Detailed information about the 100 most recent patent applications.
| Application Number | Title | Filing Date | Disposal Date | Disposition | Time (months) | Office Actions | Restrictions | Interview | Appeal |
|---|---|---|---|---|---|---|---|---|---|
| 18730241 | SOLAR GLASS ASSEMBLY | July 2024 | March 2025 | Allow | 7 | 0 | 0 | Yes | No |
| 18765993 | PASSIVATED CONTACT STRUCTURE AND SOLAR CELL COMPRISING THE SAME, CELL ASSEMBLY, AND PHOTOVOLTAIC SYSTEM | July 2024 | January 2025 | Allow | 6 | 1 | 0 | Yes | No |
| 18765184 | PASSIVATED CONTACT STRUCTURE AND SOLAR CELL COMPRISING THE SAME, CELL ASSEMBLY, AND PHOTOVOLTAIC SYSTEM | July 2024 | May 2025 | Allow | 10 | 2 | 0 | Yes | No |
| 18657783 | PASSIVATED CONTACT STRUCTURE AND SOLAR CELL COMPRISING THE SAME, CELL ASSEMBLY, AND PHOTOVOLTAIC SYSTEM | May 2024 | August 2024 | Allow | 3 | 0 | 0 | No | No |
| 18424301 | DEVICE FOR PHOTOVOLTAIC POWER GENERATION AND METHOD THEREFOR | January 2024 | June 2024 | Allow | 5 | 0 | 0 | Yes | No |
| 18528948 | INNOVATIVE NANOPORE SEQUENCING TECHNOLOGY | December 2023 | November 2024 | Allow | 11 | 1 | 0 | Yes | No |
| 18227274 | DYE-SENSITIZED SOLAR CELL AND METHOD FOR MANUFACTURING DYE-SENSITIZED SOLAR CELL | July 2023 | March 2025 | Abandon | 19 | 1 | 0 | No | No |
| 18120977 | AUTONOMOUS ELECTRICAL POWER SOURCES | March 2023 | March 2024 | Allow | 12 | 1 | 0 | Yes | No |
| 18006581 | SOLAR CELL AND ELECTRONIC DEVICE HAVING THE SAME | January 2023 | June 2024 | Allow | 17 | 0 | 0 | Yes | No |
| 18068530 | THERMOELECTRIC CONVERSION MATERIAL, THERMOELECTRIC CONVERSION ELEMENT, THERMOELECTRIC CONVERSION MODULE, METHOD OF POWER GENERATION, AND METHOD OF HEAT TRANSFER | December 2022 | December 2024 | Allow | 24 | 1 | 0 | No | No |
| 18011091 | PHOTOVOLTAIC SOLAR INSTALLATION HAVING BIFACIAL PANELS | December 2022 | October 2024 | Abandon | 22 | 1 | 0 | No | No |
| 18076612 | Materials and Method for Trapping Lead Leakage in Perovskite Solar Cells | December 2022 | September 2024 | Allow | 21 | 1 | 1 | No | No |
| 18074926 | FUEL CELL SYSTEM WITHOUT HIGH PRESSURE LINE OF HYDROGEN SUPPLYING SYSTEM AND CONTROL METHOD THEREOF | December 2022 | August 2023 | Allow | 8 | 0 | 0 | Yes | No |
| 18072775 | CAM-ACTUATED SELF-LOCKING CLAMP ASSEMBLY FOR SOLAR PANELS | December 2022 | June 2025 | Allow | 30 | 0 | 0 | No | No |
| 17927989 | SOLAR CELL AND SOLAR CELLS MODULE | November 2022 | February 2025 | Allow | 27 | 3 | 0 | Yes | No |
| 18048152 | POLYMER SOLAR CELL HAVING CATHODE BUFFER LAYER INCLUDING ACID DERIVATIVE-ADDED CONJUGATE POLYMER ELECTROLYTE | October 2022 | May 2024 | Allow | 19 | 1 | 0 | No | No |
| 17964187 | SOLAR CELL SEALING MATERIAL AND SOLAR CELL MODULE | October 2022 | May 2025 | Allow | 31 | 4 | 0 | Yes | Yes |
