Conductive polymer materials and applications thereof including monitoring and providing effective therapy
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
A61M-037/00
C02F-001/44
G01N-027/10
G01N-027/07
A61M-001/36
A61M-001/16
F16L-025/01
G01N-033/49
A61M-005/168
A61M-001/28
A61M-039/10
출원번호
US-0173828
(2011-06-30)
등록번호
US-8920356
(2014-12-30)
발명자
/ 주소
Shang, Sherwin
Wariar, Ramesh
Lasso, Angel
Lamberson, George
Marcquenski, Jr., Dan F.
Jensen, Jan
Kuhn, David
Castellanos, Raf
출원인 / 주소
Baxter International Inc.
대리인 / 주소
K&L Gates LLP
인용정보
피인용 횟수 :
1인용 특허 :
304
초록▼
A coupler includes a conductive polymer material that is so constructed and arranged to join tubing, wherein the conductive polymer material includes a conductive polymer component selected from the group consisting of polyaniline, polypyrrole, polythiophenes, polyethylenedioxythiophene, poly(p-phen
A coupler includes a conductive polymer material that is so constructed and arranged to join tubing, wherein the conductive polymer material includes a conductive polymer component selected from the group consisting of polyaniline, polypyrrole, polythiophenes, polyethylenedioxythiophene, poly(p-phenylene vinylene) and mixtures thereof.
대표청구항▼
1. A medical device configured to detect dislodgement of an access device during medical treatment of a patient, the medical device comprising: a blood circuit connecting the patient to an extracorporeal blood system, wherein the blood circuit includes a blood tubing set having a tube member connect
1. A medical device configured to detect dislodgement of an access device during medical treatment of a patient, the medical device comprising: a blood circuit connecting the patient to an extracorporeal blood system, wherein the blood circuit includes a blood tubing set having a tube member connected to an access device, and wherein the access device is insertable within the patient such that blood flows between the patient and the extracorporeal blood system via the blood circuit;an electrode coupled to the blood circuit, and in fluid contact with the blood flowing in the blood circuit, the electrode made of a conductive polymer material including (a) a polymer matrix and a conductive component uniformly dispersed throughout the polymer matrix, wherein the polymer matrix is selected from the group consisting of acrylonitrile butadiene styrene, polycarbonate, acrylic, a cyclo olefin copolymer, a cyclo olefin copolymer blend, a metallocene-based polyethylene and mixtures thereof, or (b) a conductive polymer component selected from the group consisting of polyaniline, polypyrrole, polythiophene, polyethylenedioxthiophene, poly(p-phenylene vinylene) and mixtures thereof;anda controller in electrical communication with the electrode and configured to detect a change in an electrical value responsive to dislodgement of the access device as the blood flows between the patient and the extracorporeal blood system connected to the patient via the access device. 2. The medical device of claim 1, wherein the controller is configured to correct for a deviation from a baseline measurement of the electrical value detected within the conductor loop due to variations in the blood during the medical treatment. 3. The medical device according to claim 1, wherein the controller is capable of measuring a change in impedance in response to dislodgement of the access device. 4. The medical device of claim 1, wherein the conductive component is selected from the group consisting of stainless steel, fillers, carbon black, fibers thereof and mixtures thereof. 5. The medical device of claim 1, further including a coupler incorporated into a portion of the tube member so as to be in fluid contact with the blood flowing through the tube member, wherein the coupler includes a member that extends from at least a portion of an inner surface of the coupler and acts as a stop for a first and second portion of the tube member, thereby allowing a length of a tubing joint that is formed with the coupler and the tube member to be pre-set. 6. The medical device of claim 5, wherein the coupler is injection molded. 7. The medical device of claim 5, wherein the coupler is at least one of solvent bondable, heat sealable, laser weldable, and radio frequency sealable to the tube member. 8. The medical device of claim 5, further including a holding device that includes (i) a base member having a conductive base portion and (ii) an arm member pivotally attached to the base member, the coupler securely positioned between the arm member and the base member of the holding device. 9. The medical device of claim 1, wherein the access device is selected from the group consisting of a needle, a venous needle, and a catheter. 