Kevin Chou
Examiner (ID: 5306)
Most Active Art Unit | 3785 |
Art Unit(s) | 3785 |
Total Applications | 4 |
Issued Applications | 0 |
Pending Applications | 0 |
Abandoned Applications | 4 |
Applications
Application number | Title of the application | Filing Date | Status |
---|---|---|---|
Array
(
[id] => 18990877
[patent_doc_number] => 20240062846
[patent_country] => US
[patent_kind] => A1
[patent_issue_date] => 2024-02-22
[patent_title] => METHODS FOR NON-INVASIVE PRENATAL PLOIDY CALLING
[patent_app_type] => utility
[patent_app_number] => 18/371373
[patent_app_country] => US
[patent_app_date] => 2023-09-21
[patent_effective_date] => 0000-00-00
[patent_drawing_sheets_cnt] => 0
[patent_figures_cnt] => 0
[patent_no_of_words] => 73946
[patent_no_of_claims] => 0
[patent_no_of_ind_claims] => -19
[patent_words_short_claim] => 97
[patent_maintenance] => 1
[patent_no_of_assignments] => 0
[patent_current_assignee] =>[type] => publication
[pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 18371373
[rel_patent_id] =>[rel_patent_doc_number] =>) 18/371373 | METHODS FOR NON-INVASIVE PRENATAL PLOIDY CALLING | Sep 20, 2023 | Pending |
Array
(
[id] => 18865634
[patent_doc_number] => 20230420071
[patent_country] => US
[patent_kind] => A1
[patent_issue_date] => 2023-12-28
[patent_title] => METHODS FOR NON-INVASIVE PRENATAL PLOIDY CALLING
[patent_app_type] => utility
[patent_app_number] => 18/243581
[patent_app_country] => US
[patent_app_date] => 2023-09-07
[patent_effective_date] => 0000-00-00
[patent_drawing_sheets_cnt] => 0
[patent_figures_cnt] => 0
[patent_no_of_words] => 73918
[patent_no_of_claims] => 0
[patent_no_of_ind_claims] => -14
[patent_words_short_claim] => 138
[patent_maintenance] => 1
[patent_no_of_assignments] => 0
[patent_current_assignee] =>[type] => publication
[pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 18243581
[rel_patent_id] =>[rel_patent_doc_number] =>) 18/243581 | METHODS FOR NON-INVASIVE PRENATAL PLOIDY CALLING | Sep 6, 2023 | Pending |
Array
(
[id] => 18923441
[patent_doc_number] => 20240026445
[patent_country] => US
[patent_kind] => A1
[patent_issue_date] => 2024-01-25
[patent_title] => METHODS FOR DETERMINING A LOCATION OF A BIOLOGICAL ANALYTE IN A BIOLOGICAL SAMPLE
[patent_app_type] => utility
[patent_app_number] => 18/446058
[patent_app_country] => US
[patent_app_date] => 2023-08-08
[patent_effective_date] => 0000-00-00
[patent_drawing_sheets_cnt] => 0
[patent_figures_cnt] => 0
[patent_no_of_words] => 158712
[patent_no_of_claims] => 0
[patent_no_of_ind_claims] => -27
[patent_words_short_claim] => 2
[patent_maintenance] => 1
[patent_no_of_assignments] => 0
[patent_current_assignee] =>[type] => publication
[pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 18446058
[rel_patent_id] =>[rel_patent_doc_number] =>) 18/446058 | METHODS FOR DETERMINING A LOCATION OF A BIOLOGICAL ANALYTE IN A BIOLOGICAL SAMPLE | Aug 7, 2023 | Pending |
Array
(
[id] => 18729116
[patent_doc_number] => 20230343411
[patent_country] => US
[patent_kind] => A1
[patent_issue_date] => 2023-10-26
[patent_title] => METHODS FOR NON-INVASIVE PRENATAL PLOIDY CALLING
[patent_app_type] => utility
[patent_app_number] => 18/220183
[patent_app_country] => US
[patent_app_date] => 2023-07-10
[patent_effective_date] => 0000-00-00
[patent_drawing_sheets_cnt] => 0
[patent_figures_cnt] => 0
[patent_no_of_words] => 73856
[patent_no_of_claims] => 0
[patent_no_of_ind_claims] => -28
[patent_words_short_claim] => 114
[patent_maintenance] => 1
[patent_no_of_assignments] => 0
[patent_current_assignee] =>[type] => publication
[pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 18220183