| 17930865 | INNOVATIVE NANOPORE SEQUENCING TECHNOLOGY | September 2022 | January 2024 | Abandon | 16 | 1 | 1 | No | No |
| 17881650 | CELL, CELL STACK UNIT, ELECTROCHEMICAL MODULE, AND ELECTROCHEMICAL APPARATUS | August 2022 | September 2023 | Allow | 13 | 1 | 0 | Yes | No |
| 17794219 | PHOTOVOLTAIC MODULE, PHOTOVOLTAIC MODULE FASTENING SYSTEM, PHOTOVOLTAIC MODULE FASTENING METHOD | July 2022 | September 2024 | Abandon | 26 | 2 | 0 | No | No |
| 17865447 | High Efficiency Nickel-Iron Battery | July 2022 | May 2025 | Abandon | 34 | 3 | 1 | No | No |
| 17758736 | Ventilated Multilayer Solar Panel with Dynamic Digital Filter | July 2022 | June 2024 | Allow | 23 | 1 | 0 | No | No |
| 17862359 | PASSIVATED CONTACT STRUCTURE AND SOLAR CELL COMPRISING THE SAME, CELL ASSEMBLY, AND PHOTOVOLTAIC SYSTEM | July 2022 | September 2024 | Allow | 27 | 0 | 0 | No | No |
| 17840634 | ANODE MATERIAL FOR SECONDARY BATTERY, ANODE FOR SECONDARY BATTERY AND SECONDARY BATTERY | June 2022 | July 2023 | Allow | 13 | 0 | 1 | No | No |
| 17829124 | DECORATIVE SOLAR PANEL AND METHOD OF MANUFACTURE THEREOF | May 2022 | June 2025 | Abandon | 37 | 2 | 0 | Yes | No |
| 17734622 | SUBSTRATE FOR LITHIUM ION BATTERY SEPARATORS AND LITHIUM ION BATTERY SEPARATOR | May 2022 | October 2023 | Abandon | 17 | 1 | 0 | No | No |
| 17773050 | PHOTOVOLTAIC ELEMENT WITH IMPROVED EFFICIENCY IN THE EVENT OF SHADE, AND METHOD FOR PRODUCING SUCH A PHOTOVOLTAIC ELEMENT | April 2022 | May 2025 | Allow | 37 | 3 | 1 | Yes | No |
| 17658302 | Bypass Diode Interconnect for Thin Film Solar Modules | April 2022 | May 2024 | Allow | 26 | 1 | 0 | Yes | No |
| 17628967 | HYBRID POWER GENERATION SYSTEM | January 2022 | March 2025 | Allow | 38 | 2 | 0 | No | No |
| 17573034 | COOLING SYSTEM FOR SOLAR PHOTOVOLTAC PANELS | January 2022 | April 2025 | Allow | 39 | 4 | 0 | Yes | No |
| 17621076 | PHOTOELECTRIC WINDOW BLINDS | December 2021 | December 2023 | Allow | 24 | 0 | 0 | No | No |
| 17621102 | CONNECTION STRUCTURE BETWEEN FLEXIBLE SUBSTRATE AND BUS BAR, WIRING MODULE AND ELECTRICITY STORAGE MODULE | December 2021 | April 2025 | Allow | 40 | 1 | 0 | Yes | No |
| 17557001 | FLEXIBLE ASSEMBLY WITH STAINLESS STEEL MESH PACKAGING STRUCTURE | December 2021 | April 2023 | Allow | 16 | 1 | 0 | Yes | No |
| 17551351 | POWER STORAGE MODULE | December 2021 | March 2025 | Allow | 39 | 1 | 0 | No | No |
| 17618918 | HYBRID FUNCTIONAL FLUOROPOLYMERS FOR LITHIUM ION BATTERY | December 2021 | May 2025 | Abandon | 42 | 0 | 1 | No | No |
| 17544393 | Secondary Battery and Method for Manufacturing the Same | December 2021 | September 2024 | Allow | 34 | 3 | 0 | Yes | No |
| 17614310 | PHOTOVOLTAIC MODULE, BACK SHEET OF PHOTOVOLTAIC MODULE AND MANUFACTURING METHOD OF PHOTOVOLTAIC MODULE | November 2021 | June 2025 | Allow | 43 | 4 | 0 | No | No |