10. A medical device configured to detect dislodgement of an access device during medical treatment, the medical device comprising: a blood circuit connecting the patient to an extracorporeal blood system, wherein the blood circuit includes a blood tubing set having a first tube member connected to a first access device and a second tube member connected to a second access device, and wherein the first access device and second access device are each insertable within the patient such that blood flows between the patient and the extracorporeal blood system via the blood circuit; andfirst and second electrodes coupled to the first and second tube members, respectively, and in fluid contact with the blood flowing in the blood circuit, wherein the first and second electrodes are made of a conductive polymer material including (a) a polymer matrix and a conductive component uniformly dispersed throughout the polymer matrix, wherein the polymer matrix is selected from the group consisting of acrylonitrile butadiene styrene, polycarbonate, acrylic, a cyclo olefin copolymer, a cyclo olefin copolymer blend, a metallocene-based polyethylene and mixtures thereof, or (b) a conductive polymer component selected from the group consisting of polyaniline, polypyrrole, polythiophene, polvethylenedioxthiophene, poly(p-phenylene vinylene) and mixtures thereof;wherein the electrodes define a conductor loop that detects a change in an electrical value responsive to dislodgement of at least one of the access devices as the blood flows between the patient and the extracorporeal blood system connected to the patient via the access devices. 11. The medical device of claim 10, further comprising a controller configured to correct for a deviation from a baseline measurement of the electrical value detected within the conductor loop due to variations in the blood during the medical treatment. 12. The medical device according to claim 11, wherein the controller is capable of measuring a change in impedance in response to dislodgement of at least one of the access devices. 13. The medical device of claim 10, wherein the conductive component is selected from the group consisting of stainless steel, fillers, carbon black, fibers thereof and mixtures thereof. 14. The medical device of claim 10, further including first and second couplers incorporated into a portion of the first and second tube members, respectively, so as to be in fluid contact with the blood flowing through the respective first and second tube members, wherein each coupler includes a member that extends from at least a portion of an inner surface of the coupler and acts as a stop for a first and second portion of the respective tube member, thereby allowing a length of a tubing joint that is formed with the coupler and the respective tube member to be pre-set. 15. The medical device of claim 14, wherein the couplers are injection molded. 16. The medical device of claim 14, wherein the couplers are at least one of solvent bondable, heat sealable, laser weldable, and radio frequency sealable to the tube member. 17. The medical device of claim 14, further including first and second holding devices that each includes (i) a base member having a conductive base portion and (ii) an arm member pivotally attached to the base member, the couplers each securely positioned between the arm member and the base member of the respective holding device. 18. The medical device of claim 10, wherein the first access device and the second access device are selected from the group consisting of a needle, a venous needle, and a catheter. 19. A medical device configured to conduct a medical therapy and to detect an access disconnection during medical therapy, the medical device comprising: a dialysis machine having one or more connectors including an access device for connecting a patient to the dialysis machine via a blood circuit allowing blood to flow between the patient and the dialysis machine during medical therapy;an electrode coupled to the blood circuit and in fluid contact with the blood flowing in the blood circuit, the electrode made of a conductive polymer material including (a) a polymer matrix and a conductive component uniformly dispersed throughout the polymer matrix, wherein the polymer matrix is selected from the group consisting of acrylonitrile butadiene styrene, polycarbonate, acrylic, a cyclo olefin copolymer, a cyclo olefin copolymer blend, a metallocene-based polyethylene and mixtures thereof or (b) a conductive polymer component selected from the group consisting of polyaniline, polypyrrole, polythiophene,polyethylendioxthiophene,poly(p-phenylene vinylene) and mixtures,thereof;anda controller in electrical communication with the electrode and configured to generate an electrical signal that can be passed into the flowing blood via the electrode during the medical therapy. 20. The medical device of claim 19, wherein the access device is selected from the group consisting of a needle, a venous needle, and a catheter. 