[rel_patent_id] =>[rel_patent_doc_number] =>) 18/220183 | METHODS FOR NON-INVASIVE PRENATAL PLOIDY CALLING | Jul 9, 2023 | Pending |
Array
(
[id] => 18862368
[patent_doc_number] => 20230416804
[patent_country] => US
[patent_kind] => A1
[patent_issue_date] => 2023-12-28
[patent_title] => WHOLE TRANSCRIPTOME ANALYSIS IN SINGLE CELLS
[patent_app_type] => utility
[patent_app_number] => 18/202674
[patent_app_country] => US
[patent_app_date] => 2023-05-26
[patent_effective_date] => 0000-00-00
[patent_drawing_sheets_cnt] => 0
[patent_figures_cnt] => 0
[patent_no_of_words] => 9284
[patent_no_of_claims] => 0
[patent_no_of_ind_claims] => -13
[patent_words_short_claim] => 251
[patent_maintenance] => 1
[patent_no_of_assignments] => 0
[patent_current_assignee] =>[type] => publication
[pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 18202674
[rel_patent_id] =>[rel_patent_doc_number] =>) 18/202674 | WHOLE TRANSCRIPTOME ANALYSIS IN SINGLE CELLS | May 25, 2023 | Pending |
Array
(
[id] => 18497769
[patent_doc_number] => 20230220457
[patent_country] => US
[patent_kind] => A1
[patent_issue_date] => 2023-07-13
[patent_title] => Dumbbell PCR: A Method To Quantify Specific Small RNA Variants With A Single Nucleotide Resolution At Terminal Sequences
[patent_app_type] => utility
[patent_app_number] => 18/054469
[patent_app_country] => US
[patent_app_date] => 2022-11-10
[patent_effective_date] => 0000-00-00
[patent_drawing_sheets_cnt] => 0
[patent_figures_cnt] => 0
[patent_no_of_words] => 11186
[patent_no_of_claims] => 0
[patent_no_of_ind_claims] => -8
[patent_words_short_claim] => 2
[patent_maintenance] => 1
[patent_no_of_assignments] => 0
[patent_current_assignee] =>[type] => publication
[pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 18054469
[rel_patent_id] =>[rel_patent_doc_number] =>) 18/054469 | Dumbbell PCR: A Method To Quantify Specific Small RNA Variants With A Single Nucleotide Resolution At Terminal Sequences | Nov 9, 2022 | Pending |
Array
(
[id] => 18211077
[patent_doc_number] => 20230057339
[patent_country] => US
[patent_kind] => A1
[patent_issue_date] => 2023-02-23
[patent_title] => SYSTEMS AND METHODS FOR CHARACTERIZING LOCATIONS OF TARGET ANALYTES IN MULTI-DIMENSIONAL SPACE
[patent_app_type] => utility
[patent_app_number] => 17/895633
[patent_app_country] => US
[patent_app_date] => 2022-08-25
[patent_effective_date] => 0000-00-00
[patent_drawing_sheets_cnt] => 0
[patent_figures_cnt] => 0
[patent_no_of_words] => 21814
[patent_no_of_claims] => 0
[patent_no_of_ind_claims] => -19
[patent_words_short_claim] => 181
[patent_maintenance] => 1
[patent_no_of_assignments] => 0
[patent_current_assignee] =>[type] => publication
[pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 17895633
[rel_patent_id] =>[rel_patent_doc_number] =>) 17/895633 | SYSTEMS AND METHODS FOR CHARACTERIZING LOCATIONS OF TARGET ANALYTES IN MULTI-DIMENSIONAL SPACE | Aug 24, 2022 | Pending |
Array
(
[id] => 18036624
[patent_doc_number] => 20220380839
[patent_country] => US
[patent_kind] => A1
[patent_issue_date] => 2022-12-01
[patent_title] => METHODS AND KITS FOR DEPLETING UNDESIRED NUCLEIC ACIDS
[patent_app_type] => utility
[patent_app_number] => 17/886126
[patent_app_country] => US
[patent_app_date] => 2022-08-11
[patent_effective_date] => 0000-00-00
[patent_drawing_sheets_cnt] => 0
[patent_figures_cnt] => 0
[patent_no_of_words] => 7757
[patent_no_of_claims] => 0
[patent_no_of_ind_claims] => -4
[patent_words_short_claim] => 65
[patent_maintenance] => 1
[patent_no_of_assignments] => 0
[patent_current_assignee] =>[type] => publication
[pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 17886126
[rel_patent_id] =>[rel_patent_doc_number] =>) 17/886126 | METHODS AND KITS FOR DEPLETING UNDESIRED NUCLEIC ACIDS | Aug 10, 2022 | Pending |
Array
(
[id] => 18198680
[patent_doc_number] => 20230052199
[patent_country] => US
[patent_kind] => A1
[patent_issue_date] => 2023-02-16
[patent_title] => RECOMBINASE POLYMERASE AMPLIFICATION REAGENTS AND KITS
[patent_app_type] => utility
[patent_app_number] => 17/865671
[patent_app_country] => US
[patent_app_date] => 2022-07-15
[patent_effective_date] => 0000-00-00
[patent_drawing_sheets_cnt] => 0
[patent_figures_cnt] => 0
[patent_no_of_words] => 7671
[patent_no_of_claims] => 0
[patent_no_of_ind_claims] => -19
[patent_words_short_claim] => 2
[patent_maintenance] => 1
[patent_no_of_assignments] => 0
[patent_current_assignee] =>[type] => publication
[pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 17865671
[rel_patent_id] =>[rel_patent_doc_number] =>) 17/865671 | RECOMBINASE POLYMERASE AMPLIFICATION REAGENTS AND KITS | Jul 14, 2022 | Pending |
Array
(
[id] => 18058439
[patent_doc_number] => 20220389525
[patent_country] => US
[patent_kind] => A1
[patent_issue_date] => 2022-12-08
[patent_title] => Compositions and Methods for Detecting or Quantifying Hepatitis C Virus
[patent_app_type] => utility
[patent_app_number] => 17/850480
[patent_app_country] => US
[patent_app_date] => 2022-06-27
[patent_effective_date] => 0000-00-00
[patent_drawing_sheets_cnt] => 0
[patent_figures_cnt] => 0
[patent_no_of_words] => 32531
[patent_no_of_claims] => 0
[patent_no_of_ind_claims] => -19
[patent_words_short_claim] => 2
[patent_maintenance] => 1
[patent_no_of_assignments] => 0
[patent_current_assignee] =>[type] => publication
[pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 17850480
[rel_patent_id] =>[rel_patent_doc_number] =>) 17/850480 | Compositions and Methods for Detecting or Quantifying Hepatitis C Virus | Jun 26, 2022 | Pending |
Array
(
[id] => 18021053
[patent_doc_number] => 20220372552
[patent_country] => US
[patent_kind] => A1
[patent_issue_date] => 2022-11-24
[patent_title] => SERIAL FORMATION OF TERNARY COMPLEX SPECIES
[patent_app_type] => utility
[patent_app_number] => 17/845084
[patent_app_country] => US
[patent_app_date] => 2022-06-21
[patent_effective_date] => 0000-00-00
[patent_drawing_sheets_cnt] => 0
[patent_figures_cnt] => 0
[patent_no_of_words] => 24761
[patent_no_of_claims] => 0
[patent_no_of_ind_claims] => -25
[patent_words_short_claim] => 2
[patent_maintenance] => 1
[patent_no_of_assignments] => 0
[patent_current_assignee] =>[type] => publication
[pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 17845084
[rel_patent_id] =>[rel_patent_doc_number] =>) 17/845084 | SERIAL FORMATION OF TERNARY COMPLEX SPECIES | Jun 20, 2022 | Pending |
Array
(
[id] => 18003969
[patent_doc_number] => 20220362735
[patent_country] => US
[patent_kind] => A1
[patent_issue_date] => 2022-11-17
[patent_title] => LIBRARY OF DNA FRAGMENTS TAGGED WITH COMBINATORIAL OLIGONUCLEOTIDE BAR CODES FOR USE IN GENOME SEQUENCING
[patent_app_type] => utility
[patent_app_number] => 17/840843
[patent_app_country] => US
[patent_app_date] => 2022-06-15
[patent_effective_date] => 0000-00-00
[patent_drawing_sheets_cnt] => 0
[patent_figures_cnt] => 0
[patent_no_of_words] => 57046
[patent_no_of_claims] => 0
[patent_no_of_ind_claims] => -21
[patent_words_short_claim] => 131
[patent_maintenance] => 1
[patent_no_of_assignments] => 0
[patent_current_assignee] =>[type] => publication
[pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 17840843