| 17532665 | Height Adjustable Solar Panel Mounting Assembly | November 2021 | May 2023 | Allow | 17 | 1 | 0 | Yes | No |
| 17595420 | WET-CHEMICALLY PREPARED POLYMERIC LITHIUM PHOSPHORUS OXYNI-TRIDE (LIPON), METHOD FOR THE PREPARATION THEREOF, USES THEREOF, AND BATTERY | November 2021 | May 2025 | Abandon | 42 | 0 | 1 | No | No |
| 17522187 | STEPPED ELECTROCHEMICAL CELLS WITH FOLDED SEALED PORTION | November 2021 | March 2025 | Allow | 41 | 1 | 0 | No | No |
| 17509060 | PASSIVATED CONTACT STRUCTURE AND SOLAR CELL COMPRISING THE SAME, CELL ASSEMBLY, AND PHOTOVOLTAIC SYSTEM | October 2021 | April 2022 | Allow | 5 | 0 | 1 | No | No |
| 17605983 | CRYSTAL SILICON SOLAR CELL MODULE AND CELL AGGREGATE FOR CRYSTAL SILICON SOLAR CELL MODULE | October 2021 | September 2024 | Allow | 35 | 1 | 0 | No | No |
| 17503993 | SUNLIGHT HARVESTING TRANSPARENT WINDOWS | October 2021 | June 2024 | Allow | 32 | 1 | 0 | Yes | No |
| 17599147 | SOLAR CELL STRUCTURE AND METHOD FOR PREVENTING SNOW PILING ONTO SOLAR CELL STRUCTURE | September 2021 | January 2024 | Abandon | 28 | 1 | 0 | No | No |
| 17484342 | Integrated Solar Collectors Using Epitaxial Lift Off and Cold Weld Bonded Semiconductor Solar Cells | September 2021 | July 2024 | Allow | 33 | 2 | 1 | Yes | No |
| 17427514 | POWER-GENERATING BUILDING MATERIALS AND PREPARATION PROCESS THEREOF | September 2021 | November 2024 | Allow | 39 | 2 | 1 | No | No |
| 17469498 | PHOTOVOLTAIC MODULE | September 2021 | December 2023 | Allow | 28 | 2 | 1 | Yes | No |
| 17329547 | SPACER FORMATION IN A SOLAR CELL USING OXYGEN ION IMPLANTATION | May 2021 | October 2024 | Allow | 41 | 3 | 0 | Yes | No |
| 17235072 | SYSTEMS AND DEVICES POWERED BY AUTONOMOUS ELECTRICAL POWER SOURCES | April 2021 | January 2024 | Allow | 32 | 1 | 0 | Yes | No |
| 17184999 | METHOD AND APPARATUS FOR THERMAL-TO-ELECTRICAL ENERGY CONVERSION | February 2021 | August 2023 | Abandon | 30 | 1 | 0 | Yes | No |
| 17176489 | METAL-FOIL-ASSISTED FABRICATION OF THIN-SILICON SOLAR CELL | February 2021 | May 2024 | Allow | 39 | 3 | 0 | Yes | No |
| 17145383 | ELECTROLYTIC COPPER FOIL FOR SECONDARY BATTERY AND METHOD FOR PRODUCING THE SAME | January 2021 | October 2022 | Allow | 21 | 0 | 0 | Yes | No |
| 17141917 | PHOTOVOLTAIC MODULE, PHOTOVOLTAIC PANEL, AND PRODUCTION METHOD FOR PHOTOVOLTAIC MODULE | January 2021 | September 2023 | Allow | 32 | 1 | 1 | Yes | No |
| 17091232 | PROTECTED ELECTRODE STRUCTURES | November 2020 | May 2023 | Allow | 30 | 1 | 0 | Yes | No |
| 17082995 | LEAVE-IN ETCH MASK FOR FOIL-BASED METALLIZATION OF SOLAR CELLS | October 2020 | August 2023 | Allow | 33 | 1 | 0 | Yes | No |
| 17068927 | SOLAR CELL AND PHOTOVOLTAIC MODULE | October 2020 | January 2024 | Allow | 39 | 2 | 1 | Yes | No |