21. The medical device of claim 19, wherein the dialysis machine is capable of at least one of hemodialysis, hemodiafiltration, hemofiltration, and continuous renal replacement therapy. 22. The medical device of claim 19, wherein the controller is configured to sound an alarm or shut off a blood pump upon disconnection of the access device. 23. The medical device of claim 19, wherein the conductive component is selected from the group consisting of stainless steel, fillers, carbon black, fibers thereof and mixtures thereof. 24. The medical device of claim 19, further including a coupler incorporated into a portion of the blood circuit so as to be in fluid contact with the blood flowing through the blood circuit, wherein the coupler includes a member that extends from at least a portion of an inner surface of the coupler and acts as a stop for a first and second portion of the blood circuit, thereby allowing a length of a tubing joint that is formed with the coupler and the blood circuit to be pre-set. 25. The medical device of claim 24, wherein the coupler is injection molded. 26. The medical device of claim 24, wherein the coupler is at least one of solvent bondable, heat sealable, laser weldable, and radio frequency sealable to the tube member. 27. The medical device of claim 24, further including (a) a holding device that includes (i) a base member having a conductive base portion and (ii) an arm member pivotally attached to the base member, the coupler securely positioned between the arm member and the base member of the holding device. 28. A medical device configured to detect dislodgement of an access device during medical treatment of a patient, the medical device comprising: a blood circuit connecting the patient to an extracorporeal blood system, wherein the blood circuit includes a blood tubing set having a tube member connected to an access device, wherein the access device is insertable within the patient such that blood flows between the patient and the extracorporeal blood system via the blood circuit; anda pair of electrodes coupled to the blood circuit and in fluid contact with the blood flowing in the blood circuit, the electrodes made of a conductive polymer material including (a) a polymer matrix and a conductive component uniformly dispersed throughout the polymer matrix, wherein the polymer matrix is selected from the group consisting of acrylonitrile butadiene styrene, polycarbonate, acrylic, a cyclo olefin copolymer, a cyclo olefin copolymer blend, a metallocene-based polyethylene and mixtures thereof or (b) a conductive polymer component selected from the group consisting of polvaniline, polypyrrole, polythiophene, polvethylenedioxthiophene, polyp-phenylene vinylene) and mixtures thereof;wherein the electrodes define a conductor loop that detects a change in an electrical value responsive to dislodgement of the access device as the blood flows between the patient and the extracorporeal blood system connected to the patient via the access device. 29. The medical device of claim 28, wherein the conductive component is selected from the group consisting of stainless steel, fillers, carbon black, fibers thereof and mixtures thereof.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (304)
Larsonneur Lionel M. (Pomona CA), Absorbent adult fitted briefs and pads.
La Wilhelm Hoa ; Bauerle Jennifer Marie,GBX ; Heyn David Willis ; Leak Allen Todd ; Peterson Dale Arthur ; Rippl Carl Gerard ; Underhill Diane Michele ; Workman ; Jr. Jerome James, Absorbent article with wetness indicator.
Mitchell Winalee G. (Perrysburg OH) Szypka Andrew J. (Curtice OH) Plotka Michael (Waterville OH), Absorbent product including super absorbent material and a fluid absorption capacity monitor.
Cavalcanti,Silvio; Lodi,Carlo Alberto; Fava,Massimo, Apparatus and method for monitoring a vascular access of a patient subjected to an extracorporeal blood treatment.
Bobo ; Jr. Donald E. (Orange CA) Figler Alan A. (Crystal Lake IL) Frank Jeffrey L. (Corona CA), Apparatus and method for the detection of air in fluid delivery systems.
Beck Walter (Obere Hslibachstr. 87 CH-8700 Ksnacht DEX) Berger Siegfried (Wernau DEX) Werner Heinz-Peter (Mainz DEX), Apparatus for aspirating secreted fluids from a wound.
Connell Mark E. ; Bedient Robert A. ; Elsen Raymond,BEX ; Hogard Michael E. ; Johnson Harley D. ; Kelly Thomas D. ; Long Jean McEvoy ; Peterson Bruce A. ; Preston ; Jr. William G. ; Smejtek Dalibor J, Apparatus for kidney dialysis.
Peterson Bruce A. (Milwaukie OR) Connell Mark E. (Sandy OR) Bedient Robert A. (Portland OR) Elsen Raymond (Antwerp OR BEX) Hogard Michael E. (Oregon City OR) Johnson Harley D. (Portland OR) Kelly Tho, Apparatus for performing a self-test of kidney dialysis membrane.
Kline Michael J. (Pittsburgh PA) Pottgen Paul A. (Allison Park PA) Szuminsky Neil J. (Pittsburgh PA), Apparatus for sensing wet diaper including circuit breaker.