[rel_patent_id] =>[rel_patent_doc_number] =>) 17/840843 | LIBRARY OF DNA FRAGMENTS TAGGED WITH COMBINATORIAL OLIGONUCLEOTIDE BAR CODES FOR USE IN GENOME SEQUENCING | Jun 14, 2022 | Pending |
Array
(
[id] => 17735090
[patent_doc_number] => 20220220549
[patent_country] => US
[patent_kind] => A1
[patent_issue_date] => 2022-07-14
[patent_title] => SELECTIVE AMPLIFICATION USING BLOCKING OLIGONUCLEOTIDES
[patent_app_type] => utility
[patent_app_number] => 17/707409
[patent_app_country] => US
[patent_app_date] => 2022-03-29
[patent_effective_date] => 0000-00-00
[patent_drawing_sheets_cnt] => 0
[patent_figures_cnt] => 0
[patent_no_of_words] => 21424
[patent_no_of_claims] => 0
[patent_no_of_ind_claims] => -18
[patent_words_short_claim] => 78
[patent_maintenance] => 1
[patent_no_of_assignments] => 0
[patent_current_assignee] =>[type] => publication
[pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 17707409
[rel_patent_id] =>[rel_patent_doc_number] =>) 17/707409 | SELECTIVE AMPLIFICATION USING BLOCKING OLIGONUCLEOTIDES | Mar 28, 2022 | Pending |
Array
(
[id] => 17705032
[patent_doc_number] => 20220205038
[patent_country] => US
[patent_kind] => A1
[patent_issue_date] => 2022-06-30
[patent_title] => SINGLE-MOLECULE SEQUENCING OF PLASMA DNA
[patent_app_type] => utility
[patent_app_number] => 17/698574
[patent_app_country] => US
[patent_app_date] => 2022-03-18
[patent_effective_date] => 0000-00-00
[patent_drawing_sheets_cnt] => 0
[patent_figures_cnt] => 0
[patent_no_of_words] => 14331
[patent_no_of_claims] => 0
[patent_no_of_ind_claims] => -18
[patent_words_short_claim] => 97
[patent_maintenance] => 1
[patent_no_of_assignments] => 0
[patent_current_assignee] =>[type] => publication
[pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 17698574
[rel_patent_id] =>[rel_patent_doc_number] =>) 17/698574 | SINGLE-MOLECULE SEQUENCING OF PLASMA DNA | Mar 17, 2022 | Pending |
Array
(
[id] => 17852279
[patent_doc_number] => 20220282321
[patent_country] => US
[patent_kind] => A1
[patent_issue_date] => 2022-09-08
[patent_title] => AMPLICON-BASED SEQUENCING USING DNA SPIKE-INS
[patent_app_type] => utility
[patent_app_number] => 17/684328
[patent_app_country] => US
[patent_app_date] => 2022-03-01
[patent_effective_date] => 0000-00-00
[patent_drawing_sheets_cnt] => 0
[patent_figures_cnt] => 0
[patent_no_of_words] => 28520
[patent_no_of_claims] => 0
[patent_no_of_ind_claims] => -23
[patent_words_short_claim] => 2
[patent_maintenance] => 1
[patent_no_of_assignments] => 0
[patent_current_assignee] =>[type] => publication
[pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 17684328
[rel_patent_id] =>[rel_patent_doc_number] =>) 17/684328 | AMPLICON-BASED SEQUENCING USING DNA SPIKE-INS | Feb 28, 2022 | Pending |
Array
(
[id] => 17563523
[patent_doc_number] => 20220127672
[patent_country] => US
[patent_kind] => A1
[patent_issue_date] => 2022-04-28
[patent_title] => ENHANCING SPECIFICITY OF ANALYTE BINDING
[patent_app_type] => utility
[patent_app_number] => 17/573126
[patent_app_country] => US
[patent_app_date] => 2022-01-11
[patent_effective_date] => 0000-00-00
[patent_drawing_sheets_cnt] => 0
[patent_figures_cnt] => 0
[patent_no_of_words] => 30392
[patent_no_of_claims] => 0
[patent_no_of_ind_claims] => -27
[patent_words_short_claim] => 2
[patent_maintenance] => 1
[patent_no_of_assignments] => 0
[patent_current_assignee] =>[type] => publication
[pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 17573126
[rel_patent_id] =>[rel_patent_doc_number] =>) 17/573126 | Enhancing specificity of analyte binding | Jan 10, 2022 | Issued |
Array
(
[id] => 17830540
[patent_doc_number] => 20220267844