| 17063529 | SYSTEM AND METHOD FOR SOLAR CELL ARRANGEMENT ON THE DASHBOARD OF A VEHICLE | October 2020 | June 2022 | Abandon | 21 | 2 | 0 | No | No |
| 16980302 | ORGANIC MATERIAL AND PHOTOELECTRIC CONVERSION ELEMENT | September 2020 | November 2023 | Allow | 38 | 1 | 0 | Yes | No |
| 16937640 | SOLAR PANEL ROOF SYSTEM WITH RAISED ACCESS PANELS | July 2020 | June 2023 | Allow | 35 | 3 | 0 | Yes | No |
| 16903202 | FUSED AND CROSS-LINKABLE IONIC HOLE TRANSPORT MATERIALS FOR PEROVSKITE SOLAR CELLS | June 2020 | March 2024 | Abandon | 45 | 0 | 1 | No | No |
| 16898474 | SOLID-STATE BATTERY AND METHOD FOR MANUFACTURING THE SAME | June 2020 | January 2024 | Allow | 43 | 2 | 1 | Yes | No |
| 15930074 | CATALYST MATERIALS FOR A FUEL CELL STACK | May 2020 | April 2023 | Allow | 35 | 2 | 2 | Yes | No |
| 16761526 | SOLAR CELL SEALING MATERIAL AND SOLAR CELL MODULE | May 2020 | December 2022 | Abandon | 32 | 1 | 0 | No | No |
| 16761729 | CONDUCTIVE PASTE FOR SOLAR CELL ELECTRODE, AND SOLAR CELL MANUFACTURED USING SAME | May 2020 | October 2022 | Abandon | 30 | 1 | 0 | No | No |
| 16862588 | ANODE MATERIAL FOR SECONDARY BATTERY, ANODE FOR SECONDARY BATTERY AND SECONDARY BATTERY | April 2020 | April 2023 | Allow | 35 | 1 | 1 | Yes | No |
| 16760323 | CONDUCTIVE PASTE FOR SOLAR CELL ELECTRODE, GLASS FRIT CONTAINED THEREIN, AND SOLAR CELL | April 2020 | October 2022 | Abandon | 29 | 1 | 0 | No | No |
| 16856371 | TILTING SOLAR PANEL MOUNT | April 2020 | December 2020 | Allow | 8 | 1 | 1 | No | No |
| 16753432 | SEPARATOR FOR LITHIUM SULFUR BATTERIES | April 2020 | March 2024 | Allow | 48 | 3 | 1 | Yes | No |
| 16787126 | ELECTROLTYE AND LITHIUM BATTERY INCLUDING THE ELECTROLYTE | February 2020 | November 2024 | Abandon | 57 | 6 | 0 | No | No |
| 16778003 | ELECTROLYTE, LITHIUM BATTERY INCLUDING THE SAME, AND METHOD OF MANUFACTURING THE LITHIUM BATTERY | January 2020 | February 2024 | Abandon | 49 | 4 | 1 | No | No |
| 16632227 | DYE-SENSITIZED PHOTOELECTRIC CONVERSION ELEMENT | January 2020 | June 2020 | Allow | 5 | 0 | 0 | No | No |
| 16740260 | INTERNALLY REFLECTIVE SOLAR PANEL SYSTEM | January 2020 | July 2022 | Allow | 30 | 1 | 1 | Yes | No |
| 16612850 | METHOD OF PRODUCING SEMICONDUCTOR SINTERED BODY, ELECTRICAL/ELECTRONIC MEMBER, AND SEMICONDUCTOR SINTERED BODY | November 2019 | October 2022 | Allow | 35 | 2 | 1 | Yes | No |
| 16674301 | LIGHT COLLECTION AND REDIRECTION TO A SOLAR PANEL | November 2019 | December 2022 | Abandon | 37 | 3 | 1 | No | No |
| 16603649 | SEPARATOR FOR SECONDARY BATTERY AND LITHIUM SECONDARY BATTERY COMPRISING SAME | October 2019 | December 2021 | Allow | 26 | 1 | 0 | No | No |
| 16496202 | LITHIUM SECONDARY BATTERY | September 2019 | March 2025 | Abandon | 60 | 8 | 0 | Yes | No |
| 16572353 | ALL SOLID BATTERY | September 2019 | April 2024 | Abandon | 55 | 4 | 0 | No | No |