Kenley Rodney S. (Libertyville IL) Treu Dennis M. (Gurnee IL) Peter ; Jr. Frederick H. (Barrington IL) Feldsein Thomas M. (Palatine IL) Pawlak Kenneth E. (Vernon Hills IL), Apparatus for supplying a batch of chemicals to a dialysate tank.
Bobo ; Jr. Donald E. (Irvine CA) Seguine Dennis R. (Mission Viejo CA) Lapp Theodore R. (Mission Viejo CA), Automatic infiltration detection system and method.
Duponchelle Annick,BEX ; Faict Dirk,BEX ; Balteau Patrick,BEX ; Hartman Jean-Pierre,BEX ; Martis Leo ; Peluso Francesco,BEX, Bicarbonate-based solution in two parts for peritoneal dialysis or substitution in continuous renal replacement therapy.
Tahua Yang ; Sherwin Shang ; Joel Warren ; Samuel Ding ; Michael T. K. Ling ; Lecon Woo, Blend of ethylene and .alpha.-olefin copolymers obtained using a metallocene catalyst for fabricating medical films and tubings.
Louderback Allan L. (9661 Longden Ave. Temple City CA 91780) Szatkowski Paul R. (24 Winthrop Rd. Bethel CT 06801), Blood biochemistry control standard.
Fischel Halbert (5301 Newcastle ; No. 16 Encino CA 91316), Blood leak detector comparing intensities of high absorption band and low absorption band of a single beam of light pass.
Ishihara Toshikazu (Yatagawa Park House C ; 10-7 ; Daiko-cho Aichi JPX) Kitano Tomoyuki (Yatagawa Park House C ; 10-7 ; Daiko-cho Aichi JPX) Maeda Kenji (Yatagawa Park House C ; 10-7 ; Daiko-cho Higa, Blood purification apparatus.
Kenley Rodney S. ; Kapadia Seema A. ; Schroeder Christine F. ; Feldsien Thomas M. ; Duch Michael ; Treu Dennis M. ; Peter ; Jr. Frederick H., Blood tubing set integrity tests for extracorporeal circuits.
Han Chien-Chung (Madison NJ) Baughman Ray H. (Morris Plains NJ) Elsenbaumer Ronald L. (Morris Township ; Morris County NJ), Conductive polymer film formation using initiator pretreatment.
Peabody Alan M. (102 Meadow Creek Ct. Greer SC 29651) Anderson ; Jr. Olin S. (1216 Morven Rd. Wadesboro NC 28170) Morton Henry H. (100 Covington St. Wadesboro NC 28170), Continuous cyclic peritoneal dialysis system and method.
Ding Yuan-pang Samuel ; Qin Chuan ; Woo Lecon ; Ling Michael T. K. ; Shang Sherwin ; Yang Tahua, Cycloolefin blends and method for solvent bonding polyolefins.
Pourahmadi, Farzad; McMillan, William A.; Ching, Jesus; Chang, Ronald; Christel, Lee A.; Kovacs, Gregory T. A.; Northrup, M. Allen; Petersen, Kurt E., Device incorporating a microfluidic chip for separating analyte from a sample.
Kenley Rodney S. (Libertyville IL) Matthews Dawn (Grayslake IL) Treu Dennis M. (Gurnee IL) Peter ; Jr. Frederick H. (Barrington IL) Feldsein Thomas M. (Palatine IL) Minns H. Gordon (Jackson WY), Dialysate separation method.
Bene Bernard,FRX ; Burtin Jacques,FRX, Dialysis apparatus for independently controlling the concentration of at least two ionic substances inside a patient's body.
Harm William H. (Columbia Heights MN) Fuller Larry E. (Minnetonka MN) Caine Earnest R. (Bloomington MN) Cracauer Raymond F. (Minneapolis MN) Cosentino Louis C. (Wayzata MN) Martinez F. Jesus (Plymout, Dialysis solution mixing system.
Everhart Dennis (Alpharetta GA) Deibler Elizabeth A. (Dunwoody GA) Taylor Julie R. (Snellville GA), Disposable absorbent product incorporating chemically reactive substance.
Roe Donald C. ; Allen Patrick J. ; Ehrnsperger Bruno J.,DEX ; Schmidt Mattias,DEX ; Ronn Karl P. ; Kruchinin Mikhail K.,RUX ; Litvin Simon S. ; Khomjakov Oleg N.,RUX, Disposable article having a discontinuous responsive system.