[patent_country] => US
[patent_kind] => A1
[patent_issue_date] => 2022-08-25
[patent_title] => METHODS FOR DETERMINING A LOCATION OF A BIOLOGICAL ANALYTE IN A BIOLOGICAL SAMPLE
[patent_app_type] => utility
[patent_app_number] => 17/572342
[patent_app_country] => US
[patent_app_date] => 2022-01-10
[patent_effective_date] => 0000-00-00
[patent_drawing_sheets_cnt] => 0
[patent_figures_cnt] => 0
[patent_no_of_words] => 158340
[patent_no_of_claims] => 0
[patent_no_of_ind_claims] => -29
[patent_words_short_claim] => 143
[patent_maintenance] => 1
[patent_no_of_assignments] => 0
[patent_current_assignee] =>[type] => publication
[pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 17572342
[rel_patent_id] =>[rel_patent_doc_number] =>) 17/572342 | METHODS FOR DETERMINING A LOCATION OF A BIOLOGICAL ANALYTE IN A BIOLOGICAL SAMPLE | Jan 9, 2022 | Pending |
Array
(
[id] => 17750022
[patent_doc_number] => 20220228227
[patent_country] => US
[patent_kind] => A1
[patent_issue_date] => 2022-07-21
[patent_title] => Two PARMS-SNP Molecular Markers for Identifying Resistant Gene VrTAF5 of Vigna radiata (Linn.) Wilczek Cercospora Leaf Spot Disease
[patent_app_type] => utility
[patent_app_number] => 17/523188
[patent_app_country] => US
[patent_app_date] => 2021-11-10
[patent_effective_date] => 0000-00-00
[patent_drawing_sheets_cnt] => 0
[patent_figures_cnt] => 0
[patent_no_of_words] => 3698
[patent_no_of_claims] => 0
[patent_no_of_ind_claims] => -4
[patent_words_short_claim] => 224
[patent_maintenance] => 1
[patent_no_of_assignments] => 0
[patent_current_assignee] =>[type] => publication
[pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 17523188
[rel_patent_id] =>[rel_patent_doc_number] =>) 17/523188 | Two PARMS-SNP Molecular Markers for Identifying Resistant Gene VrTAF5 of Vigna radiata (Linn.) Wilczek Cercospora Leaf Spot Disease | Nov 9, 2021 | Abandoned |
Array
(
[id] => 17830541
[patent_doc_number] => 20220267845
[patent_country] => US
[patent_kind] => A1
[patent_issue_date] => 2022-08-25
[patent_title] => Selective Amplfication of Nucleic Acid Sequences
[patent_app_type] => utility
[patent_app_number] => 17/300756
[patent_app_country] => US
[patent_app_date] => 2021-10-22
[patent_effective_date] => 0000-00-00
[patent_drawing_sheets_cnt] => 0
[patent_figures_cnt] => 0
[patent_no_of_words] => 41225
[patent_no_of_claims] => 0
[patent_no_of_ind_claims] => -52
[patent_words_short_claim] => 39
[patent_maintenance] => 1
[patent_no_of_assignments] => 0
[patent_current_assignee] =>[type] => publication
[pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 17300756
[rel_patent_id] =>[rel_patent_doc_number] =>) 17/300756 | Selective Amplfication of Nucleic Acid Sequences | Oct 21, 2021 | Pending |
Array
(
[id] => 17399998
[patent_doc_number] => 20220042088
[patent_country] => US
[patent_kind] => A1
[patent_issue_date] => 2022-02-10
[patent_title] => METHODS AND COMPOSITIONS FOR PATHOGEN DETECTION IN PLANTS
[patent_app_type] => utility
[patent_app_number] => 17/500648
[patent_app_country] => US
[patent_app_date] => 2021-10-13
[patent_effective_date] => 0000-00-00
[patent_drawing_sheets_cnt] => 0
[patent_figures_cnt] => 0
[patent_no_of_words] => 73284
[patent_no_of_claims] => 0
[patent_no_of_ind_claims] => -26
[patent_words_short_claim] => 93
[patent_maintenance] => 1
[patent_no_of_assignments] => 0
[patent_current_assignee] =>[type] => publication
[pdf_file] =>[firstpage_image] =>[orig_patent_app_number] => 17500648
[rel_patent_id] =>[rel_patent_doc_number] =>) 17/500648 | Methods and compositions for pathogen detection in plants | Oct 12, 2021 | Issued |