| 16479180 | Method for Manufacturing Mono Cell | September 2019 | June 2022 | Allow | 35 | 2 | 0 | No | No |
| 16566664 | SECONDARY BATTERY | September 2019 | January 2022 | Allow | 28 | 2 | 0 | No | No |
| 16554302 | Height Adjustable Solar Panel Mounting Assembly | August 2019 | June 2021 | Allow | 22 | 0 | 0 | Yes | No |
| 16485700 | Organic Photoactive Layer Composite Ink, Organic Solar Cell and Preparation Methods Thereof | August 2019 | June 2023 | Allow | 46 | 2 | 1 | Yes | No |
| 16430468 | CELL, CELL STACK UNIT, ELECTROCHEMICAL MODULE, AND ELECTROCHEMICAL APPARATUS | June 2019 | May 2022 | Allow | 35 | 0 | 1 | Yes | No |
| 16424715 | WATER RECAPTURE/RECYCLE SYSTEM IN ELECTROCHEMICAL CELLS | May 2019 | June 2020 | Abandon | 13 | 0 | 0 | No | No |
| 16463952 | Secondary Battery and Method for Manufacturing the Same | May 2019 | December 2021 | Abandon | 31 | 2 | 1 | Yes | No |
| 16396495 | MULTI-JUNCTION PHOTOVOLTAIC CELL HAVING WIDE BANDGAP OXIDE CONDUCTOR BETWEEN SUBCELLS AND METHOD OF MAKING SAME | April 2019 | September 2024 | Allow | 60 | 4 | 1 | No | Yes |
| 16343500 | ELECTROLYTIC COPPER FOIL FOR SECONDARY BATTERY AND METHOD FOR PRODUCING THE SAME | April 2019 | May 2022 | Allow | 37 | 2 | 1 | Yes | No |
| 16372753 | Solar Panel Module and Solar Panel Apparatus | April 2019 | October 2020 | Abandon | 18 | 1 | 0 | No | No |
| 16366277 | SOLAR CELL | March 2019 | April 2022 | Allow | 36 | 2 | 0 | Yes | No |
| 16336781 | METHOD FOR THE ENCAPSULATION OF PHOTOVOLTAIC PANELS IN USING PRE-IMPREGNATED MATERIALS | March 2019 | October 2022 | Abandon | 42 | 3 | 0 | Yes | No |
| 16334983 | Luminescent Solar Concentrator | March 2019 | March 2022 | Allow | 36 | 2 | 0 | Yes | No |
| 16297149 | Photovoltaic-Phase Change Battery System for Converting Intermittent Solar Power into Day and Night Electric Power | March 2019 | January 2020 | Allow | 10 | 1 | 1 | Yes | No |
| 16330750 | SOLAR CELL PHOTOVOLTAIC MODULE AND SOLAR CELL PHOTOVOLTAIC ASSEMBLY | March 2019 | March 2024 | Abandon | 60 | 5 | 0 | Yes | No |
| 16270010 | NANOCOMPOSITE ELECTRODE MATERIALS FOR USE IN HIGH TEMPERATURE AND HIGH PRESSURE RECHARGEABLE BATTERIES | February 2019 | January 2023 | Allow | 47 | 4 | 0 | Yes | No |
| 16323334 | SUBSTRATE FOR LITHIUM ION BATTERY SEPARATORS AND LITHIUM ION BATTERY SEPARATOR | February 2019 | January 2023 | Allow | 47 | 2 | 1 | No | No |
| 16323371 | POSITIVE ELECTRODE ACTIVE MATERIAL FOR NONAQUEOUS ELECTROLYTE SECONDARY BATTERIES, POSITIVE ELECTRODE FOR NONAQUEOUS ELECTROLYTE SECONDARY BATTERIES, NONAQUEOUS ELECTROLYTE SECONDARY BATTERY, AND METHOD FOR PRODUCING POSITIVE ELECTRODE ACTIVE MATERIAL FOR NONAQUEOUS ELECTROLYTE SECONDARY BATTERIES | February 2019 | July 2022 | Abandon | 42 | 1 | 0 | No | No |