Roe Donald C. ; Allen Patrick J. ; Ehrnsperger Bruno J.,DEX ; Schmidt Mattias,DEX ; Ronn Karl P. ; Kruchinin Mikhail K.,RUX ; Litvin Simon S. ; Khomjakov Oleg N.,RUX, Disposable article having a responsive system including a feedback control loop.
Roe Donald C. ; Coles Peter,ITX ; Kruchinin Mikhail K. ; Litvin Simon S. ; Khomjakov Oleg N.,RUX ; Osborne ; Jr. Thomas J., Disposable article having proactive sensors.
Masia Michael (Redwood City CA) Reed James P. (San Francisco CA) Wasley Robert S. (San Carlos CA) Hauptly Paul D. (Fremont CA) Reeder Larry R. (San Jose CA) Brooks Peter L. (Los Altos CA) Tolles Thom, Elongate sensors comprising conductive polymers, and methods and apparatus using such sensors.
Panescu, Dorin; Swanson, David K.; Whayne, James G.; Kordis, Thomas F., Expandable-collapsible electrode structures made of electrically conductive material.
Kenley Rodney S. (Libertyville IL) Matthews Dawn (Grayslake IL) Wilkerson Douglas L. (Gurnee IL) Treu Dennis M. (Gurnee IL) Peter ; Jr. Frederick H. (Barrington IL) Brose Tom L. (Gurnee IL) Feldsein , Filter integrity test method for dialysis machines.
Bobo ; Jr. Donald E. (Orange CA) Meier Edward F. (Anaheim Hills CA) Seguine Dennis R. (Mission Viejo CA) Lapp Theodore R. (Mission Viejo CA), Infusion system, methodology, and algorithm for identifying patient-induced pressure artifacts.
Carmona Francois (Gradignan FRX) Maire Jacques (Paris FRX) Septier Hlne (Paris FRX) Canet Roland (Lormont FRX) Delhaes Pierre (Gradignan FRX), Material having a resistivity with a positive temperature coefficient.
Maltais Jo-Ann B. (Morrison CO) Wood Archie T. (Toronto OH) Hovland Roy S. (Denver CO), Method and apparatus for cleaning a dialysate circuit downstream of a dialyzer.
Roveti Denes K. (240 Old Mill Bottom Rd. Annapolis MD 21012), Method and apparatus for converting a conventional DC multimeter to an AC impedance meter.
Hogard Michael E. ; Johnson Harley D. ; Kelly Thomas D. ; Long Jean McEvoy ; Peterson Bruce A. ; Preston ; Jr. William G., Method and apparatus for kidney dialysis.
Peterson Bruce A. (Milwaukie OR) Hogard Michael E. (Oregon City OR) Johnson Harley D. (Portland OR) Kelly Thomas D. (Portland OR) Long Jean M. (Portland OR) Preston ; Jr. William G. (Portland OR), Method and apparatus for kidney dialysis.
Bowman H. Frederick (Needham MA) Burns Stephen K. (Henniker NH) Edell David J. (Lexington MA) Weaver James C. (Sudbury MA), Method and apparatus for measuring oxygen partial pressure and temperature in living tissue.
Beck Walter (Obere Hslibachstr. 87 CH-8700-Ksnacht DEX) Berger Siegfried (Wernau DEX) Werner Heinz-Peter (Mainz DEX), Method and appparatus for aspirating secreted fluids from a wound.
Balschat, Klaus; Ender, Helmuth; Gagel, Alfred; Spickermann, Reiner, Method and device for detecting a leakage in a fluid system of a blood treatment apparatus.
Spickermann, Reiner, Method and device for extracorporeal blood treatment with a means for continuous monitoring of the extracorporeal blood treatment.
Lodi,Carlo Alberto; Paolini,Francesco; Canini,Enrico, Method and device for sensing the detachment of the venous needle from a patient during an extracorporeal blood treatment in a dialysis machine.
Beck Walter (Obere Hslibachstr. 87 CH-8700 Ksnacht DEX) Berger Siegfried (Wernau DEX) Werner Heinz-Peter (Mainz DEX), Method for aspirating secreted fluids from a wound.
Goldau,Rainer; Graf,Thomas; Gross,Malte, Method for determining the distribution volume of a blood component during an extracorporeal blood treatment and device for carrying out the method.
