shu, Scale‑up of antibiotic fermentations by control of oxygen
utilization, Biotechnol. and Bioengineering. 8:525‑537 (1966).
119. K. Sax, C. Holmlund, L Feldman, R.
Evans, R. Blank, A. Shay, J.S. Schultz,
and M. Dann, Microbiological formation of 1a,2a dihydroxysteroids. Steroids.
5:345‑359 (1965).
120. J.S. Schultz, Cotton closure as an
aeration barrier in shake flask fermentations.
Appl. Microbiol. 12:305‑310 (1964).
121. Jensen, M. Darken, J.S.Schultz, and
A. Shay, Relomycin: Flask and tank fermentation studies, Antimicrobial Agents
and Chemotherapy, J. Sylvester, ed., pp.49‑53 (l963).
122. J.S. Schultz and G. Melnykovyech,
"Sleeve" Stirrer for submerged cultures. Biotech. and Bioeng. 4:229‑301
(l962).
123. J.S. Schultz, D. Riehard, and E.
Lind, Statistical Methods in Fermentation Development.
124. J.S. Schultz and E.L. Gaden, Sulfite
oxidation as a measure of aeration effectiveness.