| 16320057 | CATHODE ACTIVE MATERIAL FOR LITHIUM SECONDARY BATTERY, METHOD FOR PREPARING SAME, AND LITHIUM SECONDARY BATTERY COMPRISING SAME | January 2019 | May 2023 | Allow | 52 | 3 | 1 | Yes | No |
| 16217252 | ELECTRICALLY CONDUCTIVE ADHESIVE FOR CONNECTING CONDUCTORS TO SOLAR CELL CONTACTS | December 2018 | December 2020 | Abandon | 24 | 2 | 0 | No | No |
| 16214607 | ELECTRONIC ASSEMBLIES INCORPORATING HEAT FLUX ROUTING STRUCTURES FOR THERMOELECTRIC GENERATION | December 2018 | July 2021 | Allow | 31 | 1 | 1 | Yes | No |
| 16215139 | INNOVATIVE NANOPORE SEQUENCING TECHNOLOGY | December 2018 | May 2022 | Allow | 42 | 2 | 1 | Yes | No |
| 16204545 | NANOSTRUCTURE FEATURING NANO-TOPOGRAPHY WITH OPTIMIZED ELECTRICAL AND BIOCHEMICAL PROPERTIES | November 2018 | March 2024 | Allow | 60 | 6 | 1 | Yes | No |
This analysis examines appeal outcomes and the strategic value of filing appeals for examiner CARLSON, KOURTNEY SALZMAN.
With a 25.0% reversal rate, the PTAB affirms the examiner's rejections in the vast majority of cases. This reversal rate is below the USPTO average, indicating that appeals face more challenges here than typical.
Filing a Notice of Appeal can sometimes lead to allowance even before the appeal is fully briefed or decided by the PTAB. This occurs when the examiner or their supervisor reconsiders the rejection during the mandatory appeal conference (MPEP § 1207.01) after the appeal is filed.
In this dataset, 41.7% of applications that filed an appeal were subsequently allowed. This appeal filing benefit rate is above the USPTO average, suggesting that filing an appeal can be an effective strategy for prompting reconsideration.
⚠ Appeals to PTAB face challenges. Ensure your case has strong merit before committing to full Board review.
✓ Filing a Notice of Appeal is strategically valuable. The act of filing often prompts favorable reconsideration during the mandatory appeal conference.
Examiner CARLSON, KOURTNEY SALZMAN works in Art Unit 1721 and has examined 258 patent applications in our dataset. With an allowance rate of 54.7%, this examiner allows applications at a lower rate than most examiners at the USPTO. Applications typically reach final disposition in approximately 40 months.
Examiner CARLSON, KOURTNEY SALZMAN's allowance rate of 54.7% places them in the 10% percentile among all USPTO examiners. This examiner is less likely to allow applications than most examiners at the USPTO.
On average, applications examined by CARLSON, KOURTNEY SALZMAN receive 3.00 office actions before reaching final disposition. This places the examiner in the 95% percentile for office actions issued. This examiner issues more office actions than most examiners, which may indicate thorough examination or difficulty in reaching agreement with applicants.