Petersen, Kurt E.; McMillan, William A.; Christel, Lee A.; Chang, Ronald; Pourahmadi, Farzad; Ching, Jesus; Kovacs, Gregory T. A.; Northrup, M. Allen, Method for separating analyte from a sample.
Goux Nicolas (Craponne FRX) Bene Bernard (Irigny FRX), Method for the determination of a significant parameter of the progess of an extracorporeal treatment of blood.
Shaw Robert F. (135 Willowbrook Drive Portola Valley CA 94025), Method of detecting infiltration of infused liquid by comparing altered skin temperature with skin temperature in area o.
Zakin Mitchell R. (Bradford MA) Bernstein Lawrence S. (Lexington MA) Moody Richard A. (Nashua NH), Method of making a conductive polymer selective species sensor.
Kleinekofort Wolfgang,DEX, Method of monitoring a vascular access and an apparatus for extracorporeal treatment of blood with a device for monitoring the vascular access.
Kleinekofort, Wolfgang, Method of monitoring a vascular access and an apparatus for extracorporeal treatment of blood with a device for monitoring the vascular access.
Kamen Dean (Bedford NH) Spencer Geoffrey P. (Manchester NH) Vincent Douglas E. (Manchester NH), Peritoneal dialysis systems employing a liquid distribution and pumping cassette that emulates gravity flow.
Jerman John H. (Palo Alto CA) Toth Ronald E. (Grayslake IL) Winchell David A. (Fox Lake IL) Pennington David W. (Fox Lake IL), Pulsed thermal flow sensor system.
Mahgerefteh Nasser (21101 Shaw La. Huntington Beach CA 92646) Schleicher Israel D. (10901 Bahia Ct. Bakersfield CA 93311), Remote wetness sensor for diapers.
Karinka, Shridhara Alva; Moser, Isabella; Jobst, Gerhard; Tietjen, Uwe; Petrou, Panagiota S.; Herberth, Uwe; Urban, Gerald, Sensor having electrode for determining the rate of flow of a fluid.
Liu Nan-I (Mt. Vernon IN) van der Meer Roelof (Bergen op Zoom NLX), Synergistic effect of metal flake and metal or metal coated fiber on EMI shielding effectiveness of thermoplastics.
Kensey Kenneth ; Clupper Harold, System including an implantable device and methods of use for determining blood pressure and other blood parameters of a living being.
Truitt Lori A. ; Corbin ; III Frank ; Lobdell Donn D. ; Miller Douglas P. ; Manica Keith ; Eilers George J. ; Johnson Steven H. ; Leppert Lawrence L., Technique for extracorporeal treatment of blood.
Truitt Lori A. ; Corbin ; III Frank ; Lobdell Donn D. ; Miller Douglas P. ; Manica Keith ; Eilers George J. ; Johnson Steven H. ; Leppert Lawrence L., Technique for extracorporeal treatment of blood.
Glaug Frank Steven (Appleton WI) Brunner Michael Scott (Appleton WI) Cochrane Faith Eileen (Appleton WI) Durrance Debra Hartley (Appleton WI) Olson Christopher Peter (Neenah WI) Schleinz Robert Josep, Toilet training aid.
Glaug Frank Steven ; Brunner Michael Scott ; Cochrane Faith Eileen ; Durrance Debra Hartley ; Olson Christopher Peter ; Schleinz Robert Joseph ; Thiessen Richard Harry, Toilet training aid providing a dimensional change.
Glaug Frank Steven (Appleton WI) Brunner Michael Scott (Appleton WI) Cochrane Faith Eileen (Appleton WI) Durrance Debra Hartley (Appleton WI) Olson Christopher Peter (Neenah WI) Schleinz Robert Josep, Toilet training aid providing a temperature and dimensional change sensation.
Lewis, Nathan S.; Severin, Erik J.; Freund, Michael; Matzger, Adam J., Use of an array of polymeric sensors of varying thickness for detecting analytes in fluids.
Lewis, Nathan S.; Severin, Erik J.; Freund, Michael; Matzger, Adam J., Use of an array of polymeric sensors of varying thickness for detecting analytes in fluids.
Nathan S. Lewis ; Erik J. Severin ; Michael Freund ; Adam J. Matzger, Use of an array of polymeric sensors of varying thickness for detecting analytes in fluids.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.