What you're actually doing is sort of building the powerset for a set of size x.
A powerset is the set of all possible subsets. For example, the powerset of (list 1 2 3) is (list (list 1 2 3) (list 1 2) (list 1 3) (list 1) (list 2 3) (list 2) (list 3) empty).
(A set is a subset of itself and the empty set is a subset of all sets.)
Why what you're doing describes the powerset is because an element can either be or not be in a subset. So apply (list true true true) to (list 1 2 3) will return (list 1 2 3) and (list false true true) will return (list 2 3).
This is my code for your problem.
(define baselist (list (list true) (list false)))
;; List1 List2 -> List of Lists
;; Where List1 is any list of lists, and list2 is a list of lists of size 2
;; and all of the lists within list 2 has one element
(define (list-combination list-n list-two)
(cond [(empty? list-n) empty]
[else (cons (append (first list-n) (first list-two))
(cons (append (first list-n) (second list-two))
(list-combination (rest list-n) list-two)))]))
;; tflist Number -> List of Boolean Lists
;; creates baselistn
(define (tflist n)
(cond [(= 1 n) baselist]
[else (list-combination (tlist (sub1 n)) baselist)]))
So (tflist 3) will return your original problem.
Now to make a powerset, you can do the following...
;; subset List1 ListofBooleans -> List
;; Determines which elements of a set to create a subset of
;; List1 and LoB are of the same length
(define (subset set t-f-list)
(cond [(empty? t-f-list) empty]
[(first t-f-list) (cons (first set) (subset (rest set) (rest t-f-list)))]
[else (subset (rest set) (rest t-f-list))]))
;;powerset set -> Powerset
;; produces a powerset of a set
(define (powerset set)
(local ((define upperbound (expt 2 (length set)))
(define tflist (tlist (length set)))
(define (powerset set n)
(cond [(= n upperbound) empty]
[else (cons (subset set (list-ref tflist n)) (powerset set (add1 n)))])))
(powerset set 0)))