The median time to disposition (half-life) for applications examined by CARLSON, KOURTNEY SALZMAN is 40 months. This places the examiner in the 8% percentile for prosecution speed. Applications take longer to reach final disposition with this examiner compared to most others.
Conducting an examiner interview provides a +39.9% benefit to allowance rate for applications examined by CARLSON, KOURTNEY SALZMAN. This interview benefit is in the 89% percentile among all examiners. Recommendation: Interviews are highly effective with this examiner and should be strongly considered as a prosecution strategy. Per MPEP § 713.10, interviews are available at any time before the Notice of Allowance is mailed or jurisdiction transfers to the PTAB.
When applicants file an RCE with this examiner, 14.5% of applications are subsequently allowed. This success rate is in the 5% percentile among all examiners. Strategic Insight: RCEs show lower effectiveness with this examiner compared to others. Consider whether a continuation application might be more strategic, especially if you need to add new matter or significantly broaden claims.
This examiner enters after-final amendments leading to allowance in 7.5% of cases where such amendments are filed. This entry rate is in the 3% percentile among all examiners. Strategic Recommendation: This examiner rarely enters after-final amendments compared to other examiners. You should generally plan to file an RCE or appeal rather than relying on after-final amendment entry. Per MPEP § 714.12, primary examiners have discretion in entering after-final amendments, and this examiner exercises that discretion conservatively.
When applicants request a pre-appeal conference (PAC) with this examiner, 128.6% result in withdrawal of the rejection or reopening of prosecution. This success rate is in the 83% percentile among all examiners. Strategic Recommendation: Pre-appeal conferences are highly effective with this examiner compared to others. Before filing a full appeal brief, strongly consider requesting a PAC. The PAC provides an opportunity for the examiner and supervisory personnel to reconsider the rejection before the case proceeds to the PTAB.
This examiner withdraws rejections or reopens prosecution in 65.2% of appeals filed. This is in the 40% percentile among all examiners. Of these withdrawals, 60.0% occur early in the appeal process (after Notice of Appeal but before Appeal Brief). Strategic Insight: This examiner shows below-average willingness to reconsider rejections during appeals. Be prepared to fully prosecute appeals if filed.
When applicants file petitions regarding this examiner's actions, 31.2% are granted (fully or in part). This grant rate is in the 23% percentile among all examiners. Strategic Note: Petitions are rarely granted regarding this examiner's actions compared to other examiners. Ensure you have a strong procedural basis before filing a petition, as the Technology Center Director typically upholds this examiner's decisions.
Examiner's Amendments: This examiner makes examiner's amendments in 0.0% of allowed cases (in the 3% percentile). This examiner rarely makes examiner's amendments compared to other examiners. You should expect to make all necessary claim amendments yourself through formal amendment practice.
Quayle Actions: This examiner issues Ex Parte Quayle actions in 0.0% of allowed cases (in the 4% percentile). This examiner rarely issues Quayle actions compared to other examiners. Allowances typically come directly without a separate action for formal matters.
Based on the statistical analysis of this examiner's prosecution patterns, here are tailored strategic recommendations:
Not Legal Advice: The information provided in this report is for informational purposes only and does not constitute legal advice. You should consult with a qualified patent attorney or agent for advice specific to your situation.
No Guarantees: We do not provide any guarantees as to the accuracy, completeness, or timeliness of the statistics presented above. Patent prosecution statistics are derived from publicly available USPTO data and are subject to data quality limitations, processing errors, and changes in USPTO practices over time.
Limitation of Liability: Under no circumstances will IronCrow AI be liable for any outcome, decision, or action resulting from your reliance on the statistics, analysis, or recommendations presented in this report. Past prosecution patterns do not guarantee future results.
Use at Your Own Risk: While we strive to provide accurate and useful prosecution statistics, you should independently verify any information that is material to your prosecution strategy and use your professional judgment in all patent prosecution matters.